WO2020199001A1 - Information transmission method, information transmission device, and communication system - Google Patents

Abstract

The present application provides an information transmission method, an information transmission device, and a communication system. In the information transmission device, an MAC layer determines whether or not to carry out a later instruction having a higher priority, or a physical layer determines whether or not to transmit data or a scheduling request for said higher-priority service. Thus, even if uplink resources of various services are in conflict, the device can still meet delay and/or reliability requirements of higher-priority services while protecting the transmission of lower-priority services.

Description

Translated fromChinese

信息发送方法、信息发送装置和通信系统Information sending method, information sending device and communication system技术领域Technical field

本申请涉及通信领域，特别涉及一种信息发送方法、信息发送装置和通信系统。This application relates to the field of communications, and in particular to an information sending method, an information sending device and a communication system.

背景技术Background technique

在5G通信中，一个终端设备可以支持多种具有不同延时与可靠性要求的业务，并支持不同的上行资源分配方式，即通过基于动态许可(dynamic grant)的方式或者是配置许可(configured grant)的方式获得上行许可(UL grant)，并进一步获取上行资源。In 5G communication, a terminal device can support a variety of services with different delay and reliability requirements, and support different uplink resource allocation methods, that is, through a dynamic grant based method or a configured grant ) To obtain an uplink grant (UL grant), and further obtain uplink resources.

当不同业务和/或不同资源分配方式的上行资源重叠，即发生冲突时，可以定义不同业务和/或不同资源分配方式的优先级，并通过丢掉(drop)、推迟(delay)或打孔(puncture)低优先级的业务和/或资源分配方式所对应的数据信道或控制信道来解决上述冲突。When the uplink resources of different services and/or different resource allocation methods overlap, that is, when conflicts occur, the priority of different services and/or different resource allocation methods can be defined, and the priority can be defined by dropping, delaying or punching ( puncture) the data channel or control channel corresponding to the low-priority service and/or resource allocation method to resolve the conflict.

根据发生冲突的上行资源的信道类型，即是控制信道还是数据信道，有以下三种不同的冲突情况：数据信道与数据信道的冲突、数据信道与控制信道的冲突、以及控制信道与控制信道的冲突。其中，根据上行资源分配方式的不同，数据信道与数据信道的冲突包括以下三种情况：动态许可与动态许可之间的冲突、动态许可与配置许可之间的冲突、以及配置许可与配置许可之间的冲突。According to the channel type of the conflicting uplink resource, that is, control channel or data channel, there are three different conflict situations: data channel and data channel conflict, data channel and control channel conflict, and control channel and control channel conflict conflict. Among them, according to different uplink resource allocation methods, the conflict between the data channel and the data channel includes the following three situations: the conflict between the dynamic permission and the dynamic permission, the conflict between the dynamic permission and the configuration permission, and the configuration permission and the configuration permission. Conflict between.

此外，上行控制信道可以包含以下三种信息：混合自动重传请求(HARQ)、调度请求(SR)、以及信道状态信息(CSI)。In addition, the uplink control channel may contain the following three types of information: Hybrid Automatic Repeat Request (HARQ), Scheduling Request (SR), and Channel State Information (CSI).

应该注意，上面对技术背景的介绍只是为了方便对本申请的技术方案进行清楚、完整的说明，并方便本领域技术人员的理解而阐述的。不能仅仅因为这些方案在本申请的背景技术部分进行了阐述而认为上述技术方案为本领域技术人员所公知。It should be noted that the above introduction to the technical background is only for the convenience of a clear and complete description of the technical solution of the present application, and to facilitate the understanding of those skilled in the art. It should not be considered that the above technical solutions are well-known to those skilled in the art just because these solutions are described in the background art part of this application.

发明内容Summary of the invention

本申请的发明人发现，在现有的解决上述冲突的方案中，有些方案局限于由物理层解决冲突，有些方案局限于由MAC层解决冲突，这些方案有时难以满足较高优先级业务的延时和/或可靠性需求，此外，有时也难以对较低优先级业务的传输进行保 护。The inventor of the present application found that, among the existing solutions for resolving the above conflicts, some solutions are limited to the physical layer to resolve the conflicts, and some solutions are limited to the MAC layer to resolve the conflicts. These solutions are sometimes difficult to meet the delay of higher priority services. Time and/or reliability requirements. In addition, it is sometimes difficult to protect the transmission of lower priority services.

本申请实施例提供一种信息发送方法、信息发送装置和通信系统，在该信息发送方法中，认为MAC层对物理层的较晚的指示所对应的业务的优先级较高，MAC层或物理层决定是否进行该较晚的指示或者是否发送该优先级较高的业务的数据，由此，在不同业务的上行资源发生冲突的情况下，能够满足较高优先级业务的延时和/或可靠性需求，此外，也能保护较低优先级业务的传输。The embodiments of the present application provide an information sending method, an information sending device, and a communication system. In the information sending method, it is considered that the priority of the service corresponding to the later indication of the MAC layer to the physical layer is higher, and the MAC layer or the physical layer The layer decides whether to perform the later instruction or whether to send the data of the higher priority service. Therefore, when the uplink resources of different services conflict, the delay and/or the higher priority service can be met. Reliability requirements, in addition, can also protect the transmission of lower priority services.

根据本申请实施例的第一方面，提供了一种信息发送装置，包括：第一接收单元，其接收终端设备的媒体接入控制(MAC)层对物理层进行的第一指示以及第二指示，所述第一指示用于指示所述物理层生成第一物理上行共享信道(PUSCH)传输，所述第二指示用于指示所述物理层生成第二PUSCH传输；第一发送单元，其发送所述第二PUSCH和/或所述第一PUSCH；其中，所述第一PUSCH所在物理时频资源与所述第二PUSCH传输所在物理时频资源在时域上至少部分重叠，并且，所述第一指示早于所述第二指示。According to a first aspect of the embodiments of the present application, there is provided an information sending device, including: a first receiving unit, which receives a first instruction and a second instruction from a media access control (MAC) layer of a terminal device to a physical layer , The first indication is used to instruct the physical layer to generate a first physical uplink shared channel (PUSCH) transmission, and the second indication is used to instruct the physical layer to generate a second PUSCH transmission; the first sending unit sends The second PUSCH and/or the first PUSCH; wherein the physical time-frequency resource where the first PUSCH is located and the physical time-frequency resource where the second PUSCH is transmitted at least partially overlap in the time domain, and the The first instruction is earlier than the second instruction.

根据本申请实施例的第二方面，提供了一种信息发送方法，包括：媒体接入控制(MAC)层对物理层进行第一指示以及第二指示，所述第一指示用于指示所述物理层生成第一物理上行共享信道(PUSCH)传输，所述第二指示用于指示所述物理层生成第二PUSCH传输；发送所述第二PUSCH和/或所述第一PUSCH；其中，所述第一PUSCH所在物理时频资源与所述第二PUSCH传输所在物理时频资源在时域上至少部分重叠，并且，所述第一指示早于所述第二指示。According to a second aspect of the embodiments of the present application, there is provided an information sending method, including: a medium access control (MAC) layer performs a first instruction and a second instruction on the physical layer, and the first instruction is used to indicate the The physical layer generates a first physical uplink shared channel (PUSCH) transmission, and the second indication is used to instruct the physical layer to generate a second PUSCH transmission; send the second PUSCH and/or the first PUSCH; where The physical time-frequency resource where the first PUSCH is located and the physical time-frequency resource where the second PUSCH is transmitted at least partially overlap in the time domain, and the first indication is earlier than the second indication.

根据本申请实施例的第三方面，提供了一种通信系统，该通信系统包括终端设备和网络设备，该终端设备包括如上述实施例的第一方面所述的信息发送装置。According to a third aspect of the embodiments of the present application, a communication system is provided, the communication system includes a terminal device and a network device, and the terminal device includes the information sending apparatus as described in the first aspect of the foregoing embodiment.

本申请实施例的有益效果在于：能够满足较高优先级业务的延时和/或可靠性需求，此外，也能保护较低优先级业务的传输。The beneficial effects of the embodiments of the present application are that the delay and/or reliability requirements of higher priority services can be met, and in addition, the transmission of lower priority services can also be protected.

参照后文的说明和附图，详细公开了本申请的特定实施方式，指明了本申请的原理可以被采用的方式。应该理解，本申请的实施方式在范围上并不因而受到限制。在所附权利要求的条款的范围内，本申请的实施方式包括许多改变、修改和等同。With reference to the following description and drawings, specific implementations of the application are disclosed in detail, and the manner in which the principles of the application can be adopted is indicated. It should be understood that the scope of the implementation of the present application is not limited thereby. Within the scope of the terms of the appended claims, the implementation of the present application includes many changes, modifications and equivalents.

针对一种实施方式描述和/或示出的特征可以以相同或类似的方式在一个或更多个其它实施方式中使用，与其它实施方式中的特征相组合，或替代其它实施方式中的特征。Features described and/or shown for one embodiment can be used in one or more other embodiments in the same or similar manner, combined with features in other embodiments, or substituted for features in other embodiments .

应该强调，术语“包括/包含”在本文使用时指特征、整件、步骤或组件的存在，但并不排除一个或更多个其它特征、整件、步骤或组件的存在或附加。It should be emphasized that the term "comprising/comprising" when used herein refers to the existence of features, components, steps or components, but does not exclude the existence or addition of one or more other features, components, steps or components.

附图说明Description of the drawings

在本申请实施例的一个附图或一种实施方式中描述的元素和特征可以与一个或更多个其它附图或实施方式中示出的元素和特征相结合。此外，在附图中，类似的标号表示几个附图中对应的部件，并可用于指示多于一种实施方式中使用的对应部件。The elements and features described in one drawing or one embodiment of the embodiment of the present application may be combined with the elements and features shown in one or more other drawings or embodiments. In addition, in the drawings, similar reference numerals indicate corresponding parts in several drawings, and may be used to indicate corresponding parts used in more than one embodiment.

所包括的附图用来提供对本申请实施例的进一步的理解，其构成了说明书的一部分，用于例示本申请的实施方式，并与文字描述一起来阐释本申请的原理。显而易见地，下面描述中的附图仅仅是本申请的一些实施例，对于本领域普通技术人员来讲，在不付出创造性劳动的前提下，还可以根据这些附图获得其他的附图。在附图中：The included drawings are used to provide a further understanding of the embodiments of the present application, which constitute a part of the specification, are used to illustrate the embodiments of the present application, and together with the text description, explain the principle of the present application. Obviously, the drawings in the following description are only some embodiments of the application. For those of ordinary skill in the art, other drawings can be obtained based on these drawings without creative work. In the attached picture:

图1是本申请的通信系统的一个示意图；Figure 1 is a schematic diagram of the communication system of the present application;

图2是物理层获得上行许可到上行数据发送期间的示意图；Fig. 2 is a schematic diagram of the period from when the physical layer obtains the uplink permission to the uplink data transmission;

图3是本实施例1的信息发送方法的一个示意图；FIG. 3 is a schematic diagram of the information sending method of the first embodiment;

图4的(a)、(b)、(c)是本申请实施例1的第一PUSCH和第二PUSCH的时间关系的三个示意图；(A), (b), (c) of FIG. 4 are three schematic diagrams of the time relationship between the first PUSCH and the second PUSCH inEmbodiment 1 of the present application;

图5是本申请实施例1的第一PUSCH和第二PUSCH的时间关系的另一个示意图；FIG. 5 is another schematic diagram of the time relationship between the first PUSCH and the second PUSCH inEmbodiment 1 of the present application;

图6是本实施例2的信息发送方法的一个示意图；FIG. 6 is a schematic diagram of the information sending method of the second embodiment;

图7是本实施例3的信息发送方法的一个示意图；FIG. 7 is a schematic diagram of the information sending method of the third embodiment;

图8的(a)、(b)、(c)是本申请实施例3的第一PUSCH和SR的时间关系的三个示意图；Fig. 8 (a), (b), (c) are three schematic diagrams of the time relationship between the first PUSCH and SR in Embodiment 3 of the present application;

图9是本申请实施例3的第一PUSCH和SR的时间关系的另一个示意图；9 is another schematic diagram of the time relationship between the first PUSCH and SR in Embodiment 3 of the present application;

图10的(a)、(b)、(c)是本申请实施例3的第一PUSCH和SR的时间关系的三个示意图；(A), (b), (c) of FIG. 10 are three schematic diagrams of the time relationship between the first PUSCH and SR in Embodiment 3 of the present application;

图11是本申请实施例3的第一PUSCH和SR的时间关系的另一个示意图；11 is another schematic diagram of the time relationship between the first PUSCH and SR in Embodiment 3 of the present application;

图12是本实施例4的信息发送方法的一个示意图；FIG. 12 is a schematic diagram of the information sending method of the fourth embodiment;

图13是本实施例5的信息发送方法的一个示意图；FIG. 13 is a schematic diagram of the information sending method of the fifth embodiment;

图14是本实施例6的信息发送方法的一个示意图；FIG. 14 is a schematic diagram of the information sending method of the sixth embodiment;

图15是本实施例6的信息发送方法的另一个示意图；15 is another schematic diagram of the information sending method of the sixth embodiment;

图16是本实施例7的信息发送装置的一个示意图；FIG. 16 is a schematic diagram of the information sending device of the seventh embodiment;

图17是本实施例7的信息发送装置的另一个示意图；FIG. 17 is another schematic diagram of the information sending device of the seventh embodiment;

图18是本实施例7的信息发送装置的另一个示意图；FIG. 18 is another schematic diagram of the information sending device of the seventh embodiment;

图19是本实施例7的信息发送装置的另一个示意图；FIG. 19 is another schematic diagram of the information sending device of the seventh embodiment;

图20是本实施例7的信息发送装置的另一个示意图；FIG. 20 is another schematic diagram of the information sending device of the seventh embodiment;

图21是本实施例7的信息发送装置的另一个示意图；FIG. 21 is another schematic diagram of the information sending device of the seventh embodiment;

图22是本实施例7的信息发送装置的另一个示意图；FIG. 22 is another schematic diagram of the information sending device of the seventh embodiment;

图23是本申请实施例8的终端设备的构成示意图。FIG. 23 is a schematic diagram of the structure of a terminal device according to Embodiment 8 of the present application.

具体实施方式detailed description

参照附图，通过下面的说明书，本申请的前述以及其它特征将变得明显。在说明书和附图中，具体公开了本申请的特定实施方式，其表明了其中可以采用本申请的原则的部分实施方式，应了解的是，本申请不限于所描述的实施方式，相反，本申请包括落入所附权利要求的范围内的全部修改、变型以及等同物。下面结合附图对本申请的各种实施方式进行说明。这些实施方式只是示例性的，不是对本申请的限制。With reference to the drawings, the foregoing and other features of this application will become apparent through the following description. In the specification and drawings, specific implementations of the application are specifically disclosed, which indicate some implementations in which the principles of the application can be adopted. It should be understood that the application is not limited to the described implementations, on the contrary, the The application includes all modifications, variations and equivalents falling within the scope of the appended claims. Various embodiments of the present application will be described below in conjunction with the drawings. These implementation manners are only exemplary, and are not limitations to the application.

在本申请实施例中，术语“第一”、“第二”等用于对不同元素从称谓上进行区分，但并不表示这些元素的空间排列或时间顺序等，这些元素不应被这些术语所限制。术语“和/或”包括相关联列出的术语的一种或多个中的任何一个和所有组合。术语“包含”、“包括”、“具有”等是指所陈述的特征、元素、元件或组件的存在，但并不排除存在或添加一个或多个其他特征、元素、元件或组件。In the embodiments of this application, the terms "first", "second", etc. are used to distinguish different elements from the terms, but they do not indicate the spatial arrangement or temporal order of these elements. These elements should not be used by these terms. Limited. The term "and/or" includes any and all combinations of one or more of the associated listed terms. The terms "comprising", "including", "having" and the like refer to the existence of the stated features, elements, elements or components, but do not exclude the presence or addition of one or more other features, elements, elements or components.

在本申请实施例中，单数形式“一”、“该”等包括复数形式，应广义地理解为“一种”或“一类”而并不是限定为“一个”的含义；此外术语“该”应理解为既包括单数形式也包括复数形式，除非上下文另外明确指出。此外术语“根据”应理解为“至少部分根据……”，术语“基于”应理解为“至少部分基于……”，除非上下文另外明确指出。In the embodiments of this application, the singular forms "a", "the", etc. include plural forms, which should be broadly understood as "a" or "a type" rather than being limited to the meaning of "a"; in addition, the term "the" "Should be understood to include both singular and plural forms, unless the context clearly indicates otherwise. In addition, the term "based on" should be understood as "based at least in part on..." and the term "based on" should be understood as "based at least in part on..." unless the context clearly dictates otherwise.

在本申请实施例中，术语“通信网络”或“无线通信网络”可以指符合如下任意通信标准的网络，例如长期演进(LTE，Long Term Evolution)、增强的长期演进(LTE-A，LTE-Advanced)、宽带码分多址接入(WCDMA，Wideband Code Division Multiple Access)、高速报文接入(HSPA，High-Speed Packet Access)等等。In the embodiments of this application, the term "communication network" or "wireless communication network" may refer to a network that meets any of the following communication standards, such as Long Term Evolution (LTE), and Enhanced Long Term Evolution (LTE-A, LTE-A). Advanced), Wideband Code Division Multiple Access (WCDMA, Wideband Code Division Multiple Access), High-Speed Packet Access (HSPA, High-Speed Packet Access), etc.

并且，通信系统中设备之间的通信可以根据任意阶段的通信协议进行，例如可以包括但不限于如下通信协议：1G(generation)、2G、2.5G、2.75G、3G、4G、4.5G以及未来的5G、新无线(NR，New Radio)等等，和/或其他目前已知或未来将被开发的通信协议。Moreover, the communication between devices in the communication system can be carried out according to any stage of communication protocol, for example, it can include but not limited to the following communication protocols: 1G (generation), 2G, 2.5G, 2.75G, 3G, 4G, 4.5G and future 5G, New Radio (NR, New Radio), etc., and/or other currently known or future communication protocols.

在本申请实施例中，术语“网络设备”例如是指通信系统中将终端设备接入通信网络并为该终端设备提供服务的设备。网络设备可以包括但不限于如下设备：基站(BS，Base Station)、接入点(AP、Access Point)、发送接收点(TRP，Transmission Reception Point)、广播发射机、移动管理实体(MME，Mobile Management Entity)、网关、服务器、无线网络控制器(RNC，Radio Network Controller)、基站控制器(BSC，Base Station Controller)等等。In the embodiments of the present application, the term “network device” refers to, for example, a device in a communication system that connects a terminal device to a communication network and provides services for the terminal device. Network equipment may include but not limited to the following equipment: base station (BS, Base Station), access point (AP, Access Point), transmission and reception point (TRP, Transmission Reception Point), broadcast transmitter, mobile management entity (MME, Mobile Management Entity), gateway, server, radio network controller (RNC, Radio Network Controller), base station controller (BSC, Base Station Controller), etc.

其中，基站可以包括但不限于：节点B(NodeB或NB)、演进节点B(eNodeB或eNB)以及5G基站(gNB)，等等，此外还可包括远端无线头(RRH，Remote Radio Head)、远端无线单元(RRU，Remote Radio Unit)、中继(relay)或者低功率节点(例如femto、pico等等)。并且术语“基站”可以包括它们的一些或所有功能，每个基站可以对特定的地理区域提供通信覆盖。术语“小区”可以指的是基站和/或其覆盖区域，这取决于使用该术语的上下文。Among them, the base station may include but is not limited to: Node B (NodeB or NB), evolved Node B (eNodeB or eNB), 5G base station (gNB), etc., and may also include remote radio head (RRH, Remote Radio Head) , Remote Radio Unit (RRU, Remote Radio Unit), relay (relay) or low-power node (such as femto, pico, etc.). And the term "base station" can include some or all of their functions, and each base station can provide communication coverage for a specific geographic area. The term "cell" may refer to a base station and/or its coverage area, depending on the context in which the term is used.

在本申请实施例中，术语“用户设备”(UE，User Equipment)或者“终端设备”(TE，Terminal Equipment)例如是指通过网络设备接入通信网络并接收网络服务的设备。终端设备可以是固定的或移动的，并且也可以称为移动台(MS，Mobile Station)、终端、用户台(SS，Subscriber Station)、接入终端(AT，Access Terminal)、站，等等。In the embodiments of the present application, the term "User Equipment" (UE, User Equipment) or "Terminal Equipment" (TE, Terminal Equipment) refers to, for example, equipment that accesses a communication network through a network device and receives network services. The terminal device may be fixed or mobile, and may also be called a mobile station (MS, Mobile Station), terminal, subscriber station (SS, Subscriber Station), access terminal (AT, Access Terminal), station, etc.

其中，终端设备可以包括但不限于如下设备：蜂窝电话(Cellular Phone)、个人数字助理(PDA，Personal Digital Assistant)、无线调制解调器、无线通信设备、手持设备、机器型通信设备、膝上型计算机、无绳电话、智能手机、智能手表、数字相机，等等。Among them, terminal devices may include but are not limited to the following devices: cellular phones (Cellular Phone), personal digital assistants (PDAs, Personal Digital Assistant), wireless modems, wireless communication devices, handheld devices, machine-type communication devices, laptop computers, Cordless phones, smart phones, smart watches, digital cameras, etc.

再例如，在物联网(IoT，Internet of Things)等场景下，终端设备还可以是进行监控或测量的机器或装置，例如可以包括但不限于：机器类通信(MTC，Machine Type Communication)终端、车载通信终端、设备到设备(D2D，Device to Device)终端、机器到机器(M2M，Machine to Machine)终端，等等。For another example, in scenarios such as the Internet of Things (IoT), a terminal device may also be a machine or device that performs monitoring or measurement. For example, it may include, but is not limited to: Machine Type Communication (MTC) terminals, Vehicle-mounted communication terminals, device to device (D2D, Device to Device) terminals, machine to machine (M2M, Machine to Machine) terminals, etc.

以下通过示例对本申请实施例的场景进行说明，但本申请不限于此。The following uses examples to illustrate the scenarios of the embodiments of the present application, but the present application is not limited to this.

图1是本申请的通信系统的一示意图，示意性说明了以终端设备和网络设备为例的情况，如图1所示，通信系统100可以包括网络设备101和终端设备102(为简单起见，图1仅以一个终端设备为例进行说明)。FIG. 1 is a schematic diagram of the communication system of the present application, schematically illustrating the case of taking terminal equipment and network equipment as an example. As shown in FIG. 1, thecommunication system 100 may include anetwork equipment 101 and a terminal equipment 102 (for simplicity, Figure 1 only takes one terminal device as an example for illustration).

在本申请实施例中，网络设备101和终端设备102之间可以进行现有的业务或者未来可实施的业务。例如，这些业务包括但不限于：增强的移动宽带(eMBB，enhanced Mobile Broadband)、大规模机器类型通信(mMTC，massive Machine Type Communication)和高可靠低时延通信(URLLC，Ultra-Reliable and Low-Latency Communication)，等等。In the embodiment of the present application, existing services or services that can be implemented in the future can be performed between thenetwork device 101 and theterminal device 102. For example, these services include but are not limited to: enhanced mobile broadband (eMBB, enhanced Mobile Broadband), large-scale machine type communication (mMTC, massive Machine Type Communication), and highly reliable and low-latency communication (URLLC, Ultra-Reliable and Low- Latency Communication), etc.

其中，终端设备102可以向网络设备101发送数据，例如使用授权或免授权传输方式。终端设备101可以接收一个或多个终端设备102发送的数据，并向终端设备102反馈信息，例如确认ACK/非确认NACK信息等，终端设备102根据反馈信息可以确认结束传输过程、或者还可以再进行新的数据传输，或者可以进行数据重传。Wherein, theterminal device 102 can send data to thenetwork device 101, for example, using an authorized or unauthorized transmission mode. Theterminal device 101 may receive data sent by one or moreterminal devices 102, and feedback information to theterminal device 102, such as acknowledgement ACK/non-acknowledgement NACK information, etc. Theterminal device 102 may confirm the end of the transmission process according to the feedback information, or may also Perform new data transmission, or data retransmission can be performed.

此外，在终端设备102接入网络设备101之前，网络设备101可以向终端设备102发送与系统信息有关的信息，终端设备102对接收到的信息进行检测，以实现下行同步，并与网络设备101建立连接。In addition, before theterminal device 102 accesses thenetwork device 101, thenetwork device 101 may send information related to system information to theterminal device 102, and theterminal device 102 detects the received information to achieve downlink synchronization and communicate with thenetwork device 101. establish connection.

以下以将通信系统中的网络设备作为发送端，将终端设备作为接收端为例进行说明，但本申请不限于此，发送端和/或接收端还可以是其他的设备。例如，本申请不仅适用于网络设备和终端设备之间的信号传输，还可以适用于两个终端设备之间的信号传输。The following description takes the network device in the communication system as the sending end and the terminal device as the receiving end as an example, but the application is not limited to this, and the sending end and/or the receiving end may also be other devices. For example, this application is not only applicable to signal transmission between network equipment and terminal equipment, but also applicable to signal transmission between two terminal equipment.

此外，在本申请的下述各实施例中，终止某一个过程的含义可以是：停止(terminate)，忽视(ignore)，放弃(drop/discard)，或暂停(suspend)等。上述含义可以相互替换。In addition, in the following embodiments of the present application, the meaning of terminating a certain process may be: terminate, ignore, drop/discard, or suspend. The above meanings can be replaced with each other.

此外，在本申请的下述各实施例中，第一指示可以包括：MAC层做出第一指示的动作，或者MAC层发出与第一指示对应的第一指示信息。第二指示可以包括：MAC层做出第二指示的动作，或者MAC层发出与第二指示对应的第二指示信息。第三指示可以包括：MAC层做出第三指示的动作，或者MAC层发出与第三指示对应的第三指示信息。In addition, in the following embodiments of the present application, the first instruction may include: the MAC layer makes the first instruction action, or the MAC layer sends out the first instruction information corresponding to the first instruction. The second instruction may include: the MAC layer makes the second instruction action, or the MAC layer sends out the second instruction information corresponding to the second instruction. The third instruction may include: the MAC layer makes the third instruction action, or the MAC layer sends out the third instruction information corresponding to the third instruction.

实施例1Example 1

本申请实施例1提供一种信息发送方法，该方法可以由终端设备执行。Embodiment 1 of the present application provides an information sending method, which can be executed by a terminal device.

本实施例的信息发送方法用于解决不同的PUSCH传输在时域上冲突的情形。The information sending method of this embodiment is used to resolve the situation where different PUSCH transmissions collide in the time domain.

图2是物理层获得上行许可(UL grant)到上行数据(例如，PUSCH)发送期间的示意图。Fig. 2 is a schematic diagram of the period from when the physical layer obtains an uplink grant (UL grant) to the transmission of uplink data (for example, PUSCH).

如图2所示，物理层获得上行许可(UL grant)包括：在动态许可(dynamic grant)的情况下，物理层接收物理下行控制信道(PDCCH)或随机接入响应(RAR)(图2的201)，从而获得上行许可(UL grant)；或者，在配置许可(configured grant)的情况下，通过无线资源控制(RRC)信令或PDCCH半静态配置许可，当许可被激活(图2的202)，从而获得上行许可(UL grant)。As shown in Figure 2, obtaining an uplink grant (UL grant) at the physical layer includes: in the case of a dynamic grant, the physical layer receives a physical downlink control channel (PDCCH) or random access response (RAR) (Figure 2 201) to obtain an uplink grant (UL grant); or, in the case of a configured grant, the grant is configured through radio resource control (RRC) signaling or PDCCH semi-statically, when the grant is activated (202 in Figure 2) ) To obtain an uplink grant (UL grant).

如图2的203、204所示，上行许可被发送给MAC层。MAC层经过处理(图2的205)，根据存储的上行许可(UL grant)指示物理层生成PUSCH传输(PUSHC transmission)(图2的206)。该指示例如可以是：作出指示动作，或者，发出指示信息。As shown in 203 and 204 in Figure 2, the uplink permission is sent to the MAC layer. The MAC layer is processed (205 in FIG. 2), and instructs the physical layer to generate PUSCH transmission (PUSHC transmission) (206 in FIG. 2) according to the stored uplink grant (UL grant). The instruction may be, for example, making an instruction action or issuing instruction information.

如图2所示，物理层在该指示下，生成PUSCH传输(图2的207)，并发送该PUSCH传输(图2的208)。As shown in FIG. 2, the physical layer generates a PUSCH transmission (207 in FIG. 2) under this instruction, and sends the PUSCH transmission (208 in FIG. 2).

图3是本实施例的信息发送方法的一个示意图，如图3所示，该方法包括：FIG. 3 is a schematic diagram of the information sending method of this embodiment. As shown in FIG. 3, the method includes:

步骤301、终端设备的媒体接入控制(MAC)层对物理层进行第一指示，所述第一指示用于指示所述物理层生成第一物理上行共享信道(PUSCH)传输；Step 301: The media access control (MAC) layer of the terminal device gives a first instruction to the physical layer, where the first instruction is used to instruct the physical layer to generate a first physical uplink shared channel (PUSCH) transmission;

步骤302、所述MAC层对所述物理层进行第二指示，所述第二指示用于指示所述物理层生成第二PUSCH传输；Step 302: The MAC layer gives a second instruction to the physical layer, where the second instruction is used to instruct the physical layer to generate a second PUSCH transmission;

步骤303、所述物理层发送所述第二PUSCH和/或所述第一PUSCH。Step 303: The physical layer sends the second PUSCH and/or the first PUSCH.

在本实施例中，第一PUSCH传输与第二PUSCH传输在时域上冲突，即，第一PUSCH传输所在物理时频资源与第二PUSCH传输所在物理时频资源在时域上至少部分重叠，其中，该至少部分重叠包括部分重叠或完全重叠。In this embodiment, the first PUSCH transmission and the second PUSCH transmission conflict in the time domain, that is, the physical time-frequency resource where the first PUSCH transmission is located and the physical time-frequency resource where the second PUSCH transmission is located at least partially overlap in the time domain, Wherein, the at least partial overlap includes partial overlap or complete overlap.

在本实施例中，第一PUSCH传输与第二PUSCH传输的冲突包括以下三种情况：动态许可与动态许可之间的冲突、动态许可与配置许可之间的冲突、以及配置许可与配置许可之间的冲突。In this embodiment, the conflict between the first PUSCH transmission and the second PUSCH transmission includes the following three situations: the conflict between the dynamic permission and the dynamic permission, the conflict between the dynamic permission and the configuration permission, and the conflict between the configuration permission and the configuration permission. Conflict between.

此外，第一PUSCH传输所在物理时频资源与第二PUSCH传输所在物理时频资源在频域上可以是部分重叠，完全重叠，或者不重叠。In addition, the physical time-frequency resource where the first PUSCH is transmitted and the physical time-frequency resource where the second PUSCH is transmitted may partially overlap, completely overlap, or not overlap in the frequency domain.

在本实施例中，该第一指示早于该第二指示，即，第二指示对应的业务的优先级较高。In this embodiment, the first indication is earlier than the second indication, that is, the priority of the service corresponding to the second indication is higher.

根据本实施例，物理层决定是否发送该优先级较高的业务对应的第二PUSCH，由此，在不同业务的上行资源发生冲突的情况下，能够满足较高优先级业务的延时和/或可靠性需求，此外，也能保护较低优先级业务的传输。According to this embodiment, the physical layer decides whether to send the second PUSCH corresponding to the higher priority service. Therefore, when the uplink resources of different services collide, the delay and/or delay of the higher priority service can be met. Or reliability requirements, in addition, can also protect the transmission of lower priority services.

例如，如果物理层决定发送低优先级的业务，那么，物理层继续正在进行的发送低优先级的业务的过程，并且丢掉或忽视(drop/ignore)高优先级业务的传输；如果物理层决定发送高优先级的业务，那么，物理层终止正在进行的发送低优先级的业务的过程，并且进行高优先级业务的传输。For example, if the physical layer decides to send low-priority services, then the physical layer continues the ongoing process of sending low-priority services, and drops/ignores the transmission of high-priority services; if the physical layer decides To send high-priority services, then the physical layer terminates the ongoing process of sending low-priority services and performs transmission of high-priority services.

在本实施例中，如图3所示，步骤303可以包括三种情况：In this embodiment, as shown in FIG. 3, step 303 may include three situations:

步骤304、该物理层根据所述第二指示生成所述第二PUSCH传输，并发送所述第二PUSCH传输；Step 304: The physical layer generates the second PUSCH transmission according to the second instruction, and sends the second PUSCH transmission;

步骤306、该物理层根据所述第二指示生成所述第二PUSCH传输，并发送所述第二PUSCH传输；Step 306: The physical layer generates the second PUSCH transmission according to the second instruction, and sends the second PUSCH transmission;

步骤308、物理层发送第一PUSCH传输和第二PUSCH传输。Step 308: The physical layer sends the first PUSCH transmission and the second PUSCH transmission.

在本实施例中，该终端设备的物理层可以根据该终端设备的处理能力，发送该第二PUSCH和/或该第一PUSCH。In this embodiment, the physical layer of the terminal device may send the second PUSCH and/or the first PUSCH according to the processing capability of the terminal device.

在一个实施方式中，当终端设备具备同时处理和发送至少2个PUSCH的能力的情况下，物理层可以发送该第一PUSCH和第二PUSCH，即，进行步骤308，其中，发送第一PUSCH的时频资源和传输第二PUSCH的时频资源在频域上不完全重叠或者在时域上不完全重叠。In an embodiment, when the terminal device has the ability to process and transmit at least two PUSCHs at the same time, the physical layer may transmit the first PUSCH and the second PUSCH, that is, proceed to step 308, where the The time-frequency resource and the time-frequency resource for transmitting the second PUSCH do not completely overlap in the frequency domain or in the time domain.

在另一个实施方式中，如果终端设备不具备同时处理和发送至少2个PUSCH的能力，那么，终端设备需要终止第一PUSCH和第二PUSCH中的一个，而发送另一个。在该情况下，物理层可以根据终端设备终止正在生成PUSCH的能力和/或终止正在发送PUSCH的能力来决定发送第一PUSCH和第二PUSCH的哪一个。In another embodiment, if the terminal device does not have the ability to process and transmit at least 2 PUSCHs at the same time, then the terminal device needs to terminate one of the first PUSCH and the second PUSCH and transmit the other. In this case, the physical layer may decide which of the first PUSCH and the second PUSCH to transmit according to the terminal device's ability to terminate the generation of the PUSCH and/or terminate the ability to transmit the PUSCH.

在一个实例中，如果终端设备具有随时终止正在生成PUSCH的能力和/或随之终止正在发送PUSCH的能力，那么，物理层可以终止正在生成该第一PUSCH传输的过程(即终止尚未发送的PUSCH)，或终止正在发送该第一PUSCH传输的过程，并处理该第二指示。In one example, if the terminal device has the ability to terminate the PUSCH being generated at any time and/or the ability to terminate the PUSCH transmission accordingly, then the physical layer can terminate the process of generating the first PUSCH transmission (that is, terminate the PUSCH that has not yet been transmitted). ), or terminate the process of sending the first PUSCH transmission, and process the second indication.

其中，处理第二指示，是指：根据第二指示，根据存储的上行许可生成相应的第二PUSCH传输，然后发送该生成的第二PUSCH。Wherein, processing the second instruction refers to: generating a corresponding second PUSCH transmission according to the stored uplink grant according to the second instruction, and then sending the generated second PUSCH.

在另一个实例中，如果终端设备不具有随时终止正在生成PUSCH的能力和/或随之终止正在发送PUSCH的能力，那么，在物理层正在生成该第一PUSCH传输的情况下，物理层可以根据该终端设备的第一处理时间(T_proc,I)和/或第二处理时间(T_proc,II)，决定是否终止生成该第一PUSCH传输(即，尚未发送的PUSCH)或者是否终止因来不及取消尚未发送的PUSCH传输而开始发送的该第一PUSCH传输。In another example, if the terminal device does not have the ability to terminate the PUSCH being generated at any time and/or the ability to terminate the PUSCH transmission accordingly, then, in the case that the physical layer is generating the first PUSCH transmission, the physical layer can be based on The first processing time (T_{proc, I} ) and/or the second processing time (T_{proc, II} ) of the terminal device determines whether to terminate the generation of the first PUSCH transmission (ie, the PUSCH that has not been sent) or whether the termination is too late Cancel the PUSCH transmission that has not yet been sent and start the first PUSCH transmission.

其中，该第一处理时间(T_proc,I)是该终端设备终止生成该第一PUSCH传输所需的最短时间(即终止尚未发送的PUSCH所需的最短时间)；第二处理时间(T_proc,II)是该终端设备终止正在发送第一PUSCH传输所需的最短时间。Wherein, the first processing time (T_{proc, I} ) is the shortest time required for the terminal device to terminate generating the first PUSCH transmission (that is, the shortest time required to terminate the PUSCH that has not yet been sent); the second processing time (T_{proc , II} ) is the shortest time required for the terminal device to terminate the first PUSCH transmission being sent.

图4的(a)、(b)、(c)是本申请实施例1的第一PUSCH和第二PUSCH的时间关系的三个示意图。(A), (b), and (c) of FIG. 4 are three schematic diagrams of the time relationship between the first PUSCH and the second PUSCH inEmbodiment 1 of the present application.

图4的(a)、(b)、(c)中，各附图标记含义如下：MAC层在第一处理401之后，对物理层进行第一指示402，物理层根据该第一指示402生成第一PUSCH传输403，发送第一PUSCH 404；MAC层在第二处理405之后，在物理层正在生成该第一PUSCH传输403的情况下，对物理层进行第二指示406，物理层根据该第二指示406生成第二PUSCH传输407，发送第二PUSCH 408。In (a), (b), (c) of FIG. 4, the meaning of each reference sign is as follows: After thefirst processing 401, the MAC layer performs afirst instruction 402 on the physical layer, and the physical layer generates afirst instruction 402 according to thefirst instruction 402. Thefirst PUSCH transmission 403 is used to send thefirst PUSCH 404; after thesecond processing 405, the MAC layer sends asecond indication 406 to the physical layer when the physical layer is generating thefirst PUSCH transmission 403, and the physical layer Thesecond instruction 406 generates asecond PUSCH transmission 407, and sends asecond PUSCH 408.

如图4的(a)所示，开始发送第二PUSCH的时刻早于开始发送第一PUSCH的时刻。As shown in (a) of FIG. 4, the time when the second PUSCH starts to be transmitted is earlier than the time when the first PUSCH starts to be transmitted.

如图4的(a)所示，在本实施例中，从物理层接收第二指示的时刻t1起到第一PUSCH传输开始发送的时刻t2为止的时间长度T1大于或等于第一处理时间(T_proc,I)，那么，物理层终止生成第一PUSCH传输的过程(即，终止与第一信令对应的尚未发送的第一PUSCH)。As shown in Figure 4(a), in this embodiment, the time length T1 from the time t1 when the physical layer receives the second instruction to the time t2 when the first PUSCH transmission starts to be sent is greater than or equal to the first processing time ( T_{proc, I} ), then the physical layer terminates the process of generating the first PUSCH transmission (that is, terminates the first PUSCH corresponding to the first signaling that has not been sent).

如图4的(b)所示，开始发送第一PUSCH的时刻早于开始发送第二PUSCH的时刻。As shown in FIG. 4(b), the time when the first PUSCH is started to be transmitted is earlier than the time when the second PUSCH is started to be transmitted.

如图4的(b)所示，在本实施例中，从物理层接收第二指示的时刻t1起到第一PUSCH传输开始发送的时刻t2为止的时间长度T1大于或等于第一处理时间(T_proc,I)，那么，物理层终止生成第一PUSCH传输的过程(即，终止与第一信令对应的尚未发送的第一PUSCH)。As shown in FIG. 4(b), in this embodiment, the time length T1 from the time t1 when the physical layer receives the second instruction to the time t2 when the first PUSCH transmission starts to be sent is greater than or equal to the first processing time ( T_{proc, I} ), then the physical layer terminates the process of generating the first PUSCH transmission (that is, terminates the first PUSCH corresponding to the first signaling that has not been sent).

如图4的(c)所示，在本实施例中，如果从物理层接收第二指示的时刻t1起到第一PUSCH传输开始发送的时刻t2为止的时间长度T1小于第一处理时间(T_proc,I)，并且，从第一PUSCH传输开始发送的时刻t2起到第二PUSCH传输开始发送的时刻t3为止的时间长度T2大于或等于第二处理时间(T_proc,II)，那么，物理层终止第一PUSCH传输404。As shown in Fig. 4(c), in this embodiment, if the time length T1 from the time t1 when the physical layer receives the second instruction to the time t2 when the first PUSCH transmission starts to be sent is less than the first processing time (T_proc,I ), and the time length T2 from the time t2 when the first PUSCH transmission starts to the time t3 when the second PUSCH transmission starts to be transmitted is greater than or equal to the second processing time (T_{proc, II} ), then the physical The layer terminates thefirst PUSCH transmission 404.

其中，由于时间长度T1小于第一处理时间(T_proc,I)，物理层来不及终止或取消生成该第一PUSCH的过程而只能生成该第一PUSCH并开始发送该第一PUSCH，所以，该第一PUSCH传输404是物理层因来不及取消尚未发送的PUSCH传输而开始发送的PUSCH。Wherein, since the time length T1 is less than the first processing time (T_{proc, I} ), the physical layer has no time to terminate or cancel the process of generating the first PUSCH and can only generate the first PUSCH and start sending the first PUSCH. Therefore, the Thefirst PUSCH transmission 404 is the PUSCH that the physical layer starts to send because it is too late to cancel the PUSCH transmission that has not been sent.

也就是说，在图4的(c)所示的情况中，物理层不终止正在进行的生成该第一PUSCH传输403的过程，而是终止该第一PUSCH传输403之后的发送第一PUSCH传输404的过程。That is, in the case shown in (c) of FIG. 4, the physical layer does not terminate the ongoing process of generating thefirst PUSCH transmission 403, but terminates the sending of the first PUSCH transmission after thefirst PUSCH transmission 403 404 process.

在又一个实例中，物理层正在发送该第一PUSCH传输的情况下，物理层可以根据该终端设备第二处理时间(T_proc,II)，决定是否终止正在发送该第一PUSCH传输的过程。In another example, when the physical layer is sending the first PUSCH transmission, the physical layer may decide whether to terminate the process of sending the first PUSCH transmission according to the second processing time (T_{proc, II} ) of the terminal device.

图5是本申请实施例1的第一PUSCH和第二PUSCH的时间关系的另一个示意图。FIG. 5 is another schematic diagram of the time relationship between the first PUSCH and the second PUSCH inEmbodiment 1 of the present application.

如图5所示，从物理层接收第二指示的时刻t1起到物理层开始发送第二PUSCH传输的时刻t3为止的时间长度大于或等于第二处理时间(T_proc,II)，那么物理层终止正在发送该第一PUSCH传输404的过程。As shown in Figure 5, the length of time from the time t1 when the physical layer receives the second instruction to the time t3 when the physical layer starts to send the second PUSCH transmission is greater than or equal to the second processing time (T_{proc, II} ), then the physical layer The process of sending thefirst PUSCH transmission 404 is terminated.

例如，如图4的(a)、(b)、(c)或图5所示，在物理层终止了生成第一PUSCH传输或终止发送第一PUSCH的情况下，进行步骤304。For example, as shown in (a), (b), (c) of FIG. 4 or FIG. 5, in a case where the physical layer terminates the generation of the first PUSCH transmission or terminates the transmission of the first PUSCH,step 304 is performed.

又例如，如果从物理层接收第二指示的时刻t1起到物理层开始发送第二PUSCH传输的时刻t3为止的时间长度小于第二处理时间(T_proc,II)，那么物理层继续正在生成或发送该第一PUSCH传输的过程，并丢掉或忽视(drop/ignore)第二PUSCH传输，即，进行步骤306。For another example, if the length of time from the time t1 when the physical layer receives the second instruction to the time t3 when the physical layer starts to send the second PUSCH transmission is less than the second processing time (T_{proc, II} ), then the physical layer continues to generate or The process of sending the first PUSCH transmission, and drop/ignore (drop/ignore) the second PUSCH transmission, that is, proceed to step 306.

在本实施例中，如果终端设备不具备同时处理和发送至少两个PUSCH的能力，物理层也可以根据在生成第一PUSCH传输的过程中是否需要背负(piggyback)上行控制信息(UCI)，来决定是否发送第一PUSCH传输。In this embodiment, if the terminal device does not have the ability to process and transmit at least two PUSCHs at the same time, the physical layer may also be based on whether it needs to piggyback uplink control information (UCI) during the process of generating the first PUSCH transmission. Decide whether to send the first PUSCH transmission.

在一个实例中，当物理层在生成第一PUSCH传输的过程中需要背负(piggyback)上行控制信息(UCI)时，物理层发送该第一PUSCH，并丢掉或忽视(drop/ignore)第二PUSCH传输。其中，上行控制信息例如可以是HARQ-ACK，该上行控制信息对可靠性和延时有较高的要求，例如，误块率需小于10^-6，延时小于1ms。In one example, when the physical layer needs to piggyback the uplink control information (UCI) during the process of generating the first PUSCH transmission, the physical layer sends the first PUSCH and drops/ignores the second PUSCH. transmission. Wherein, the uplink control information may be, for example, HARQ-ACK, which has higher requirements on reliability and delay, for example, the block error rate needs to be less than 10^-6 and the delay is less than 1 ms.

此外，在物理层发送了第一PUSCH传输的情况下，该物理层还可以通知MAC层：物理层发送了第一PUSCH传输，并丢掉/忽视(drop/ignore)了第二PUSCH传输。In addition, when the physical layer sends the first PUSCH transmission, the physical layer may also notify the MAC layer that the physical layer has sent the first PUSCH transmission and dropped/ignore the second PUSCH transmission.

在另一个实例中，当物理层在生成第一PUSCH传输的过程中不需要背负(piggyback)上行控制信息(UCI)时，该物理层可以进一步根据终端设备终止正在生成PUSCH的能力和/或终止正在发送PUSCH的能力来决定发送第一PUSCH和第二PUSCH的哪一个，具体的方式可以参考上述关于图4和图5的说明。In another example, when the physical layer does not need to piggyback uplink control information (UCI) during the process of generating the first PUSCH transmission, the physical layer may further terminate the ability of the terminal device to generate the PUSCH and/or terminate The ability to send the PUSCH determines which of the first PUSCH and the second PUSCH to send. For a specific method, refer to the above description of FIG. 4 and FIG. 5.

在本实施例中，如图3所示，该方法还可以包括：In this embodiment, as shown in FIG. 3, the method may further include:

步骤305、物理层通知MAC层：物理层发送了第二PUSCH传输，并丢掉或忽视(drop/ignore)了第一PUSCH传输。Step 305: The physical layer notifies the MAC layer that the physical layer has sent the second PUSCH transmission, and dropped/ignore the first PUSCH transmission.

通过步骤305，物理层能够将发送的PUSCH与未成功发送的第一PUSCH告知给MAC层。Throughstep 305, the physical layer can notify the MAC layer of the transmitted PUSCH and the first PUSCH that was not successfully transmitted.

在本实施例中，如图3所示，该方法还可以包括：In this embodiment, as shown in FIG. 3, the method may further include:

步骤307、物理层通知MAC层：物理层发送了第一PUSCH传输，并丢掉或忽视(drop/ignore)了第二PUSCH传输。Step 307: The physical layer notifies the MAC layer that the physical layer has sent the first PUSCH transmission, and dropped or ignored (dropped/ignore) the second PUSCH transmission.

通过步骤307，物理层能够将发送的PUSCH与未成功发送的第二PUSCH告知给MAC层。Throughstep 307, the physical layer can notify the MAC layer of the transmitted PUSCH and the unsuccessfully transmitted second PUSCH.

实施例2Example 2

本申请实施例2提供一种信息发送方法，该方法可以由终端设备执行。Embodiment 2 of the present application provides an information sending method, which can be executed by a terminal device.

本实施例的信息发送方法用于解决不同的PUSCH传输在时域上冲突的情形。The information sending method of this embodiment is used to resolve the situation where different PUSCH transmissions collide in the time domain.

图6是本实施例的信息发送方法的一个示意图，如图6所示，该方法包括：FIG. 6 is a schematic diagram of the information sending method of this embodiment. As shown in FIG. 6, the method includes:

步骤601、MAC层对物理层进行第一指示，所述第一指示用于指示所述物理层生成第一PUSCH传输；Step 601: The MAC layer gives a first instruction to the physical layer, where the first instruction is used to instruct the physical layer to generate a first PUSCH transmission;

步骤602、MAC层对物理层进行或不进行第二指示，所述第二指示用于指示所 述物理层生成第二PUSCH的传输。Step 602: The MAC layer performs or does not perform a second instruction to the physical layer, where the second instruction is used to instruct the physical layer to generate a second PUSCH transmission.

在本实施例中，第一PUSCH传输与第二PUSCH传输在时域上冲突，即，第一PUSCH传输所在物理时频资源与第二PUSCH传输所在物理时频资源在时域上至少部分重叠，其中，该至少部分重叠包括部分重叠或完全重叠。In this embodiment, the first PUSCH transmission and the second PUSCH transmission conflict in the time domain, that is, the physical time-frequency resource where the first PUSCH transmission is located and the physical time-frequency resource where the second PUSCH transmission is located at least partially overlap in the time domain, Wherein, the at least partial overlap includes partial overlap or complete overlap.

在本实施例中，第一PUSCH传输与第二PUSCH传输的冲突包括以下三种情况：动态许可与动态许可之间的冲突、动态许可与配置许可之间的冲突、以及配置许可与配置许可之间的冲突。In this embodiment, the conflict between the first PUSCH transmission and the second PUSCH transmission includes the following three situations: the conflict between the dynamic permission and the dynamic permission, the conflict between the dynamic permission and the configuration permission, and the conflict between the configuration permission and the configuration permission. Conflict between.

此外，第一PUSCH传输所在物理时频资源与第二PUSCH传输所在物理时频资源在频域上可以是部分重叠，完全重叠，或者不重叠。In addition, the physical time-frequency resource where the first PUSCH is transmitted and the physical time-frequency resource where the second PUSCH is transmitted may partially overlap, completely overlap, or not overlap in the frequency domain.

在本实施例中，该第一指示早于该第二指示，即，第二指示对应的业务的优先级较高。In this embodiment, the first indication is earlier than the second indication, that is, the priority of the service corresponding to the second indication is higher.

在本实施例中，如果MAC层进行第二指示，那么，物理层期待(expected)收到MAC层的第二指示；如果MAC层不进行该第二指示，那么，物理层不期待(not expected)收到MAC层的该第二指示。In this embodiment, if the MAC layer makes the second instruction, the physical layer expects to receive the second instruction from the MAC layer; if the MAC layer does not make the second instruction, then the physical layer does not expect (not expected) ) Receive the second instruction from the MAC layer.

根据本实施例，MAC层决定是否进行与较高优先级业务对应的第二指示，由此，在不同业务的上行资源发生冲突的情况下，能够满足较高优先级业务的延时和/或可靠性需求，此外，也能保护较低优先级业务的传输。According to this embodiment, the MAC layer decides whether to perform the second instruction corresponding to the higher priority service. Therefore, when the uplink resources of different services conflict, the delay and/or delay of the higher priority service can be met. Reliability requirements, in addition, can also protect the transmission of lower priority services.

在本实施例中，该终端设备的MAC层可以根据该终端设备的处理能力，决定是否进行该第二指示。In this embodiment, the MAC layer of the terminal device may decide whether to perform the second instruction according to the processing capability of the terminal device.

在一个实施方式中，如果终端设备具备同时处理和发送至少2个PUSCH的能力，或者，终端设备具备随时终止正在生成PUSCH和/或正在发送PUSCH的能力，那么MAC层可以进行该第二指示。In one embodiment, if the terminal device has the ability to process and send at least 2 PUSCHs at the same time, or the terminal device has the ability to terminate the PUSCH generation and/or PUSCH transmission at any time, the MAC layer may perform the second instruction.

在另一个实施方式中，如果终端设备不具有随时终止正在生成PUSCH的能力和/或随之终止正在发送PUSCH的能力，那么，在MAC层判断为物理层正在生成该第一PUSCH传输的情况下，MAC层可以根据该终端设备的第一处理时间(T_proc,I)和/或第二处理时间(T_proc,II)，判断是否进行该第二指示。In another embodiment, if the terminal device does not have the ability to terminate the PUSCH generation at any time and/or the ability to terminate the PUSCH transmission subsequently, then, in the case where the MAC layer determines that the physical layer is generating the first PUSCH transmission , The MAC layer may determine whether to perform the second instruction according to the first processing time (T_{proc, I} ) and/or the second processing time (T_{proc, II} ) of the terminal device.

在一个实例中，如图4的(a)和(b)所示，在MAC层判断为物理层正在生成该第一PUSCH传输的情况下，如果从MAC层进行该第二指示的时刻t1起到第一PUSCH传输开始发送的时刻t2为止的时间长度T1大于或等于第一处理时间(T_proc,I)， 那么，MAC层进行该第二指示。In an example, as shown in (a) and (b) of Figure 4, if the MAC layer determines that the physical layer is generating the first PUSCH transmission, if the MAC layer performs the second instruction from time t1 When the time length T1 until the time t2 when the first PUSCH transmission starts to be sent is greater than or equal to the first processing time (T_{proc, I} ), then the MAC layer performs the second instruction.

在另一个实例中，如图4的(c)所示，在MAC层判断为物理层正在生成该第一PUSCH传输的情况下，如果从MAC层进行该第二指示的时刻t1起到第一PUSCH传输开始发送的时刻t2为止的时间长度T1小于第一处理时间(T_proc,I)，并且，从第一PUSCH传输开始发送的时刻t2起到第二PUSCH传输开始发送的时刻t3为止的时间长度T2大于或等于第二处理时间(T_proc,II)，那么，MAC层进行该第二指示。In another example, as shown in FIG. 4(c), if the MAC layer determines that the physical layer is generating the first PUSCH transmission, if the MAC layer performs the second instruction from time t1 to the first The time length T1 from the time t2 when the PUSCH transmission starts to be transmitted is less than the first processing time (T_{proc, I} ), and the time from the time t2 when the first PUSCH transmission starts to the time t3 when the second PUSCH transmission starts The length T2 is greater than or equal to the second processing time (T_{proc, II} ), then the MAC layer performs the second instruction.

在本实施例中，MAC层进行该第一指示的时刻与物理层收到该第一指示的时刻相同，MAC层进行该第二指示的时刻与物理层收到该第二指示的时刻相同。In this embodiment, the time when the MAC layer performs the first instruction is the same as the time when the physical layer receives the first instruction, and the time when the MAC layer performs the second instruction is the same as the time when the physical layer receives the second instruction.

此外，如果时间长度T1小于该第一处理时间(T_proc,I)，且从第一PUSCH开始发送的时刻t2起到该第二PUSCH开始发送的时刻t3为止的时间长度T2小于第二处理时间(T_proc,II)，那么，MAC层放弃进行该第二指示。In addition, if the time length T1 is less than the first processing time (T_{proc, I} ), and the time length T2 from the time t2 when the transmission of the first PUSCH starts to the time t3 when the transmission of the second PUSCH starts is less than the second processing time (T_{proc, II} ), then the MAC layer gives up performing the second instruction.

在又一个实施方式中，如果终端设备不具有随时终止正在生成PUSCH的能力和/或随之终止正在发送PUSCH的能力，那么，在MAC层判断为物理层正在发送该第一PUSCH传输的情况下，MAC层可以根据该终端设备的第二处理时间(T_proc,II)，决定是否进行该第二指示。In another embodiment, if the terminal device does not have the ability to terminate the PUSCH being generated at any time and/or the ability to terminate the PUSCH transmission accordingly, then, in the case where the MAC layer determines that the physical layer is sending the first PUSCH transmission , The MAC layer may decide whether to perform the second instruction according to the second processing time (T_{proc, II} ) of the terminal device.

在一个实例中，如图5所示，从MAC层进行该第二指示的时刻t1起到物理层开始发送第二PUSCH传输的时刻t3为止的时间长度大于或等于第二处理时间(T_proc,II)，那么MAC层进行所述第二指示。In an example, as shown in FIG. 5, the length of time from the time t1 when the MAC layer performs the second instruction to the time t3 when the physical layer starts to send the second PUSCH transmission is greater than or equal to the second processing time (T_{proc, II} ), then the MAC layer performs the second instruction.

此外，如果从MAC层进行该第二指示的时刻t1起到物理层开始发送第二PUSCH传输的时刻t3为止的时间长度小于该第二处理时间(T_proc,II)，那么MAC层放弃进行该第二指示。In addition, if the length of time from the time t1 when the MAC layer gives the second instruction to the time t3 when the physical layer starts to send the second PUSCH transmission is less than the second processing time (T_{proc, II} ), the MAC layer gives up The second instruction.

在本实施例中，如果MAC进行该第二指示，那么物理层可以取消当前正在生成第一PUSCH传输的过程或取消当前正在发送第一PUSCH传输的过程，并根据该第二指示生成第二PUSCH并传输该第二PUSCH。In this embodiment, if the MAC performs the second instruction, the physical layer can cancel the process of currently generating the first PUSCH transmission or cancel the process of currently sending the first PUSCH transmission, and generate the second PUSCH according to the second instruction And transmit the second PUSCH.

在本实施例中，如果MAC放弃进行该第二指示，那么物理层可以继续当前正在生成第一PUSCH的过程或正在发送第一PUSCH传输的过程。In this embodiment, if the MAC abandons the second instruction, the physical layer can continue the process of generating the first PUSCH or the process of sending the first PUSCH transmission.

实施例3Example 3

本申请实施例3提供一种信息发送方法，该方法可以由终端设备执行。Embodiment 3 of the present application provides an information sending method, which can be executed by a terminal device.

本实施例的信息发送方法用于解决PUSCH的传输与SR的传输在时域上冲突的情形。The information sending method of this embodiment is used to resolve the situation that PUSCH transmission and SR transmission conflict in the time domain.

图7是本实施例的信息发送方法的一个示意图，如图7所示，该方法包括：FIG. 7 is a schematic diagram of the information sending method of this embodiment. As shown in FIG. 7, the method includes:

步骤701、终端设备的媒体接入控制(MAC)层对物理层进行第一指示，所述第一指示用于指示所述物理层生成第一物理上行共享信道(PUSCH)传输；Step 701: The media access control (MAC) layer of the terminal device gives a first instruction to the physical layer, where the first instruction is used to instruct the physical layer to generate a first physical uplink shared channel (PUSCH) transmission;

步骤702、所述MAC层对所述物理层进行第三指示，所述第三指示用于指示所述物理层在调度请求(SR)的有效的物理上行控制信道(PUCCH)资源上发送该SR；Step 702: The MAC layer gives a third instruction to the physical layer, and the third instruction is used to instruct the physical layer to send the SR on the effective physical uplink control channel (PUCCH) resource of the scheduling request (SR). ；

步骤703、所述物理层发送所述第一PUSCH传输和/或所述SR。Step 703: The physical layer sends the first PUSCH transmission and/or the SR.

在本实施例中，第一PUSCH与SR在时域上冲突，即，第一PUSCH的传输所在的物理时频资源与SR的传输所在物理时频资源在时域上至少部分重叠，其中，该至少部分重叠包括部分重叠或完全重叠。In this embodiment, the first PUSCH and SR conflict in the time domain, that is, the physical time-frequency resource where the first PUSCH is transmitted and the physical time-frequency resource where the SR is transmitted at least partially overlap in the time domain, where the At least partial overlap includes partial overlap or complete overlap.

此外，第一PUSCH传输所在物理时频资源与SR传输所在物理时频资源在频域上可以是部分重叠，完全重叠，或者不重叠。In addition, the physical time-frequency resource where the first PUSCH transmission is located and the physical time-frequency resource where the SR transmission is located may partially overlap, completely overlap, or not overlap in the frequency domain.

在本实施例中，该第一指示早于该第三指示，即，第三指示对应的业务的优先级较高，或者，该第三指示早于该第一指示，即，第一指示对应的业务的优先级较高。In this embodiment, the first instruction is earlier than the third instruction, that is, the priority of the service corresponding to the third instruction is higher, or the third instruction is earlier than the first instruction, that is, the first instruction corresponds to Business has a higher priority.

根据本实施例，物理层决定是否发送该优先级较高的业务，由此，在不同业务的上行资源发生冲突的情况下，能够满足较高优先级业务的延时和/或可靠性需求，此外，也能保护较低优先级业务的传输。According to this embodiment, the physical layer decides whether to send the higher priority service. Therefore, when the uplink resources of different services conflict, the delay and/or reliability requirements of the higher priority service can be met. In addition, the transmission of lower priority services can also be protected.

例如，如果物理层决定发送低优先级的业务，那么，物理层继续正在进行的发送低优先级的业务的过程，并且丢掉或忽视(drop/ignore)高优先级业务的传输；如果物理层决定发送高优先级的业务，那么，物理层终止正在进行的发送低优先级的业务的过程，并且进行高优先级业务的传输。For example, if the physical layer decides to send low-priority services, then the physical layer continues the ongoing process of sending low-priority services, and drops/ignores the transmission of high-priority services; if the physical layer decides To send high-priority services, then the physical layer terminates the ongoing process of sending low-priority services and performs transmission of high-priority services.

在本实施例中，该终端设备的物理层可以根据该终端设备的处理能力，发送该SR和/或该第一PUSCH。In this embodiment, the physical layer of the terminal device may send the SR and/or the first PUSCH according to the processing capability of the terminal device.

如图7所示，步骤703可以包括如下的三种情况：As shown in FIG. 7, step 703 may include the following three situations:

步骤704、该物理层根据该第三指示生成SR传输，并在有效的PUCCH资源上发送根据所述SR传输；Step 704: The physical layer generates an SR transmission according to the third instruction, and sends the transmission according to the SR on a valid PUCCH resource;

步骤706、物理层根据所述第一指示生成所述第一PUSCH传输，以及该物理层发送该第一PUSCH传输；Step 706: The physical layer generates the first PUSCH transmission according to the first instruction, and the physical layer sends the first PUSCH transmission;

步骤708、物理层根据发送第一PUSCH传输，并且发送SR传输。在一个实施方式中，当终端设备具备同时处理和发送第一PUSCH和SR的能力的情况下，物理层可以发送该第一PUSCH和SR，即，进行步骤708，其中，发送第一PUSCH的时频资源和发送SR的时频资源在频域上不完全重叠或者在时域上不完全重叠。Step 708: The physical layer sends the first PUSCH transmission, and sends the SR transmission. In one embodiment, when the terminal device has the ability to process and send the first PUSCH and SR at the same time, the physical layer may send the first PUSCH and SR, that is, proceed to step 708, in which, when the first PUSCH is sent The frequency resource and the time-frequency resource for sending the SR do not completely overlap in the frequency domain or in the time domain.

在另一个实施方式中，如果终端设备不具备和发送第一PUSCH和SR的能力，那么，终端设备需要终止第一PUSCH和SR中的一个，而发送另一个。In another embodiment, if the terminal device does not have the ability to send and send the first PUSCH and SR, the terminal device needs to terminate one of the first PUSCH and SR and send the other.

在一个实例中，该第三指示晚于该第一指示，物理层可以根据终端设备终止正在生成PUSCH的能力和/或终止正在发送PUSCH的能力来决定发送第一PUSCH和SR中的哪一个。In an example, the third indication is later than the first indication, and the physical layer may decide which of the first PUSCH and SR to send according to the terminal device's ability to terminate the PUSCH being generated and/or the ability to terminate the PUSCH being sent.

例如，如果终端设备具有随时终止正在生成PUSCH的能力和/或随之终止正在发送PUSCH的能力，那么，物理层可以终止正在生成该第一PUSCH传输的过程(即终止尚未发送的PUSCH)，或终止正在发送该第一PUSCH传输的过程，并处理该第三指示。For example, if the terminal device has the ability to terminate the PUSCH being generated at any time and/or the ability to terminate the PUSCH transmission accordingly, then the physical layer can terminate the process of generating the first PUSCH transmission (that is, terminate the PUSCH that has not been transmitted), or Terminate the process of sending the first PUSCH transmission, and process the third instruction.

其中，处理第三指示，是指：根据第三指示，生成相应的SR传输，然后进一步地将生成的SR传输在有效的PUSCH资源上发送出去。Wherein, processing the third instruction refers to: generating a corresponding SR transmission according to the third instruction, and then further sending the generated SR transmission on a valid PUSCH resource.

又例如，如果终端设备不具有随时终止正在生成PUSCH的能力和/或随之终止正在发送PUSCH的能力，那么，在物理层正在生成该第一PUSCH传输的情况下，物理层可以根据该终端设备的第一处理时间(T_proc,I)和/或第二处理时间(T_proc,II)，决定是否终止生成该第一PUSCH传输(即，尚未发送的PUSCH)或者是否终止因来不及取消尚未发送的PUSCH传输而开始发送的该第一PUSCH传输。For another example, if the terminal device does not have the ability to terminate the PUSCH being generated at any time and/or the ability to terminate the PUSCH transmission subsequently, then, in the case that the physical layer is generating the first PUSCH transmission, the physical layer can be based on the terminal device The first processing time (T_{proc, I} ) and/or the second processing time (T_{proc, II} ) determine whether to terminate the generation of the first PUSCH transmission (ie, the PUSCH that has not yet been sent) or whether to terminate because it is too late to cancel the transmission The first PUSCH transmission is started from the PUSCH transmission.

其中，该第一处理时间(T_proc,I)是该终端设备终止生成该第一PUSCH传输所需的最短时间；第二处理时间(T_proc,II)是该终端设备终止正在发送第一PUSCH传输所需的最短时间。Wherein, the first processing time (T_{proc, I} ) is the shortest time required for the terminal device to stop generating the first PUSCH transmission; the second processing time (T_{proc, II} ) is the terminal device to stop sending the first PUSCH The shortest time required for transmission.

图8的(a)、(b)、(c)是本申请实施例3的第一PUSCH和SR的时间关系的三个示意图。(A), (b), and (c) of FIG. 8 are three schematic diagrams of the time relationship between the first PUSCH and the SR in Embodiment 3 of the present application.

图8的(a)、(b)、(c)中，各附图标记含义如下：MAC层在第一处理801之后，对物理层进行第一指示802，物理层根据该第一指示802生成第一PUSCH传输803，发送第一PUSCH 804；MAC层在第三处理805之后，在物理层正在生成该第一PUSCH传输803的情况下，对物理层进行第三指示806，物理层根据该第三指示806生成SR 传输807，发送该SR 808。In (a), (b), (c) of FIG. 8, the meanings of the reference signs are as follows: After thefirst processing 801, the MAC layer performs afirst instruction 802 on the physical layer, and the physical layer generates afirst instruction 802 according to thefirst instruction 802 Thefirst PUSCH transmission 803 sends thefirst PUSCH 804; after thethird processing 805, the MAC layer sends athird instruction 806 to the physical layer when the physical layer is generating thefirst PUSCH transmission 803, and the physical layer performs thethird instruction 806 according to the Threeinstructions 806 generateSR transmission 807, and send theSR 808.

如图8的(a)所示，开始发送SR的时刻早于开始发送第一PUSCH的时刻。As shown in FIG. 8(a), the time when the SR starts to be transmitted is earlier than the time when the first PUSCH is started to be transmitted.

如图8的(a)所示，从物理层接收第三指示的时刻t4起到第一PUSCH传输开始发送的时刻t2为止的时间长度T3大于或等于第一处理时间(T_proc,I)，那么，物理层终止生成第一PUSCH传输的过程(即，终止与第一信令对应的尚未发送的第一PUSCH)。As shown in (a) of FIG. 8, the time length T3 from the time t4 when the physical layer receives the third instruction to the time t2 when the first PUSCH transmission starts to be sent is greater than or equal to the first processing time (T_{proc, I} ), Then, the physical layer terminates the process of generating the first PUSCH transmission (that is, terminates the first PUSCH corresponding to the first signaling that has not been transmitted).

如图8的(b)所示，开始发送第一PUSCH的时刻早于开始发送SR的时刻。As shown in FIG. 8(b), the time when the first PUSCH starts to be transmitted is earlier than the time when the SR starts to be transmitted.

如图8的(b)所示，从物理层接收第三指示的时刻t4起到第一PUSCH传输开始发送的时刻t2为止的时间长度T3大于或等于第一处理时间(T_proc,I)，那么，物理层终止生成第一PUSCH传输的过程(即，终止与第一信令对应的尚未发送的第一PUSCH)。As shown in FIG. 8(b), the time length T3 from the time t4 when the physical layer receives the third instruction to the time t2 when the first PUSCH transmission starts to be sent is greater than or equal to the first processing time (T_{proc, I} ), Then, the physical layer terminates the process of generating the first PUSCH transmission (that is, terminates the first PUSCH corresponding to the first signaling that has not been transmitted).

如图8的(c)所示，如果从物理层接收第三指示的时刻t4起到第一PUSCH传输开始发送的时刻t2为止的时间长度T3小于第一处理时间(T_proc,I)，并且，从第一PUSCH传输开始发送的时刻t2起到SR传输开始发送的时刻t5为止的时间长度T4大于或等于第二处理时间(T_proc,II)，那么，物理层终止发送第一PUSCH传输804。As shown in (c) of FIG. 8, if the time length T3 from the time t4 when the physical layer receives the third instruction to the time t2 when the first PUSCH transmission starts to be sent is less than the first processing time (T_{proc, I} ), and , The time length T4 from the time t2 when the first PUSCH transmission starts to the time t5 when the SR transmission starts to send is greater than or equal to the second processing time (T_{proc, II} ), then the physical layer stops sending thefirst PUSCH transmission 804 .

其中，由于时间长度T1小于第一处理时间(T_proc,I)，物理层来不及终止或取消生成该第一PUSCH的过程而只能生成该第一PUSCH并开始发送该第一PUSCH，所以，该第一PUSCH传输804是物理层因来不及取消尚未发送的PUSCH传输而开始发送的PUSCH。Wherein, since the time length T1 is less than the first processing time (T_{proc, I} ), the physical layer has no time to terminate or cancel the process of generating the first PUSCH and can only generate the first PUSCH and start sending the first PUSCH. Therefore, the Thefirst PUSCH transmission 804 is the PUSCH that the physical layer starts to send because it is too late to cancel the PUSCH transmission that has not yet been sent.

也就是说，在图8的(c)所示的情况中，物理层不终止正在进行的生成该第一PUSCH传输803的过程，而是终止该第一PUSCH传输803之后的发送第一PUSCH传输804的过程。That is, in the case shown in (c) of FIG. 8, the physical layer does not terminate the ongoing process of generating thefirst PUSCH transmission 803, but terminates the sending of the first PUSCH transmission after thefirst PUSCH transmission 803 804 process.

在又一个实例中，物理层正在发送该第一PUSCH传输的情况下，物理层可以根据该终端设备第二处理时间(T_proc,II)，决定是否终止正在发送该第一PUSCH传输的过程。In another example, when the physical layer is sending the first PUSCH transmission, the physical layer may decide whether to terminate the process of sending the first PUSCH transmission according to the second processing time (T_{proc, II} ) of the terminal device.

图9是本申请实施例3的第一PUSCH和SR的时间关系的另一个示意图。FIG. 9 is another schematic diagram of the time relationship between the first PUSCH and the SR in Embodiment 3 of the present application.

如图9所示，从物理层接收第三指示的时刻t4起到物理层开始发送SR传输的时刻t5为止的时间长度T5大于或等于第二处理时间(T_proc,II)，那么物理层终止正在发送该第一PUSCH传输404的过程。As shown in Figure 9, the time length T5 from the time t4 when the physical layer receives the third instruction to the time t5 when the physical layer starts to send SR transmission is greater than or equal to the second processing time (T_{proc, II} ), then the physical layer terminates The process of sending thefirst PUSCH transmission 404 is in progress.

例如，如图8的(a)、(b)、(c)或图9所示，在物理层终止了生成第一PUSCH传输或终止发送第一PUSCH的情况下，进行步骤704。For example, as shown in (a), (b), (c) of FIG. 8 or FIG. 9, in a case where the physical layer terminates the generation of the first PUSCH transmission or terminates the transmission of the first PUSCH,step 704 is performed.

在本实施例中，如图7所示，该方法还包括：In this embodiment, as shown in Figure 7, the method further includes:

步骤705、物理层通知MAC层：物理层发送了SR传输，并丢掉或忽视(drop/ignore)了第一PUSCH传输。Step 705: The physical layer notifies the MAC layer that the physical layer has sent the SR transmission, and dropped/ignore the first PUSCH transmission.

通过步骤705，物理层能够将发送的SR与未成功发送的第一PUSCH告知给MAC层。Throughstep 705, the physical layer can notify the MAC layer of the sent SR and the first PUSCH that was not successfully sent.

在另一个实例中，该第一指示晚于该第三指示，物理层可以根据终端设备终止正在生成SR的能力和/或终止正在发送SR的能力来决定发送第一PUSCH和SR中的哪一个。In another example, the first indication is later than the third indication, and the physical layer may decide which of the first PUSCH and SR to send according to the terminal device's ability to terminate the SR being generated and/or the ability to terminate the SR being sent .

例如，如果终端设备具有随时终止正在生成SR的能力和/或随之终止正在发送SR的能力，那么，物理层可以终止正在生成该SR传输的过程(即终止尚未发送的SR)，或终止正在发送该SR传输的过程，并处理该第一指示。For example, if the terminal device has the ability to terminate the SR being generated at any time and/or the ability to terminate the SR transmission thereafter, then the physical layer can terminate the process of generating the SR transmission (that is, terminate the SR that has not been transmitted), or terminate the Send the SR transmission process, and process the first instruction.

其中，处理第一指示，是指：根据第一指示，根据存储的上行许可生成相应的第一PUSCH传输，然后发送该第一PUSCH。Wherein, processing the first instruction refers to: generating the corresponding first PUSCH transmission according to the stored uplink grant according to the first instruction, and then sending the first PUSCH.

又例如，如果终端设备不具有随时终止正在生成SR的能力和/或随时终止正在发送SR的能力，那么，在物理层正在生成该SR传输的情况下，物理层可以根据该终端设备的第三处理时间(T_proc,III)和/或第四处理时间(T_proc,IV)，决定是否终止生成该SR传输(即，尚未发送的SR)或者是否终止因来不及取消尚未发送的SR传输而开始发送的该SR传输。For another example, if the terminal device does not have the ability to terminate the SR being generated at any time and/or the ability to terminate the SR transmission at any time, then, in the case that the physical layer is generating the SR transmission, the physical layer can be based on the third The processing time (T_{proc, III} ) and/or the fourth processing time (T_{proc, IV} ) determine whether to terminate the generation of the SR transmission (ie, the SR that has not been sent) or whether to terminate because it is too late to cancel the SR transmission that has not been sent The SR transmission sent.

其中，该第三处理时间(T_proc,III)是终端设备终止正在根据该第三指示生成SR的过程(即终止尚未发送的SR)所需的最短时间；该第四处理时间(T_proc,IV)是该终端设备终止正在发送SR的过程所需的最短时间。Wherein, the third processing time (T_{proc, III} ) is the shortest time required for the terminal device to terminate the process of generating SR according to the third instruction (that is, to terminate the SR that has not been sent); the fourth processing time (T_{proc, IV} ) is the shortest time required for the terminal device to terminate the process of sending SR.

图10的(a)、(b)、(c)是本申请实施例3的第一PUSCH和SR的时间关系的三个示意图。Fig. 10 (a), (b), (c) are three schematic diagrams of the time relationship between the first PUSCH and SR in Embodiment 3 of the present application.

图10的(a)、(b)、(c)中，各附图标记含义如下：MAC层在第一处理801之后，对物理层进行第一指示802，物理层根据该第一指示802生成第一PUSCH传输803，发送第一PUSCH 804；MAC层在第三处理805之后，在物理层正在生成该第一PUSCH传输803的情况下，对物理层进行第三指示806，物理层根据该第三指示 806生成SR传输807，发送该SR 808。In (a), (b), (c) of FIG. 10, the meaning of each reference sign is as follows: After thefirst processing 801, the MAC layer performs afirst instruction 802 on the physical layer, and the physical layer generates afirst instruction 802 according to thefirst instruction 802 Thefirst PUSCH transmission 803 sends thefirst PUSCH 804; after thethird processing 805, the MAC layer sends athird instruction 806 to the physical layer when the physical layer is generating thefirst PUSCH transmission 803, and the physical layer performs thethird instruction 806 according to the Threeinstructions 806 generateSR transmission 807, and send theSR 808.

如图10的(a)所示，开始发送第一PUSCH的时刻早于开始发送SR的时刻。As shown in (a) of FIG. 10, the time when the first PUSCH starts to be transmitted is earlier than the time when the SR starts to be transmitted.

如图10的(a)所示，从物理层接收第一指示的时刻t6起到SR传输开始发送的时刻t5为止的时间长度T6大于或等于第三处理时间(T_proc,III)，那么，物理层终止生成SR传输的过程(即，终止与第三指示对应的尚未发送的SR)。As shown in Figure 10(a), the time length T6 from the time t6 when the physical layer receives the first instruction to the time t5 when the SR transmission starts to be sent is greater than or equal to the third processing time (T_{proc, III} ), then, The physical layer terminates the process of generating SR transmission (that is, terminates the unsent SR corresponding to the third indication).

如图10的(b)所示，开始发送SR的时刻早于开始发送第一PUSCH的时刻。As shown in FIG. 10(b), the time when the SR starts to be transmitted is earlier than the time when the first PUSCH is started to be transmitted.

如图10的(b)所示，从物理层接收第一指示的时刻t6起到SR传输开始发送的时刻t5为止的时间长度T6大于或等于第三处理时间(T_proc,III)，那么，物理层终止生成SR传输的过程(即，终止与第三指示对应的尚未发送的SR)。As shown in FIG. 10(b), the time length T6 from the time t6 when the physical layer receives the first instruction to the time t5 when the SR transmission starts to be sent is greater than or equal to the third processing time (T_{proc, III} ), then, The physical layer terminates the process of generating SR transmission (that is, terminates the unsent SR corresponding to the third indication).

如图10的(c)所示，如果从物理层接收第一指示的时刻t6起到SR传输开始发送的时刻t5为止的时间长度T6小于第三处理时间(T_proc,III)，并且，从SR传输开始发送的时刻t5起到第一PUSCH传输开始发送的时刻t2为止的时间长度T7大于或等于第四处理时间(T_proc,IV)，那么，物理层终止发送SR传输808。As shown in (c) of Figure 10, if the time length T6 from the time t6 when the first instruction is received by the physical layer to the time t5 when the SR transmission starts to be sent is less than the third processing time (T_{proc, III} ), and from The time length T7 from the time t5 when the SR transmission starts to the time t2 when the first PUSCH transmission starts to be sent is greater than or equal to the fourth processing time (T_{proc, IV} ), then the physical layer terminates the sending of theSR transmission 808.

其中，由于时间长度T6小于第三处理时间(T_proc,III)，物理层来不及终止或取消生成该SR的过程而只能生成该SR并开始发送该SR，所以，该SR传输808是物理层因来不及取消尚未发送的SR传输而开始发送的SR。Among them, since the time length T6 is less than the third processing time (T_{proc, III} ), the physical layer has no time to terminate or cancel the process of generating the SR and can only generate the SR and start sending the SR. Therefore, theSR transmission 808 is the physical layer SR that started sending because it was too late to cancel the SR transmission that has not yet been sent.

也就是说，在图10的(c)所示的情况中，物理层不终止正在进行的生成该SR传输807的过程，而是终止生成该SR 807之后的发送该SR传输808的过程。That is, in the case shown in (c) of FIG. 10, the physical layer does not terminate the ongoing process of generating theSR transmission 807, but terminates the process of sending theSR transmission 808 after theSR 807 is generated.

在又一个实例中，物理层正在发送该SR传输的情况下，物理层可以根据该终端设备第四处理时间(T_proc,IV)，决定是否终止正在发送该SR传输的过程。In another example, when the physical layer is sending the SR transmission, the physical layer may decide whether to terminate the process of sending the SR transmission according to the fourth processing time (T_{proc, IV} ) of the terminal device.

图11是本申请实施例3的第一PUSCH和SR的时间关系的另一个示意图。FIG. 11 is another schematic diagram of the time relationship between the first PUSCH and the SR in Embodiment 3 of the present application.

如图11所示，从物理层接收第一指示的时刻t6起到物理层开始发送该第一PUSCH传输的时刻t2为止的时间长度T8大于或等于第四处理时间(T_proc,IV)，那么物理层终止正在发送该SR传输808的过程。As shown in FIG. 11, the time length T8 from the time t6 when the physical layer receives the first instruction to the time t2 when the physical layer starts to send the first PUSCH transmission is greater than or equal to the fourth processing time (T_{proc, IV} ), then The physical layer terminates the process of sending theSR transmission 808.

例如，如图10的(a)、(b)、(c)或图11所示，在物理层终止了生成SR传输或终止发送SR的情况下，进行步骤706。For example, as shown in (a), (b), (c) of FIG. 10, or FIG. 11, when the physical layer terminates the generation of SR transmission or terminates the transmission of SR,step 706 is performed.

在本实施例中，如图7所示，该方法还包括：In this embodiment, as shown in Figure 7, the method further includes:

步骤707、物理层通知MAC层：物理层发送了第一传输，并丢掉或忽视(drop/ignore)了SR传输。Step 707: The physical layer notifies the MAC layer that the physical layer sent the first transmission and dropped/ignore the SR transmission.

通过步骤707，物理层能够将发送的第一PUSCH与未成功发送的SR告知给MAC层。Throughstep 707, the physical layer can notify the MAC layer of the first PUSCH sent and the unsuccessfully sent SR.

实施例4Example 4

本申请实施例4提供一种信息发送方法，该方法可以由终端设备执行。Embodiment 4 of the present application provides an information sending method, which can be executed by a terminal device.

本实施例的信息发送方法用于解决PUSCH的传输与SR的传输在时域上冲突的情形。The information sending method of this embodiment is used to resolve the situation that PUSCH transmission and SR transmission conflict in the time domain.

图12是本实施例的信息发送方法的一个示意图，如图12所示，该方法包括：FIG. 12 is a schematic diagram of the information sending method of this embodiment. As shown in FIG. 12, the method includes:

步骤1201、终端设备的媒体接入控制(MAC)层对物理层进行第一指示，所述第一指示用于指示所述物理层生成第一物理上行共享信道(PUSCH)传输；Step 1201: The media access control (MAC) layer of the terminal device gives a first instruction to the physical layer, where the first instruction is used to instruct the physical layer to generate a first physical uplink shared channel (PUSCH) transmission;

步骤1202、MAC层对物理层进行或不进行第三指示，所述第三指示用于指示所述物理层在调度请求(SR)的有效的物理上行控制信道(PUCCH)资源上发送该SR。Step 1202: The MAC layer performs or does not perform a third indication to the physical layer, where the third indication is used to instruct the physical layer to send the SR on the effective physical uplink control channel (PUCCH) resource of the scheduling request (SR).

在本实施例中，第一PUSCH传输与SR传输在时域上冲突，即，第一PUSCH传输所在物理时频资源与SR传输所在物理时频资源在时域上至少部分重叠，其中，该至少部分重叠包括部分重叠或完全重叠。In this embodiment, the first PUSCH transmission and SR transmission conflict in the time domain, that is, the physical time-frequency resource where the first PUSCH transmission is located and the physical time-frequency resource where the SR transmission is located at least partially overlap in the time domain, where the at least Partial overlap includes partial overlap or complete overlap.

此外，第一PUSCH传输所在物理时频资源与SR传输所在物理时频资源在频域上可以是部分重叠，完全重叠，或者不重叠。In addition, the physical time-frequency resource where the first PUSCH transmission is located and the physical time-frequency resource where the SR transmission is located may partially overlap, completely overlap, or not overlap in the frequency domain.

在本实施例中，该第一指示早于该第三指示，即，第三指示对应的业务的优先级较高。In this embodiment, the first indication is earlier than the third indication, that is, the priority of the service corresponding to the third indication is higher.

在本实施例中，如果MAC层进行第三指示，那么，物理层期待(expected)收到MAC层的第三指示；如果MAC层不进行该第三指示，那么，物理层不期待(not expected)收到MAC层的该第三指示。In this embodiment, if the MAC layer performs the third instruction, the physical layer expects to receive the third instruction from the MAC layer; if the MAC layer does not perform the third instruction, then the physical layer does not expect (not expected) ) Receive the third instruction from the MAC layer.

根据本实施例，MAC层决定是否进行与较高优先级业务对应的第三指示，由此，在不同业务的上行资源发生冲突的情况下，能够满足较高优先级业务的延时和/或可靠性需求，此外，也能保护较低优先级业务的传输。According to this embodiment, the MAC layer decides whether to perform the third instruction corresponding to the higher priority service. Therefore, when the uplink resources of different services conflict, the delay and/or delay of the higher priority service can be met. Reliability requirements, in addition, can also protect the transmission of lower priority services.

在本实施例中，该终端设备的MAC层可以根据该终端设备的处理能力，决定是否进行该第三指示。In this embodiment, the MAC layer of the terminal device may decide whether to perform the third instruction according to the processing capability of the terminal device.

在一个实施方式中，如果终端设备具备同时处理和发送PUSCH与SR的能力，或者，终端设备具备随时终止正在生成PUSCH和/或正在发送PUSCH的能力，那么 MAC层可以进行该第三指示。In one embodiment, if the terminal device has the ability to process and send PUSCH and SR at the same time, or the terminal device has the ability to terminate the PUSCH generation and/or PUSCH transmission at any time, then the MAC layer may perform the third instruction.

在另一个实施方式中，如果终端设备不具有随时终止正在生成PUSCH的能力和/或随时终止正在发送PUSCH的能力，那么，在MAC层判断为物理层正在生成该第一PUSCH传输的情况下，MAC层可以根据该终端设备的第一处理时间(T_proc,I)和/或第二处理时间(T_proc,II)，判断是否进行该第三指示。In another embodiment, if the terminal device does not have the ability to terminate the PUSCH generation and/or the ability to terminate the PUSCH transmission at any time, then, when the MAC layer determines that the physical layer is generating the first PUSCH transmission, The MAC layer may determine whether to perform the third instruction according to the first processing time (T_{proc, I} ) and/or the second processing time (T_{proc, II} ) of the terminal device.

如图8的(a)和(b)所示，如果从MAC层进行该第三指示的时刻t4起到第一PUSCH传输开始发送的时刻t2为止的时间长度T3大于或等于第一处理时间(Tproc,I)，那么，MAC层进行该第三指示。As shown in (a) and (b) of FIG. 8, if the time length T3 from the time t4 when the MAC layer gives the third instruction to the time t2 when the first PUSCH transmission starts to be sent is greater than or equal to the first processing time ( Tproc, I), then the MAC layer performs the third instruction.

如图8的(c)所示，如果从MAC从进行该第三指示的时刻t4起到第一PUSCH传输开始发送的时刻t2为止的时间长度T3小于第一处理时间(T_proc,I)，并且，从第一PUSCH传输开始发送的时刻t2起到SR传输开始发送的时刻t5为止的时间长度T4大于或等于第二处理时间(T_proc,II)，那么，MAC层进行该第三指示。As shown in (c) of FIG. 8, if the time length T3 from the time t4 when the third instruction is issued by the MAC to the time t2 when the first PUSCH transmission starts to be transmitted is less than the first processing time (T_{proc, I} ), In addition, the time length T4 from the time t2 when the first PUSCH transmission starts to the time t5 when the SR transmission starts to send is greater than or equal to the second processing time (T_{proc, II} ), then the MAC layer performs the third instruction.

在本实施例中，MAC层进行该第一指示的时刻与物理层收到该第一指示的时刻相同，MAC层进行该第三指示的时刻与物理层收到该第三指示的时刻相同。In this embodiment, the time when the MAC layer performs the first instruction is the same as the time when the physical layer receives the first instruction, and the time when the MAC layer performs the third instruction is the same as the time when the physical layer receives the third instruction.

此外，如果时间长度T3小于该第一处理时间(T_proc,I)，且时间长度T4小于第二处理时间(T_proc,II)，那么，MAC层放弃进行该第二指示。In addition, if the time length T3 is less than the first processing time (T_{proc, I} ) and the time length T4 is less than the second processing time (T_{proc, II} ), then the MAC layer gives up performing the second instruction.

在又一个实施方式中，如果终端设备不具有随时终止正在生成PUSCH的能力和/或随之终止正在发送PUSCH的能力，那么，在MAC层判断为物理层正在发送该第一PUSCH传输的情况下，MAC层可以根据该终端设备的第二处理时间(T_proc,II)，决定是否进行该第三指示。In another embodiment, if the terminal device does not have the ability to terminate the PUSCH being generated at any time and/or the ability to terminate the PUSCH transmission accordingly, then, in the case where the MAC layer determines that the physical layer is sending the first PUSCH transmission , The MAC layer may decide whether to perform the third instruction according to the second processing time (T_{proc, II} ) of the terminal device.

如图9所示，从MAC层进行第三指示的时刻t4起到物理层开始发送SR传输的时刻t5为止的时间长度T5大于或等于第二处理时间(T_proc,II)，那么MAC层进行该第三指示。As shown in Figure 9, the time length T5 from the time t4 when the MAC layer gives the third instruction to the time t5 when the physical layer starts to send SR transmission is greater than or equal to the second processing time (T_{proc, II} ), then the MAC layer performs The third instruction.

此外，如果时间长度T5小于该第二处理时间(T_proc,II)，那么，MAC层放弃进行该第三指示。In addition, if the time length T5 is less than the second processing time (T_{proc, II} ), then the MAC layer gives up performing the third instruction.

在本实施例中，如果MAC进行该第三指示，那么物理层可以取消当前正在生成第一PUSCH传输的过程或取消当前正在发送第一PUSCH传输的过程，并根据该第三指示生成SR传输，并在该SR的有效的PDCCH资源上发送该SR。In this embodiment, if the MAC performs the third instruction, the physical layer can cancel the process of currently generating the first PUSCH transmission or cancel the process of currently sending the first PUSCH transmission, and generate SR transmission according to the third instruction, And send the SR on the effective PDCCH resource of the SR.

在本实施例中，如果MAC放弃进行该第三指示，那么物理层可以继续当前正在 生成第一PUSCH的过程或正在发送第一PUSCH传输的过程。In this embodiment, if the MAC abandons the third instruction, the physical layer can continue the process of currently generating the first PUSCH or the process of sending the first PUSCH transmission.

实施例5Example 5

本申请实施例5提供一种信息发送方法，该方法可以由终端设备执行。Embodiment 5 of the present application provides an information sending method, which can be executed by a terminal device.

本实施例的信息发送方法用于解决PUSCH的传输与SR的传输在时域上冲突的情形。The information sending method of this embodiment is used to resolve the situation that PUSCH transmission and SR transmission conflict in the time domain.

图13是本实施例的信息发送方法的一个示意图，如图13所示，该方法包括：FIG. 13 is a schematic diagram of the information sending method of this embodiment. As shown in FIG. 13, the method includes:

步骤1301、终端设备的媒体接入控制(MAC)层对物理层进行第三指示，所述第三指示用于指示所述物理层在调度请求(SR)的有效的物理上行控制信道(PUCCH)资源上发送该SR；Step 1301: The media access control (MAC) layer of the terminal device gives a third indication to the physical layer, and the third indication is used to indicate that the physical layer is in the scheduling request (SR) effective physical uplink control channel (PUCCH) Send the SR on the resource;

步骤1302、所述MAC层对所述物理层进行或不进行第一指示，所述第一指示用于指示所述物理层生成第一物理上行共享信道(PUSCH)传输。Step 1302: The MAC layer performs or does not perform a first instruction to the physical layer, where the first instruction is used to instruct the physical layer to generate a first physical uplink shared channel (PUSCH) transmission.

在本实施例中，第一PUSCH传输与SR传输在时域上冲突，即，第一PUSCH传输所在物理时频资源与SR传输所在物理时频资源在时域上至少部分重叠，其中，该至少部分重叠包括部分重叠或完全重叠。In this embodiment, the first PUSCH transmission and SR transmission conflict in the time domain, that is, the physical time-frequency resource where the first PUSCH transmission is located and the physical time-frequency resource where the SR transmission is located at least partially overlap in the time domain, where the at least Partial overlap includes partial overlap or complete overlap.

此外，第一PUSCH传输所在物理时频资源与SR传输所在物理时频资源在频域上可以是部分重叠，完全重叠，或者不重叠。In addition, the physical time-frequency resource where the first PUSCH transmission is located and the physical time-frequency resource where the SR transmission is located may partially overlap, completely overlap, or not overlap in the frequency domain.

在本实施例中，该第三指示早于该第一指示，即，第一指示对应的业务的优先级较高。In this embodiment, the third indication is earlier than the first indication, that is, the priority of the service corresponding to the first indication is higher.

在本实施例中，如果MAC层进行第一指示，那么，物理层期待(expected)收到MAC层的第一指示；如果MAC层不进行该第一指示，那么，物理层不期待(not expected)收到MAC层的该第一指示。In this embodiment, if the MAC layer performs the first instruction, then the physical layer expects to receive the first instruction from the MAC layer; if the MAC layer does not perform the first instruction, then the physical layer does not expect (not expected) ) The first instruction from the MAC layer is received.

根据本实施例，MAC层决定是否进行与较高优先级业务对应的第一指示，由此，在不同业务的上行资源发生冲突的情况下，能够满足较高优先级业务的延时和/或可靠性需求，此外，也能保护较低优先级业务的传输。According to this embodiment, the MAC layer decides whether to perform the first instruction corresponding to the higher-priority service. Therefore, when the uplink resources of different services conflict, the delay and/or delay of the higher-priority service can be met. Reliability requirements, in addition, can also protect the transmission of lower priority services.

在本实施例中，该终端设备的MAC层可以根据该终端设备的处理能力，决定是否进行该第一指示。In this embodiment, the MAC layer of the terminal device may decide whether to perform the first instruction according to the processing capability of the terminal device.

在一个实施方式中，如果终端设备具备同时处理和发送PUSCH与SR的能力，或者，终端设备具备随时终止正在生成SR和/或正在发送SR的能力，那么MAC层 可以进行该第一指示。In one embodiment, if the terminal device has the ability to process and send PUSCH and SR at the same time, or the terminal device has the ability to stop generating SR and/or sending SR at any time, then the MAC layer may perform the first instruction.

在另一个实施方式中，如果终端设备不具有随时终止正在生成SR的能力和/或随时终止正在发送SR的能力，那么，在MAC层判断为物理层正在生成该SR传输的情况下，MAC层可以根据该终端设备的第三处理时间(T_proc,III)和/或第四处理时间(T_proc,IV)，判断是否进行该第一指示。In another embodiment, if the terminal device does not have the ability to terminate the SR being generated at any time and/or the ability to terminate the SR transmission at any time, then, when the MAC layer determines that the physical layer is generating the SR transmission, the MAC layer It is possible to determine whether to perform the first instruction according to the third processing time (T_{proc, III} ) and/or the fourth processing time (T_{proc, IV} ) of the terminal device.

如图10的(a)、(b)所示，如果从MAC层进行第一指示的时刻t6起到SR传输开始发送的时刻t5为止的时间长度T6大于或等于第三处理时间(T_proc,III)，那么，MAC层进行该第一指示(即，终止与第三指示对应的尚未发送的SR)。As shown in (a) and (b) of Figure 10, if the time length T6 from the time t6 when the MAC layer gives the first instruction to the time t5 when the SR transmission starts to be sent is greater than or equal to the third processing time (T_{proc, III} ), then the MAC layer performs the first instruction (that is, terminates the unsent SR corresponding to the third instruction).

如图10的(c)所示，如果从MAC层进行该第一指示的时刻t6起到SR传输开始发送的时刻t5为止的时间长度T6小于第三处理时间(T_proc,III)，并且，从SR传输开始发送的时刻t5起到第一PUSCH传输开始发送的时刻t2为止的时间长度T7大于或等于第四处理时间(T_proc,IV)，那么，MAC层进行该第一指示。As shown in (c) of FIG. 10, if the time length T6 from the time t6 when the MAC layer gives the first instruction to the time t5 when the SR transmission starts to be sent is less than the third processing time (T_{proc, III} ), and, The time length T7 from the time t5 when the SR transmission starts to the time t2 when the first PUSCH transmission starts to be sent is greater than or equal to the fourth processing time (T_{proc, IV} ), then the MAC layer performs the first instruction.

在本实施例中，MAC层进行该第一指示的时刻与物理层收到该第一指示的时刻相同，MAC层进行该第三指示的时刻与物理层收到该第三指示的时刻相同。In this embodiment, the time when the MAC layer performs the first instruction is the same as the time when the physical layer receives the first instruction, and the time when the MAC layer performs the third instruction is the same as the time when the physical layer receives the third instruction.

此外，如果时间长度T6小于该第三处理时间(T_proc,III)，且时间长度T7小于第四处理时间(T_proc,IV)，那么，MAC层放弃进行该第一指示。In addition, if the time length T6 is less than the third processing time (T_{proc, III} ) and the time length T7 is less than the fourth processing time (T_{proc, IV} ), then the MAC layer gives up performing the first instruction.

在又一个实施方式中，如果终端设备不具有随时终止正在生成SR的能力和/或随时终止正在发送SR的能力，那么，在MAC层判断为物理层正在发送该SR传输的情况下，MAC层可以根据该终端设备的第四处理时间(T_proc,IV)，决定是否进行该第一指示。In yet another embodiment, if the terminal device does not have the ability to terminate the SR generation and/or the ability to terminate the SR transmission at any time, then, when the MAC layer determines that the physical layer is sending the SR transmission, the MAC layer It may be determined whether to perform the first instruction according to the fourth processing time (T_{proc, IV} ) of the terminal device.

如图11所示，从MAC层进行第一指示的时刻t6起到物理层开始发送该第一PUSCH传输的时刻t2为止的时间长度T8大于或等于第四处理时间(T_proc,IV)，那么MAC层进行该第一指示。As shown in FIG. 11, the time length T8 from the time t6 when the MAC layer gives the first instruction to the time t2 when the physical layer starts to send the first PUSCH transmission is greater than or equal to the fourth processing time (T_{proc, IV} ), then The MAC layer performs this first instruction.

此外，如果时间长度T8小于该第四处理时间(T_proc,IV)，那么，MAC层放弃进行该第一指示。In addition, if the time length T8 is less than the fourth processing time (T_{proc, IV} ), then the MAC layer gives up performing the first instruction.

在本实施例中，如果MAC进行该第一指示，那么物理层可以取消当前正在生成SR传输的过程或取消当前正在发送SR传输的过程，并根据该第一指示生成第一PUSCH传输，并发送该PUSCH。In this embodiment, if the MAC performs the first instruction, the physical layer can cancel the process of currently generating SR transmission or cancel the process of currently sending SR transmission, and generate the first PUSCH transmission according to the first instruction, and send it The PUSCH.

在本实施例中，如果MAC放弃进行该第三指示，那么物理层可以继续当前正在 生成SR的过程或正在发送SR传输的过程。In this embodiment, if the MAC abandons the third instruction, the physical layer can continue the process of generating SR or the process of sending SR transmission.

实施例6Example 6

本申请实施例6提供一种信息发送方法，该方法可以由终端设备执行。Embodiment 6 of the present application provides an information sending method, which can be executed by a terminal device.

本实施例的信息发送方法用于解决PUSCH的传输与包含HARQ的PUCCH的传输在时域上冲突的情形。其中，传输上行数据信道(PUSCH)的时频资源与传输包含HARQ的上行控制信道(PUCCH)的时频资源在时域上至少部分重叠。The information transmission method of this embodiment is used to resolve the situation where the transmission of PUSCH and the transmission of PUCCH including HARQ conflict in the time domain. Wherein, the time-frequency resource for transmitting the uplink data channel (PUSCH) and the time-frequency resource for transmitting the uplink control channel (PUCCH) including HARQ at least partially overlap in the time domain.

图14是本实施例6的信息发送方法的一个示意图，如图14所示，该方法包括：FIG. 14 is a schematic diagram of the information sending method of the sixth embodiment. As shown in FIG. 14, the method includes:

步骤1401、终端设备根据各业务对延时和/或可靠性的要求，发送上行数据信道(PUSCH)和/或包含HARQ的上行控制信道(PUCCH)。Step 1401: The terminal device sends an uplink data channel (PUSCH) and/or an uplink control channel (PUCCH) containing HARQ according to the requirements of each service for delay and/or reliability.

在本实施例中，上行数据信道(PUSCH)与包含HARQ的上行控制信道(PUCCH)的发送方式包括：In this embodiment, the transmission modes of the uplink data channel (PUSCH) and the uplink control channel (PUCCH) including HARQ include:

终端设备丢掉/忽视(drop/ignore)所述HARQ传输，发送所述PUSCH；或者The terminal device drops/ignores the HARQ transmission and sends the PUSCH; or

终端设备丢掉/忽视(drop/ignore)所述PUSCH，发送包含所述HARQ的PUCCH。The terminal device drops/ignores the PUSCH and transmits the PUCCH including the HARQ.

例如，如果低优先级业务的PUSCH对延时和/或可靠性的要求也很高，那么，终端设备丢掉所述HARQ传输，发送所述PUSCH。其中，低优先级业务的PUSCH对延时和/或可靠性的要求也很高，例如可以是指对延时的要求是小于2ms，误块率的要求小于10^-3。For example, if the PUSCH of a low-priority service also has high requirements for delay and/or reliability, the terminal device discards the HARQ transmission and sends the PUSCH. Among them, the low priority service PUSCH also has high requirements for delay and/or reliability. For example, it may mean that the requirement for delay is less than 2ms, and the requirement for block error rate is less than 10^-3 .

又例如，如果低优先级业务的PUSCH对延时和/或可靠性的要求不高，终端设备丢掉所述PUSCH，发送包含所述HARQ的PUCCH。其中，低优先级业务的PUSCH对延时和/或可靠性的要求不高，例如可以是指对延时的要求是小于10ms，对误块率的要求小于10^-2。For another example, if the PUSCH of a low-priority service does not have high requirements for delay and/or reliability, the terminal device discards the PUSCH and sends the PUCCH containing the HARQ. Among them, the low priority service PUSCH does not have high requirements for delay and/or reliability. For example, it may mean that the requirement for delay is less than 10 ms, and the requirement for block error rate is less than 10^-2 .

图15是本实施例6的信息发送方法的另一个示意图，如图15所示，该方法包括：FIG. 15 is another schematic diagram of the information sending method of this embodiment 6. As shown in FIG. 15, the method includes:

步骤1501、终端设备根据将HARQ复用到PUSCH是否会影响所述PUSCH对应的业务的可靠性，发送所述上行数据信道(PUSCH)或复用了上述包含HARQ的上行控制信道(PUCCH)的PUSCH。Step 1501: The terminal device transmits the uplink data channel (PUSCH) or the PUSCH multiplexed with the uplink control channel (PUCCH) containing HARQ according to whether multiplexing HARQ to PUSCH will affect the reliability of the service corresponding to the PUSCH .

在本实施例中，上行数据信道(PUSCH)与包含HARQ的上行控制信道(PUCCH)的发送方式包括：In this embodiment, the transmission modes of the uplink data channel (PUSCH) and the uplink control channel (PUCCH) including HARQ include:

终端设备将所述HARQ复用到所述PUSCH；或者The terminal device multiplexes the HARQ to the PUSCH; or

终端设备丢掉/忽视(drop/ignore)所述HARQ传输，发送所述PUSCH。The terminal device drops/ignores the HARQ transmission and sends the PUSCH.

例如，如果将低优先级HARQ复用到高优先级PUSCH不影响所述高优先级PUSCH对应的业务的可靠性，则终端设备将所述低优先级HARQ复用到所述高优先级PUSCH。其中，不影响是指：该复用不会导致复用后的码率高于可靠性要求的最高码率。For example, if multiplexing the low priority HARQ to the high priority PUSCH does not affect the reliability of the service corresponding to the high priority PUSCH, the terminal device multiplexes the low priority HARQ to the high priority PUSCH. Among them, no impact means: the multiplexing will not cause the multiplexed code rate to be higher than the highest code rate required for reliability.

又例如，如果将所述低优先级HARQ复用到所述高优先级PUSCH影响所述高优先级PUSCH对应的业务的可靠性，那么终端设备丢掉所述低优先级HARQ传输，发送所述高优先级PUSCH。For another example, if multiplexing the low priority HARQ to the high priority PUSCH affects the reliability of the service corresponding to the high priority PUSCH, then the terminal device discards the low priority HARQ transmission and sends the high priority PUSCH. Priority PUSCH.

实施例7Example 7

本实施例7提供一种信息发送装置。由于该装置解决问题的原理与实施例1～6的方法类似，因此其具体的实施可以参考实施例1～6的方法的实施，内容相同之处不再重复说明。The seventh embodiment provides an information sending device. Since the principle of the device to solve the problem is similar to the method ofEmbodiments 1 to 6, the specific implementation can refer to the implementation of the method ofEmbodiments 1 to 6, and the same content will not be repeated.

图16是本实施例的信息发送装置的一个示意图，如图16所示，该装置1600包括：FIG. 16 is a schematic diagram of the information sending device of this embodiment. As shown in FIG. 16, thedevice 1600 includes:

第一接收单元1601，其接收终端设备的媒体接入控制(MAC)层对物理层进行的第一指示以及第二指示，所述第一指示用于指示所述物理层生成第一物理上行共享信道(PUSCH)传输，所述第二指示用于指示所述物理层生成第二PUSCH传输；Afirst receiving unit 1601, which receives a first instruction and a second instruction from the media access control (MAC) layer of the terminal device to the physical layer, where the first instruction is used to instruct the physical layer to generate a first physical uplink share Channel (PUSCH) transmission, the second indication is used to instruct the physical layer to generate a second PUSCH transmission;

第一发送单元1602，其发送所述第二PUSCH和/或所述第一PUSCH。Thefirst sending unit 1602 sends the second PUSCH and/or the first PUSCH.

其中，所述第一PUSCH所在物理时频资源与所述第二PUSCH传输所在物理时频资源在时域上至少部分重叠，并且，所述第一指示早于所述第二指示。Wherein, the physical time-frequency resource where the first PUSCH is located and the physical time-frequency resource where the second PUSCH is transmitted at least partially overlap in the time domain, and the first indication is earlier than the second indication.

装置1600被设置于终端设备的物理层。关于装置1600的说明可以参见实施例1中关于物理层的说明。Theapparatus 1600 is installed in the physical layer of the terminal device. For the description of theapparatus 1600, refer to the description of the physical layer inEmbodiment 1.

图17是本实施例的信息发送装置的另一个示意图，如图17所示，该装置1700包括：FIG. 17 is another schematic diagram of the information sending device of this embodiment. As shown in FIG. 17, thedevice 1700 includes:

第二发送单元1701，其对物理层进行的第一指示，所述第一指示用于指示所述物理层生成第一PUSCH传输；第二发送单元1701对物理层进行或不进行第二指示，所述第二指示用于指示所述物理层生成第二PUSCH的传输，其中，所述第一PUSCH所在物理时频资源与所述第二PUSCH所在物理时频资源在时域上至少部分重叠，并 且，所述第一指示早于所述第二指示。Thesecond sending unit 1701, which provides a first instruction to the physical layer, where the first instruction is used to instruct the physical layer to generate a first PUSCH transmission; thesecond sending unit 1701 performs or does not perform a second instruction to the physical layer, The second indication is used to instruct the physical layer to generate a second PUSCH transmission, wherein the physical time-frequency resource where the first PUSCH is located and the physical time-frequency resource where the second PUSCH is located at least partially overlap in the time domain, And, the first instruction is earlier than the second instruction.

装置1700被设置于终端设备的MAC层。关于装置1700的说明可以参见实施例2中关于MAC层的说明。Thedevice 1700 is set in the MAC layer of the terminal device. For the description of theapparatus 1700, refer to the description of the MAC layer in Embodiment 2.

图18是本实施例的信息发送装置的另一个示意图，如图18所示，该装置1800包括：FIG. 18 is another schematic diagram of the information sending device of this embodiment. As shown in FIG. 18, thedevice 1800 includes:

第二接收单元1801，其接收终端设备的媒体接入控制(MAC)层对物理层进行的第一指示和第三指示，所述第一指示用于指示所述物理层生成第一物理上行共享信道(PUSCH)传输，所述第三指示用于指示所述物理层在调度请求(SR)的有效的物理上行控制信道(PUCCH)资源上发送该SR；Asecond receiving unit 1801, which receives a first instruction and a third instruction from the media access control (MAC) layer of the terminal device to the physical layer, where the first instruction is used to instruct the physical layer to generate a first physical uplink share Channel (PUSCH) transmission, and the third indication is used to instruct the physical layer to send the SR on the effective physical uplink control channel (PUCCH) resource of the scheduling request (SR);

第三发送单元1802，其发送所述第一PUSCH传输和/或所述SR.。Thethird sending unit 1802 sends the first PUSCH transmission and/or the SR.

其中，所述第一PUSCH所在物理时频资源与所述SR所在物理时频资源在时域上至少部分重叠。Wherein, the physical time-frequency resource where the first PUSCH is located and the physical time-frequency resource where the SR is located at least partially overlap in the time domain.

装置1800被设置于终端设备的物理层。关于装置1800的说明可以参见实施例3中关于物理层的说明。Thedevice 1800 is installed in the physical layer of the terminal device. For the description of theapparatus 1800, refer to the description of the physical layer in Embodiment 3.

图19是本实施例的信息发送装置的另一个示意图，如图19所示，该装置1900包括：FIG. 19 is another schematic diagram of the information sending device of this embodiment. As shown in FIG. 19, thedevice 1900 includes:

第四发送单元1901，其发送终端设备的媒体接入控制(MAC)层对物理层进行的第一指示，所述第一指示用于指示所述物理层生成第一物理上行共享信道(PUSCH)传输；Thefourth sending unit 1901, which sends a first instruction from the media access control (MAC) layer of the terminal device to the physical layer, where the first instruction is used to instruct the physical layer to generate a first physical uplink shared channel (PUSCH) transmission;

所述第四发送单元1901还对所述物理层进行或不进行第三指示，所述第三指示用于指示所述物理层在调度请求(SR)的有效的物理上行控制信道(PUCCH)资源上发送该SR.Thefourth sending unit 1901 also performs or does not perform a third indication to the physical layer, and the third indication is used to indicate the effective physical uplink control channel (PUCCH) resource of the scheduling request (SR) of the physical layer. Send the SR on.

其中，所述第一PUSCH所在物理时频资源与所述SR所在物理时频资源在时域上至少部分重叠，所述第一指示早于所述第三指示。Wherein, the physical time-frequency resource where the first PUSCH is located and the physical time-frequency resource where the SR is located at least partially overlap in the time domain, and the first indication is earlier than the third indication.

装置1900被设置于终端设备的MAC层。关于装置1900的说明可以参见实施例4中关于MAC层的说明。Thedevice 1900 is installed in the MAC layer of the terminal device. For the description of theapparatus 1900, refer to the description of the MAC layer in Embodiment 4.

图20是本实施例的信息发送装置的另一个示意图，如图20所示，该装置2000包括：FIG. 20 is another schematic diagram of the information sending device of this embodiment. As shown in FIG. 20, thedevice 2000 includes:

第五发送单元2001，其发送终端设备的媒体接入控制(MAC)层对物理层进行 第三指示，所述第三指示用于指示所述物理层在调度请求(SR)的有效的物理上行控制信道(PUCCH)资源上发送该SR；Thefifth sending unit 2001, which sends the media access control (MAC) layer of the terminal device to give a third indication to the physical layer, and the third indication is used to indicate that the physical layer is in the effective physical uplink of the scheduling request (SR) Send the SR on the control channel (PUCCH) resource;

所述第五发送单元2001还对所述物理层进行或不进行第一指示，所述第一指示用于指示所述物理层生成第一物理上行共享信道(PUSCH)传输。Thefifth sending unit 2001 also performs a first instruction to the physical layer or not, and the first instruction is used to instruct the physical layer to generate a first physical uplink shared channel (PUSCH) transmission.

其中，所述第一PUSCH所在物理时频资源与所述SR所在物理时频资源在时域上至少部分重叠，所述第三指示早于所述第一指示。Wherein, the physical time-frequency resource where the first PUSCH is located and the physical time-frequency resource where the SR is located at least partially overlap in the time domain, and the third indication is earlier than the first indication.

装置2000被设置于终端设备的MAC层。关于装置2000的说明可以参见实施例5中关于MAC层的说明。Thedevice 2000 is set in the MAC layer of the terminal device. For the description of theapparatus 2000, refer to the description of the MAC layer in Embodiment 5.

图21是本实施例的信息发送装置的另一个示意图，如图21所示，该装置2100包括：FIG. 21 is another schematic diagram of the information sending device of this embodiment. As shown in FIG. 21, thedevice 2100 includes:

第六发送单元2101，其根据各业务对延时和/或可靠性的要求，发送上行数据信道(PUSCH)和/或包含HARQ的上行控制信道(PUCCH)。Thesixth sending unit 2101 sends the uplink data channel (PUSCH) and/or the uplink control channel (PUCCH) containing HARQ according to the requirements of each service on the delay and/or reliability.

其中，传输所述上行数据信道(PUSCH)的时频资源与传输包含HARQ的上行控制信道(PUCCH)的时频资源在时域上至少部分重叠。Wherein, the time-frequency resource for transmitting the uplink data channel (PUSCH) and the time-frequency resource for transmitting the uplink control channel (PUCCH) including HARQ at least partially overlap in the time domain.

图22是本实施例的信息发送装置的另一个示意图，如图22所示，该装置2200包括：FIG. 22 is another schematic diagram of the information sending device of this embodiment. As shown in FIG. 22, thedevice 2200 includes:

第七发送单元2201，其根据将HARQ复用到PUSCH是否会影响所述PUSCH对应的业务的可靠性，发送该上行数据信道(PUSCH)或复用了上述包含HARQ的上行控制信道(PUCCH)的的PUSCH。Theseventh transmitting unit 2201, which transmits the uplink data channel (PUSCH) or the uplink control channel (PUCCH) multiplexed with HARQ according to whether the multiplexing of HARQ to the PUSCH will affect the reliability of the service corresponding to the PUSCH PUSCH.

其中，传输所述上行数据信道(PUSCH)的时频资源与传输包含HARQ的上行控制信道(PUCCH)的时频资源在时域上至少部分重叠。Wherein, the time-frequency resource for transmitting the uplink data channel (PUSCH) and the time-frequency resource for transmitting the uplink control channel (PUCCH) including HARQ at least partially overlap in the time domain.

装置2100、2200被设置于终端设备。关于装置2100、2200的说明可以参见实施例6中关于终端设备的动作的说明。Thedevices 2100 and 2200 are installed in terminal devices. For the description of theapparatuses 2100 and 2200, refer to the description of the operation of the terminal device in Embodiment 6.

实施例8Example 8

本实施例8提供一种终端设备，由于该设备解决问题的原理与实施例1～6的方法类似，因此其具体的实施可以参考实施例1～6的方法实施，内容相同之处不再重复说明。This embodiment 8 provides a terminal device. Since the principle of the device to solve the problem is similar to the methods inEmbodiments 1 to 6, the specific implementation can refer to the methods inEmbodiments 1 to 6, and the same content will not be repeated. Description.

图23是本申请实施例的终端设备的构成示意图。如图23所示，终端设备2300 可以包括：中央处理器(CPU)2301和存储器2302；存储器2302耦合到中央处理器2301。其中该存储器2302可存储各种数据；此外还存储数据处理的程序，并且在中央处理器2301的控制下执行该程序，以根据接收的信令对终端设备进行指示。FIG. 23 is a schematic diagram of the structure of a terminal device according to an embodiment of the present application. As shown in FIG. 23, theterminal device 2300 may include: a central processing unit (CPU) 2301 and amemory 2302; thememory 2302 is coupled to thecentral processing unit 2301. Thememory 2302 can store various data; in addition, it also stores data processing programs, which are executed under the control of thecentral processing unit 2301 to instruct the terminal equipment according to the received signaling.

在一个实施方式中，实施例7的装置1600～2200中任一装置的功能可以被集成到终端设备2300的中央处理器2301中。其中，中央处理器2301可以被配置为实现实施例1～6所述的信息发送方。In an implementation manner, the function of any one of theapparatuses 1600 to 2200 in Embodiment 7 may be integrated into thecentral processing unit 2301 of theterminal device 2300. Wherein, thecentral processing unit 2301 may be configured to implement the information sender described inEmbodiments 1 to 6.

例如，中央处理器2301可以被配置为进行控制，以使终端设备2300执行实施例1～6的方法。For example, thecentral processing unit 2301 may be configured to perform control so that theterminal device 2300 executes the methods inEmbodiments 1 to 6.

另外，该中央处理器2301的其他配置方式可以参考实施例1～6，此处不再赘述。In addition, other configuration modes of thecentral processing unit 2301 can refer toEmbodiments 1 to 6, which will not be repeated here.

在另一个实施方式中，上述装置1600～2200中任一装置可以与中央处理器2301分开配置，例如，可以将装置1600～2200中任一装置配置为与中央处理器2301连接的芯片，如图23所示的单元，通过中央处理器2301的控制来实现装置1600～2200中任一装置的功能。In another embodiment, any one of the aforementioned devices 1600-2200 can be configured separately from thecentral processing unit 2301. For example, any one of the devices 1600-2200 can be configured as a chip connected to thecentral processing unit 2301, as shown in FIG. The unit shown in 23 realizes the function of any one of the devices 1600-2200 through the control of thecentral processor 2301.

实施例9Example 9

本实施例9提供一种通信系统，其至少包括网络设备和实施例8中的终端设备2300，将其内容合并于此，此处不再赘述。Embodiment 9 provides a communication system, which includes at least a network device and aterminal device 2300 in Embodiment 8. The content is incorporated here, and will not be repeated here.

根据本实施例，在不同业务的上行资源发生冲突的情况下，能够满足较高优先级业务的延时和/或可靠性需求，此外，也能保护较低优先级业务的传输。According to this embodiment, when the uplink resources of different services collide, the delay and/or reliability requirements of higher priority services can be met, and in addition, the transmission of lower priority services can also be protected.

本发明实施例还提供一种存储有计算机可读程序的存储介质，其中该计算机可读程序使得信息发送装置或终端设备执行实施例1～6中至少任一项所述的方法。An embodiment of the present invention also provides a storage medium storing a computer-readable program, wherein the computer-readable program enables the information sending apparatus or terminal device to execute the method described in at least any one ofEmbodiments 1 to 6.

本发明实施例还提供一种计算机可读程序，其中当在信息发送或终端设备中执行该程序时，该程序使得该信息发送装置或终端设备执行实施例1～6中至少任一项所述的方法。An embodiment of the present invention also provides a computer-readable program, wherein when the program is executed in an information sending or terminal device, the program causes the information sending device or terminal device to execute at least any one ofEmbodiments 1 to 6 Methods.

本发明以上的装置和方法可以由硬件实现，也可以由硬件结合软件实现。本发明涉及这样的计算机可读程序，当该程序被逻辑部件所执行时，能够使该逻辑部件实现上文所述的装置或构成部件，或使该逻辑部件实现上文所述的各种方法或步骤。本发明还涉及用于存储以上程序的存储介质，如硬盘、磁盘、光盘、DVD、flash存储器等。The above devices and methods of the present invention can be implemented by hardware, or by hardware combined with software. The present invention relates to such a computer-readable program, when the program is executed by a logic component, the logic component can realize the above-mentioned device or constituent component, or the logic component can realize the above-mentioned various methods Or steps. The present invention also relates to storage media for storing the above programs, such as hard disks, magnetic disks, optical disks, DVDs, flash memory, and the like.

结合本发明实施例描述的在各装置中的各处理方法可直接体现为硬件、由处理器执行的软件模块或二者组合。例如，图4、5、11、12中所示的功能框图中的一个或多个和/或功能框图的一个或多个组合，既可以对应于计算机程序流程的各个软件模块，亦可以对应于各个硬件模块。这些软件模块，可以分别对应于图2、3、9、10所示的各个步骤。这些硬件模块例如可利用现场可编程门阵列(FPGA)将这些软件模块固化而实现。The processing methods in the devices described in conjunction with the embodiments of the present invention may be directly embodied in hardware, software modules executed by a processor, or a combination of the two. For example, one or more of the functional block diagrams shown in FIGS. 4, 5, 11, and 12 and/or one or more combinations of the functional block diagrams may correspond to each software module of the computer program flow, or may correspond to Various hardware modules. These software modules can respectively correspond to the steps shown in Figures 2, 3, 9, and 10. These hardware modules can be implemented by curing these software modules by using a field programmable gate array (FPGA), for example.

软件模块可以位于RAM存储器、闪存、ROM存储器、EPROM存储器、EEPROM存储器、寄存器、硬盘、移动磁盘、CD-ROM或者本领域已知的任何其它形式的存储介质。可以将一种存储介质耦接至处理器，从而使处理器能够从该存储介质读取信息，且可向该存储介质写入信息；或者该存储介质可以是处理器的组成部分。处理器和存储介质可以位于ASIC中。该软件模块可以存储在移动终端的存储器中，也可以存储在可插入移动终端的存储卡中。例如，若设备(例如移动终端)采用的是较大容量的MEGA-SIM卡或者大容量的闪存装置，则该软件模块可存储在该MEGA-SIM卡或者大容量的闪存装置中。The software module can be located in RAM memory, flash memory, ROM memory, EPROM memory, EEPROM memory, registers, hard disk, removable disk, CD-ROM or any other form of storage medium known in the art. A storage medium may be coupled to the processor, so that the processor can read information from the storage medium and write information to the storage medium; or the storage medium may be a component of the processor. The processor and the storage medium may be located in the ASIC. The software module can be stored in the memory of the mobile terminal, or can be stored in a memory card that can be inserted into the mobile terminal. For example, if the device (such as a mobile terminal) uses a larger-capacity MEGA-SIM card or a large-capacity flash memory device, the software module can be stored in the MEGA-SIM card or a large-capacity flash memory device.

针对图4、5、11、12描述的功能框图中的一个或多个和/或功能框图的一个或多个组合，可以实现为用于执行本申请所描述功能的通用处理器、数字信号处理器(DSP)、专用集成电路(ASIC)、现场可编程门阵列(FPGA)或其它可编程逻辑器件、分立门或晶体管逻辑器件、分立硬件组件、或者其任意适当组合。针对图4、5、11、12描述的功能框图中的一个或多个和/或功能框图的一个或多个组合，还可以实现为计算设备的组合，例如，DSP和微处理器的组合、多个微处理器、与DSP通信结合的一个或多个微处理器或者任何其它这种配置。One or more of the functional block diagrams described in FIGS. 4, 5, 11, and 12 and/or one or more combinations of the functional block diagrams can be implemented as a general-purpose processor or digital signal processing for performing the functions described in this application. Device (DSP), application specific integrated circuit (ASIC), field programmable gate array (FPGA) or other programmable logic device, discrete gate or transistor logic device, discrete hardware component, or any suitable combination thereof. One or more of the functional block diagrams described in FIGS. 4, 5, 11, and 12 and/or one or more combinations of the functional block diagrams can also be implemented as a combination of computing devices, for example, a combination of a DSP and a microprocessor, Multiple microprocessors, one or more microprocessors in communication with the DSP, or any other such configuration.

以上结合具体的实施方式对本发明进行了描述，但本领域技术人员应该清楚，这些描述都是示例性的，并不是对本发明保护范围的限制。本领域技术人员可以根据本发明的原理对本发明做出各种变型和修改，这些变型和修改也在本发明的范围内。The present invention has been described above in conjunction with specific embodiments, but it should be clear to those skilled in the art that these descriptions are all exemplary and do not limit the protection scope of the present invention. Those skilled in the art can make various variations and modifications to the present invention based on the principles of the present invention, and these variations and modifications are also within the scope of the present invention.

本申请还提供如下的附记：This application also provides the following supplementary notes:

1.一种信息发送装置，应用于终端设备的物理层，该装置包括：1. An information sending device applied to the physical layer of terminal equipment, the device comprising:

第二接收单元，其接收终端设备的媒体接入控制(MAC)层对物理层进行的第一指示和第三指示，所述第一指示用于指示所述物理层生成第一物理上行共享信道(PUSCH)传输，A second receiving unit, which receives a first indication and a third indication from the media access control (MAC) layer of the terminal device to the physical layer, where the first indication is used to instruct the physical layer to generate a first physical uplink shared channel (PUSCH) transmission,

所述第三指示用于指示所述物理层在调度请求(SR)的有效的物理上行控制信道(PUCCH)资源上发送该SR；以及The third indication is used to instruct the physical layer to send the SR on the effective physical uplink control channel (PUCCH) resource of the scheduling request (SR); and

第三发送单元，其发送所述第一PUSCH传输和/或所述SR；A third sending unit, which sends the first PUSCH transmission and/or the SR;

其中，所述第一PUSCH所在物理时频资源与所述SR所在物理时频资源在时域上至少部分重叠。Wherein, the physical time-frequency resource where the first PUSCH is located and the physical time-frequency resource where the SR is located at least partially overlap in the time domain.

2.如附记1所述的装置，其中，2. The device according toSupplement 1, wherein:

所述第三发送单元根据所述终端设备的处理能力发送所述第一上行数据信道(PUSCH)与所述调度请求(SR)。The third sending unit sends the first uplink data channel (PUSCH) and the scheduling request (SR) according to the processing capability of the terminal device.

3.如附记1所述的装置，其中，3. The device according toSupplement 1, wherein:

所述第三发送单元终止生成PUSCH的过程，或终止正在发送PUSCH的过程，并处理当前所述来自MAC层的所述第三指示，The third sending unit terminates the process of generating the PUSCH, or terminates the process of sending the PUSCH, and processes the current third instruction from the MAC layer,

其中，所述第一指示早于所述第三指示。Wherein, the first instruction is earlier than the third instruction.

4.如附记1所述的装置，其中，4. The device according toSupplement 1, wherein:

所述第三发送单元根据所述终端设备的第一处理时间(T_proc,I)与第二处理时间(T_proc,II)，判断是否终止尚未发送的PUSCH，或者是终止因来不及取消尚未发送的PUSCH而开始发送的PUSCH，According to the first processing time (T_{proc, I} ) and the second processing time (T_{proc, II} ) of the terminal device, the third sending unit determines whether to terminate the PUSCH that has not been sent yet, or whether it is too late to cancel the unsent PUSCH. PUSCH to start sending PUSCH,

其中，所述第一指示早于所述第三指示，Wherein, the first instruction is earlier than the third instruction,

所述物理层在生成所述第一PUSCH时收到所述第三指示，The physical layer receives the third indication when generating the first PUSCH,

所述第一处理时间是所述终端设备终止生成所述第一PUSCH所需的最短时间；所述第二处理时间是所述终端设备终止正在发送的所述第一PUSCH所需的最短时间。The first processing time is the shortest time required for the terminal device to terminate the generation of the first PUSCH; the second processing time is the shortest time required for the terminal device to terminate the first PUSCH being transmitted.

5.如附记4所述的装置，其中，5. The device according to appendix 4, wherein:

第三发送单元终止生成所述第一PUSCH的过程，The third sending unit terminates the process of generating the first PUSCH,

其中，从接收所述第三指示时刻起到所述第一PUSCH开始发送的时刻为止的时间长度大于或等于所述第一处理时间。Wherein, the length of time from the moment when the third instruction is received to the moment when the first PUSCH starts to be transmitted is greater than or equal to the first processing time.

6.如附记4所述的装置，其中，6. The device as described in appendix 4, wherein:

第三发送单元终止因来不及取消尚未发送的PUSCH而开始发送的PUSCH，The third sending unit terminates the PUSCH that has started sending because it is too late to cancel the PUSCH that has not been sent,

其中，从接收所述第三指示的时刻起到所述第一PUSCH开始发送的时刻为止的时间长度小于所述第一处理时间，并且从所述第一PUSCH开始发送的时刻起到所述 SR开始发送的时刻为止的时间长度大于或等于所述第二处理时间。Wherein, the length of time from the moment when the third instruction is received to the moment when the first PUSCH starts to be transmitted is less than the first processing time, and from the moment when the first PUSCH starts to send to the SR The length of time up to the time when the transmission starts is greater than or equal to the second processing time.

7.如附记6所述的装置，其中，7. The device according to Supplement 6, wherein:

所述第三发送单元根据所述第三指示生成SR传输，并在有效的PUCCH资源上发送根据所述SR传输。The third sending unit generates SR transmission according to the third instruction, and sends the transmission according to the SR on a valid PUCCH resource.

8.如附记6所述的装置，其中，8. The device according to Supplement 6, wherein:

所述第三发送单元通知MAC层，所述物理层发送了第三指示对应的SR传输，并且丢掉/忽视(drop/ignore)了第一PUSCH的传输。The third sending unit notifies the MAC layer that the physical layer sent the SR transmission corresponding to the third indication, and dropped/ignore the transmission of the first PUSCH.

9.如附记1所述的装置，其中，9. The device according toSupplement 1, wherein:

所述第三发送单元根据所述终端设备的第二处理时间(T_proc,II)，判断是否终止正在发送所述第一PUSCH的过程，The third sending unit judges whether to terminate the process of sending the first PUSCH according to the second processing time (T_{proc, II} ) of the terminal device,

其中，所述第一指示早于所述第三指示，Wherein, the first instruction is earlier than the third instruction,

所述第三发送单元在发送第一PUSCH时收到来自MAC层的所述第三指示，The third sending unit receives the third indication from the MAC layer when sending the first PUSCH,

所述第二处理时间是所述终端设备终止正在发送的所述第一PUSCH所需的最短时间。The second processing time is the shortest time required for the terminal device to terminate the first PUSCH being transmitted.

10.如附记9所述的装置，其中，10. The device according to Supplement 9, wherein:

第三发送单元终止正在发送所述第一PUSCH的过程，The third sending unit terminates the process of sending the first PUSCH,

其中，从接收所述第三指示的时刻起到所述物理层开始发送所述SR为止的时间长度大于或等于所述第二处理时间。Wherein, the length of time from the moment when the third instruction is received to when the physical layer starts to send the SR is greater than or equal to the second processing time.

11.如附记10所述的装置，其中，11. The device according to Supplement 10, wherein:

所述第三发送单元根据所述第三指示生成SR传输，并在有效的PUCCH资源上发送所述SR传输。The third sending unit generates an SR transmission according to the third instruction, and sends the SR transmission on a valid PUCCH resource.

12.如附记10所述的装置，其中，12. The device according to Supplement 10, wherein:

所述第三发送单元通知MAC层：物理层发送了第三指示对应的SR传输，并且丢掉/忽视(drop/ignore)了第一PUSCH的传输。The third sending unit notifies the MAC layer that the physical layer has sent the SR transmission corresponding to the third indication, and dropped/ignore the transmission of the first PUSCH.

13.如附记1所述的装置，其中，13. The device according toSupplement 1, wherein:

所述第三发送单元终止根据所述第三指示生成SR的过程，或终止正在发送所述SR的过程，并处理当前所述来自MAC层的所述第一指示，The third sending unit terminates the process of generating the SR according to the third instruction, or terminates the process of sending the SR, and processes the current first instruction from the MAC layer,

其中，所述第三指示早于所述第一指示。Wherein, the third instruction is earlier than the first instruction.

14.如附记1所述的装置，其中，14. The device according toSupplement 1, wherein:

所述第三发送单元根据所述终端设备的第三处理时间(T_proc,III)与第四处理时间(T_proc,IV)，判断是否终止尚未发送的SR或者是终止因来不及取消尚未发送的SR而开始发送的SR，According to the third processing time (T_{proc, III} ) and the fourth processing time (T_{proc, IV} ) of the terminal device, the third sending unit judges whether to terminate the unsent SR or to cancel the unsent SR because it is too late to terminate SR and start sending SR,

其中，所述第三指示早于所述第一指示，Wherein, the third instruction is earlier than the first instruction,

所述第三发送单元在根据所述第三指示生成SR时收到所述第一指示，The third sending unit receives the first instruction when generating the SR according to the third instruction,

其中，所述的第三处理时间是所述终端设备终止正在根据所述第三指令生成SR的过程所需的最短时间；所述第四处理时间是所述终端设备终止正在发送SR的过程所需的最短时间。Wherein, the third processing time is the shortest time required for the terminal device to terminate the process of generating SR according to the third instruction; the fourth processing time is for the terminal device to terminate the process of sending SR. The shortest time required.

15.如附记14所述的装置，其中，15. The device according to Supplement 14, wherein:

第三发送单元终止与所述第三指示对应的生成SR的过程，The third sending unit terminates the process of generating SR corresponding to the third indication,

其中，从接收所述第一指示的时刻起到所述SR开始发送的时刻为止的时间长度大于或等于所述第三处理时间。Wherein, the length of time from the moment when the first instruction is received to the moment when the SR starts to be sent is greater than or equal to the third processing time.

16.如附记14所述的装置，其中，16. The device according to Supplement 14, wherein:

第三发送单元终止因来不及取消尚未发送的SR而开始发送的SR，The third sending unit terminates the SR that started sending because it is too late to cancel the SR that has not been sent,

其中，从接收所述第一指示的时刻起到所述SR开始发送时刻为止的时间长度小于所述第三处理时间，并且从所述SR开始发送的时刻起到所述第一PUSCH开始发送的时刻为止的时间长度大于或等于所述第四处理时间。Wherein, the length of time from the moment when the first instruction is received to the moment when the SR starts to be sent is less than the third processing time, and from the moment when the SR starts to send to when the first PUSCH starts to send The length of time up to time is greater than or equal to the fourth processing time.

17.如附记15或16所述的装置，其中，17. The device according toSupplement 15 or 16, wherein:

所述第三发送单元根据所述第一指示生成所述第一PUSCH传输，并发送所述第一PUSCH传输。The third sending unit generates the first PUSCH transmission according to the first instruction, and sends the first PUSCH transmission.

18.如附记15或16所述的装置，其中，18. The device according toSupplement 15 or 16, wherein:

所述第三发送单元通知MAC层：物理层发送了与第一指示对应的第一PUSCH的传输，并且丢掉/忽视(drop/ignore)了与第三指示对应的SR传输。The third sending unit notifies the MAC layer that the physical layer has sent the transmission of the first PUSCH corresponding to the first indication, and dropped/ignore the SR transmission corresponding to the third indication.

19.如附记1所述的装置，其中，19. The device according toSupplement 1, wherein:

所述物理层根据所述终端设备的第四处理时间(T_proc,IV)，判断是否终止正在发送所述SR的过程，The physical layer determines whether to terminate the process of sending the SR according to the fourth processing time (T_{proc, IV} ) of the terminal device,

其中，所述第三指示早于所述第一指示，Wherein, the third instruction is earlier than the first instruction,

当第三发送单元在发送SR时收到来自MAC层的所述第一指示，When the third sending unit receives the first indication from the MAC layer when sending the SR,

所述第四处理时间是所述终端设备终止正在发送的所述SR所需的最短时间。The fourth processing time is the shortest time required for the terminal device to terminate the SR being sent.

20.如附记19所述的装置，其中，20. The device according to Supplement 19, wherein:

第三发送单元终止所述正在发送SR的过程，The third sending unit terminates the process of sending SR,

其中，从物理层接收所述第一指示的时刻起到所述物理层开始发送所述第一PUSCH为止的时间长度大于或等于所述第四处理时间。Wherein, the length of time from the moment when the physical layer receives the first instruction to the time when the physical layer starts to send the first PUSCH is greater than or equal to the fourth processing time.

21.如附记20所述的装置，其中，21. The device according to Supplement 20, wherein:

所述第三发送单元根据所述第一指示生成所述第一PUSCH传输；以及The third sending unit generates the first PUSCH transmission according to the first instruction; and

所述物理层发送所述第一PUSCH传输。The physical layer sends the first PUSCH transmission.

22.如附记20所述的装置，其中，22. The device according to Supplement 20, wherein:

所述第三发送单元通知MAC层，物理层发送了与第一指示对应的第一PUSCH的传输，并且丢掉/忽视(drop/ignore)了与第三指示对应的SR传输。The third sending unit notifies the MAC layer that the physical layer sends the transmission of the first PUSCH corresponding to the first indication, and drops/ignores the SR transmission corresponding to the third indication.

1a.一种信息发送装置，应用于终端设备的MAC层，该装置包括：1a. An information sending device applied to the MAC layer of a terminal device, the device comprising:

第四发送单元，其发送终端设备的媒体接入控制(MAC)层对物理层进行的第一指示，所述第一指示用于指示所述物理层生成第一物理上行共享信道(PUSCH)传输；A fourth sending unit, which sends a first indication from the media access control (MAC) layer of the terminal device to the physical layer, where the first indication is used to instruct the physical layer to generate a first physical uplink shared channel (PUSCH) transmission ；

所述第四发送单元对所述物理层进行或不进行第三指示，所述第三指示用于指示所述物理层在调度请求(SR)的有效的物理上行控制信道(PUCCH)资源上发送该SR，The fourth sending unit performs or does not perform a third indication to the physical layer, and the third indication is used to instruct the physical layer to send on the effective physical uplink control channel (PUCCH) resource of the scheduling request (SR) The SR,

其中，所述第一PUSCH所在物理时频资源与所述SR所在物理时频资源在时域上至少部分重叠，所述第一指示早于所述第三指示。Wherein, the physical time-frequency resource where the first PUSCH is located and the physical time-frequency resource where the SR is located at least partially overlap in the time domain, and the first indication is earlier than the third indication.

2a.如附记1a所述的装置，其中，2a. The device as described in Supplement 1a, wherein:

所述第四发送单元根据所述终端设备的处理能力进行所述第三指示。The fourth sending unit performs the third instruction according to the processing capability of the terminal device.

3a.如附记1a所述的装置，其中，3a. The device as described in Supplement 1a, wherein:

所述第四发送单元根据所述终端设备的第一处理时间(T_proc,I)与第二处理时间(T_proc,II)，判断是否对物理层进行所述第三指示，The fourth sending unit determines whether to perform the third instruction on the physical layer according to the first processing time (T_{proc, I} ) and the second processing time (T_{proc, II} ) of the terminal device,

其中，among them,

所述物理层正在生成所述第一PUSCH，The physical layer is generating the first PUSCH,

所述第一处理时间是所述终端设备终止生成所述第一PUSCH的过程所需的最短时间；所述第二处理时间是所述终端设备终止正在发送所述第一PUSCH的过程所需的最短时间。The first processing time is the shortest time required for the terminal device to terminate the process of generating the first PUSCH; the second processing time is the minimum time required for the terminal device to terminate the process of transmitting the first PUSCH shortest time.

4a.如附记3a所述的装置，其中，4a. The device as described in Supplement 3a, wherein:

第四发送单元进行所述第三指示，The fourth sending unit performs the third instruction,

其中，从进行所述第三指示的时刻起到所述第一PUSCH开始发送的时刻为止的时间长度大于或等于所述第一处理时间。Wherein, the length of time from the moment when the third instruction is performed to the moment when the first PUSCH starts to be transmitted is greater than or equal to the first processing time.

5a.如附记3a所述的装置，其中，5a. The device as described in Supplement 3a, wherein:

第四发送单元进行所述第三指示，The fourth sending unit performs the third instruction,

其中，从进行所述第三指示的时刻起到所述第一PUSCH开始发送的时刻为止的时间长度小于所述第一处理时间，并且从所述第一PUSCH开始发送的时刻起到所述SR开始发送的时刻为止的时间长度大于或等于所述第二处理时间。Wherein, the length of time from the moment when the third instruction is performed to the moment when the first PUSCH starts to be transmitted is less than the first processing time, and from the moment when the first PUSCH starts to transmit to the SR The length of time up to the time when the transmission is started is greater than or equal to the second processing time.

6a.如附记3a所述的装置，其中，6a. The device as described in Supplement 3a, wherein:

第四发送单元放弃进行所述第三指示，The fourth sending unit abandons performing the third instruction,

其中，从MAC层进行所述第三指示的时刻起到所述第一PUSCH开始发送的时刻为止的时间长度小于所述第一处理时间，且从所述第一PUSCH开始发送的时刻起到所述SR开始发送的时刻为止的时间长度小于所述第二处理时间。Wherein, the length of time from the moment when the MAC layer performs the third instruction to the moment when the first PUSCH starts to be transmitted is less than the first processing time, and the length from the moment when the first PUSCH starts to transmit is reached. The length of time until the time when the SR starts to be sent is less than the second processing time.

7a.如附记1a所述的装置，其中，7a. The device as described in Supplement 1a, wherein:

所述第四发送单元根据所述终端设备的第二处理时间(T_proc,II)，判断是否对物理层进行所述第三指示，The fourth sending unit determines whether to perform the third instruction on the physical layer according to the second processing time (T_{proc, II} ) of the terminal device,

其中，所述物理层正在发送所述第一PUSCH，Wherein, the physical layer is sending the first PUSCH,

所述第二处理时间是所述终端设备终止正在发送的所述第一PUSCH所需的最短时间。The second processing time is the shortest time required for the terminal device to terminate the first PUSCH being transmitted.

8a.如附记7a所述的装置，其中，8a. The device as described in Supplement 7a, wherein:

第四发送单元进行所述第三指示，The fourth sending unit performs the third instruction,

其中，从发送所述第三指示的时刻起到所述物理层开始发送所述SR为止的时间长度大于或等于所述第二处理时间。Wherein, the length of time from the moment when the third instruction is sent to when the physical layer starts to send the SR is greater than or equal to the second processing time.

9a.如附记7a所述的装置，其中，9a. The device as described in Supplement 7a, wherein:

第四发送单元放弃发送所述第三信令，The fourth sending unit abandons sending the third signaling,

其中，从发送所述第三指示对应的第三指示的时刻起到所述物理层开始发送所述SR为止的时间长度小于所述第二处理时间。Wherein, the length of time from the moment when the third instruction corresponding to the third instruction is sent to when the physical layer starts to send the SR is less than the second processing time.

1b.一种信息发送装置，应用于终端设备，该装置包括：1b. An information sending device applied to terminal equipment, the device comprising:

第五发送单元，其发送终端设备的媒体接入控制(MAC)层对物理层进行的第三指示，所述第三指示用于指示所述物理层在调度请求(SR)的有效的物理上行控制信道(PUCCH)资源上发送该SR；The fifth sending unit, which sends a third indication from the media access control (MAC) layer of the terminal device to the physical layer, where the third indication is used to indicate that the physical layer is in the effective physical uplink of the scheduling request (SR) Send the SR on the control channel (PUCCH) resource;

所述第五发送单元对所述物理层进行或不进行第一指示，所述第一指示用于指示所述物理层生成第一物理上行共享信道(PUSCH)传输The fifth sending unit gives or not a first instruction to the physical layer, where the first instruction is used to instruct the physical layer to generate a first physical uplink shared channel (PUSCH) transmission

其中，所述第一PUSCH所在物理时频资源与所述SR所在物理时频资源在时域上至少部分重叠，所述第三指示早于所述第一指示。Wherein, the physical time-frequency resource where the first PUSCH is located and the physical time-frequency resource where the SR is located at least partially overlap in the time domain, and the third indication is earlier than the first indication.

2b.如附记1b所述的装置，其中，2b. The device as described in Supplement 1b, wherein:

所述第五发送单元根据所述终端设备的处理能力进行所述第一指示。The fifth sending unit performs the first instruction according to the processing capability of the terminal device.

3b.如附记1b所述的装置，其中，所述第五发送单元根据所述终端设备的第三处理时间(T_proc,III)与第四处理时间(T_proc,V)，判断是否对物理层进行所述第一指示，3b. The apparatus according to appendix 1b, wherein the fifth sending unit judges whether it is_correct according to the third processing time (T_{proc, III} ) and the fourth processing time (T_{proc, V} ) of the terminal device The physical layer performs the first instruction,

其中，所述物理层正在根据所述第三指示生成SR，Wherein, the physical layer is generating an SR according to the third instruction,

所述第三处理时间是所述终端设备终止正在根据所述第三指示生成SR的过程所需的最短时间；所述第四处理时间是所述终端设备终止正在发送所述SR的过程所需的最短时间。The third processing time is the shortest time required for the terminal device to terminate the process of generating the SR according to the third instruction; the fourth processing time is the minimum time required for the terminal device to terminate the process of sending the SR The shortest time.

4b.如附记3b所述的装置，其中，4b. The device as described in Supplement 3b, wherein:

第五发送单元进行所述第一指示，The fifth sending unit performs the first instruction,

其中，从MAC层发送所述第一指示对应的第一指示的时刻起到所述SR开始发送的时刻为止的时间长度大于或等于所述第三处理时间。Wherein, the length of time from the moment when the MAC layer sends the first instruction corresponding to the first instruction to the moment when the SR starts to be sent is greater than or equal to the third processing time.

5b.如附记3b所述的装置，其中，5b. The device as described in Supplement 3b, wherein:

第五发送单元进行所述第一指示，The fifth sending unit performs the first instruction,

其中，从MAC层发送所述第一指示对应的第一指示的时刻起到所述SR开始发送的时刻为止的时间长度小于所述第三处理时间，并且从所述SR开始发送的时刻起到所述第一PUSCH开始发送的时刻为止的时间长度大于或等于所述第四处理时间。Wherein, the length of time from the moment when the MAC layer sends the first instruction corresponding to the first instruction to the moment when the SR starts to send is less than the third processing time, and from the moment when the SR starts to send The length of time until the moment when the first PUSCH starts to be transmitted is greater than or equal to the fourth processing time.

6b.如附记3b所述的装置，其中，6b. The device as described in Supplement 3b, wherein:

第五发送单元放弃进行所述第一指示，The fifth sending unit abandons performing the first instruction,

其中，从MAC层发送所述第一指示对应的第一指示的时刻起到所述SR开始发送的时刻为止的时间长度小于所述第三处理时间，且从所述SR开始发送的时刻起到所述第一PUSCH开始发送的时刻为止的时间长度小于所述第四处理时间。Wherein, the length of time from the moment when the MAC layer sends the first instruction corresponding to the first instruction to the moment when the SR starts to send is less than the third processing time, and from the moment when the SR starts to send The length of time until the moment when the first PUSCH starts to be transmitted is less than the fourth processing time.

7b.如附记1b所述的装置，其中，7b. The device as described in Supplement 1b, wherein:

所述第五发送单元根据所述终端设备的第四处理时间(T_proc,IV)，判断是否向物理层发送所述第一指示，The fifth sending unit determines whether to send the first instruction to the physical layer according to the fourth processing time (T_{proc, IV} ) of the terminal device,

其中，所述物理层正在发送根据所述第三指示生成的SR，Wherein, the physical layer is sending the SR generated according to the third instruction,

所述第四处理时间是所述终端设备终止正在发送所述SR的过程所需的最短时间。The fourth processing time is the shortest time required for the terminal device to terminate the process of sending the SR.

8b.如附记7b所述的装置，其中，8b. The device as described in Supplement 7b, wherein:

第五发送单元进行所述第一指示，The fifth sending unit performs the first instruction,

其中，从发送所述第一指示对应的时刻起到所述物理层开始发送所述第一PUSCH为止的时间长度大于或等于所述第四处理时间。Wherein, the length of time from the moment when the first instruction is sent to when the physical layer starts to send the first PUSCH is greater than or equal to the fourth processing time.

9b.如附记7b所述的装置，其中，9b. The device as described in Supplement 7b, wherein:

第五发送单元放弃进行所述第一指示，The fifth sending unit abandons performing the first instruction,

其中，从发送所述第一指示的时刻起到所述物理层开始发送所述第一PUSCH为止的时间长度小于所述第四处理时间。Wherein, the time length from the moment when the first instruction is sent to the time when the physical layer starts to send the first PUSCH is less than the fourth processing time.

1c.一种信息发送装置，应用于终端设备，该装置包括：1c. An information sending device applied to terminal equipment, the device comprising:

第六发送单元，其根据各业务对延时和/或可靠性的要求，发送上行数据信道(PUSCH)和/或包含HARQ的上行控制信道(PUCCH，The sixth sending unit, which sends the uplink data channel (PUSCH) and/or the uplink control channel (PUCCH) containing HARQ according to the requirements of each service for delay and/or reliability.

其中，传输所述上行数据信道(PUSCH)的时频资源与传输包含HARQ的上行控制信道(PUCCH)的时频资源在时域上至少部分重叠。Wherein, the time-frequency resource for transmitting the uplink data channel (PUSCH) and the time-frequency resource for transmitting the uplink control channel (PUCCH) including HARQ at least partially overlap in the time domain.

2c.如附记1c所述的装置，其中，2c. The device as described in Supplement 1c, wherein:

上行数据信道(PUSCH)与包含HARQ的上行控制信道(PUCCH)的发送方式包括：The transmission modes of the uplink data channel (PUSCH) and the uplink control channel (PUCCH) including HARQ include:

终端设备丢掉/忽视(drop/ignore)所述HARQ传输，发送所述PUSCH；或者The terminal device drops/ignores the HARQ transmission and sends the PUSCH; or

终端设备丢掉/忽视(drop/ignore)所述PUSCH，发送包含所述HARQ的PUCCH。The terminal device drops/ignores the PUSCH and transmits the PUCCH including the HARQ.

3c.一种信息发送装置，应用于终端设备，该装置包括：3c. An information sending device applied to terminal equipment, the device comprising:

第七发送单元，其根据将HARQ复用到PUSCH是否会影响所述PUSCH对应的业务的可靠性，发送所述上行数据信道(PUSCH)或复用了上述包含HARQ的上行控制信道(PUCCH)的PUSCH，The seventh sending unit, which sends the uplink data channel (PUSCH) or the uplink control channel (PUCCH) multiplexed with HARQ according to whether multiplexing HARQ to PUSCH will affect the reliability of the service corresponding to the PUSCH PUSCH,

其中，传输所述上行数据信道(PUSCH)的时频资源与传输包含HARQ的上行 控制信道(PUCCH)的时频资源在时域上至少部分重叠。Wherein, the time-frequency resource for transmitting the uplink data channel (PUSCH) and the time-frequency resource for transmitting the uplink control channel (PUCCH) including HARQ at least partially overlap in the time domain.

4c.如附记3c所述的装置，其中，4c. The device as described in Supplement 3c, wherein:

上行数据信道(PUSCH)与包含HARQ的上行控制信道(PUCCH)的发送方式包括：The transmission modes of the uplink data channel (PUSCH) and the uplink control channel (PUCCH) including HARQ include:

终端设备将所述HARQ复用到所述PUSCH；或者The terminal device multiplexes the HARQ to the PUSCH; or

终端设备丢掉/忽视(drop/ignore)所述HARQ传输，发送所述PUSCH。The terminal device drops/ignores the HARQ transmission and sends the PUSCH.

1d.一种信息发送装置，设置于终端设备的物理层，该装置包括：1d. An information sending device, which is provided at the physical layer of a terminal device, the device comprising:

第一接收单元，其接收终端设备的媒体接入控制(MAC)层对物理层进行的第一指示以及第二指示，所述第一指示用于指示所述物理层生成第一物理上行共享信道(PUSCH)传输，所述第二指示用于指示所述物理层生成第二PUSCH传输；A first receiving unit, which receives a first instruction and a second instruction from the media access control (MAC) layer of the terminal device to the physical layer, where the first instruction is used to instruct the physical layer to generate a first physical uplink shared channel (PUSCH) transmission, the second indication is used to instruct the physical layer to generate a second PUSCH transmission;

第一发送单元，其发送所述第二PUSCH和/或所述第一PUSCH；A first sending unit, which sends the second PUSCH and/or the first PUSCH;

其中，所述第一PUSCH所在物理时频资源与所述第二PUSCH传输所在物理时频资源在时域上至少部分重叠，并且，所述第一指示早于所述第二指示。Wherein, the physical time-frequency resource where the first PUSCH is located and the physical time-frequency resource where the second PUSCH is transmitted at least partially overlap in the time domain, and the first indication is earlier than the second indication.

2d.如附记1d所述的装置，其中，2d. The device as described in Appendix 1d, wherein:

所述第一发送单元根据所述终端设备的处理能力发送所述第一PUSCH和所述第二PUSCH。The first sending unit sends the first PUSCH and the second PUSCH according to the processing capability of the terminal device.

3d.如附记1d所述的装置，其中，3d. The device as described in Supplement 1d, wherein,

所述第一发送单元终止正在生成所述第一PUSCH传输的过程(即终止尚未发送的PUSCH)，或终止正在发送所述第一PUSCH传输的过程，并处理所述第二指示。The first sending unit terminates the process of generating the first PUSCH transmission (that is, terminates the PUSCH that has not been sent), or terminates the process of sending the first PUSCH transmission, and processes the second instruction.

4d.如附记1d所述的装置，其中，4d. The device as described in Supplement 1d, wherein:

所述第一发送单元还根据所述第二指示生成所述第二PUSCH传输，并发送所述第二PUSCH传输。The first sending unit also generates the second PUSCH transmission according to the second instruction, and sends the second PUSCH transmission.

5d.如附记4d所述的装置，其中，5d. The device as described in Appendix 4d, wherein,

所述第一发送单元还通知MAC层：物理层发送了第二PUSCH传输，并丢掉/忽视(drop/ignore)了第一PUSCH传输。The first sending unit also informs the MAC layer that the physical layer sent the second PUSCH transmission and dropped/ignore the first PUSCH transmission.

1e.一种信息发送装置，设置于终端设备的MAC层，该装置包括：1e. An information sending device, which is set at the MAC layer of a terminal device, the device comprising:

第二发送单元，其对物理层进行的第一指示，所述第一指示用于指示所述物理层生成第一PUSCH传输；A second sending unit, a first instruction given to the physical layer, where the first instruction is used to instruct the physical layer to generate a first PUSCH transmission;

所述第二发送单元还对物理层进行或不进行第二指示，所述第二指示用于指示所 述物理层生成第二PUSCH的传输，The second sending unit also performs a second instruction to the physical layer or not, the second instruction is used to instruct the physical layer to generate a second PUSCH transmission,

其中，所述第一PUSCH所在物理时频资源与所述第二PUSCH所在物理时频资源在时域上至少部分重叠，并且，所述第一指示早于所述第二指示。Wherein, the physical time-frequency resource where the first PUSCH is located and the physical time-frequency resource where the second PUSCH is located at least partially overlap in the time domain, and the first indication is earlier than the second indication.

2e.如附记1e所述的装置，其中，2e. The device as described in Supplement 1e, wherein:

所述第二发送单元根据所述终端设备的处理能力进行所述第二指示。The second sending unit performs the second instruction according to the processing capability of the terminal device.

Claims (20)

Translated fromChinese

一种信息发送装置，设置于终端设备的物理层，该装置包括：An information sending device is provided at the physical layer of a terminal device, and the device includes:第一接收单元，其接收终端设备的媒体接入控制(MAC)层对物理层进行的第一指示以及第二指示，所述第一指示用于指示所述物理层生成第一物理上行共享信道(PUSCH)传输，所述第二指示用于指示所述物理层生成第二PUSCH传输；A first receiving unit, which receives a first instruction and a second instruction from the media access control (MAC) layer of the terminal device to the physical layer, where the first instruction is used to instruct the physical layer to generate a first physical uplink shared channel (PUSCH) transmission, the second indication is used to instruct the physical layer to generate a second PUSCH transmission;第一发送单元，其发送所述第二PUSCH和/或所述第一PUSCH；A first sending unit, which sends the second PUSCH and/or the first PUSCH;其中，所述第一PUSCH所在物理时频资源与所述第二PUSCH传输所在物理时频资源在时域上至少部分重叠，并且，所述第一指示早于所述第二指示。Wherein, the physical time-frequency resource where the first PUSCH is located and the physical time-frequency resource where the second PUSCH is transmitted at least partially overlap in the time domain, and the first indication is earlier than the second indication.如权利要求1所述的装置，其中，The device of claim 1, wherein:所述第一发送单元根据所述终端设备的第一处理时间(T_proc,I)与第二处理时间(T_proc,II)，判断是否终止生成所述第一PUSCH传输或者是否终止因来不及取消尚未发送的PUSCH传输而开始发送的第一PUSCH传输，According to the first processing time (T_{proc, I} ) and the second processing time (T_{proc, II} ) of the terminal device, the first sending unit determines whether to terminate generating the first PUSCH transmission or whether the termination is too late to cancel PUSCH transmission not yet sent but the first PUSCH transmission started,其中，所述第一发送单元正在生成所述第一PUSCH传输，所述第一处理时间是所述终端设备终止生成所述第一PUSCH传输所需的最短时间，所述第二处理时间是所述终端设备终止正在发送所述PUSCH传输所需的最短时间。Wherein, the first sending unit is generating the first PUSCH transmission, the first processing time is the shortest time required for the terminal device to terminate generating the first PUSCH transmission, and the second processing time is The shortest time required for the terminal device to stop sending the PUSCH transmission.如权利要求2所述的装置，其中，The device of claim 2, wherein:所述第一发送单元终止生成所述第一PUSCH传输的过程；Terminating the process of generating the first PUSCH transmission by the first sending unit;其中，从接收所述第二指示的时刻起到所述第一PUSCH传输开始发送的时刻为止的时间长度大于或等于所述第一处理时间。Wherein, the length of time from the moment when the second instruction is received to the moment when the first PUSCH transmission starts to be sent is greater than or equal to the first processing time.如权利要求2所述的装置，其中，The device of claim 2, wherein:所述第一发送单元终止因来不及取消尚未发送的PUSCH传输而开始发送的第一PUSCH传输，The first sending unit terminates the first PUSCH transmission that started sending because it is too late to cancel the PUSCH transmission that has not yet been sent,其中，从接收所述第二指示的时刻起到所述第一PUSCH传输开始发送时刻为止的时间长度小于所述第一处理时间，并且，从所述第一PUSCH传输开始发送的时刻起到所述第二PUSCH传输开始发送的时刻为止的时间长度大于或等于所述第二处理时间。Wherein, the length of time from the moment when the second instruction is received to the moment when the first PUSCH transmission starts to be sent is less than the first processing time, and from the moment when the first PUSCH transmission starts to send The length of time from the moment when the second PUSCH transmission starts to be sent is greater than or equal to the second processing time.如权利要求3所述的装置，其中，The device of claim 3, wherein:所述第一发送单元还根据所述第二指示生成所述第二PUSCH传输，并发送所述 第二PUSCH传输。The first sending unit also generates the second PUSCH transmission according to the second instruction, and sends the second PUSCH transmission.如权利要求5所述的装置，其中，The device of claim 5, wherein:所述第一发送单元还通知MAC层：物理层发送了第二PUSCH传输，并丢掉/忽视(drop/ignore)了第一PUSCH传输。The first sending unit also informs the MAC layer that the physical layer sent the second PUSCH transmission and dropped/ignore the first PUSCH transmission.如权利要求1所述的装置，其中，The device of claim 1, wherein:所述第一发送单元根据所述终端设备的第二处理时间(T_proc,II)，判断是否终止正在发送所述第一PUSCH传输的过程，The first sending unit determines whether to terminate the process of sending the first PUSCH transmission according to the second processing time (T_{proc, II} ) of the terminal device,其中，所述第一发送单元正在发送第一PUSCH传输，Wherein, the first sending unit is sending the first PUSCH transmission,所述第二处理时间是所述终端设备终止正在发送第一PUSCH传输的过程所需的最短时间。The second processing time is the shortest time required for the terminal device to terminate the process of sending the first PUSCH transmission.如权利要求7所述的装置，其中，The device of claim 7, wherein:所述第一发送单元终止所述正在发送所述第一PUSCH传输的过程；The first sending unit terminates the process of sending the first PUSCH transmission;其中，从接收所述第二指示的时刻起到所述开始发送所述第二PUSCH传输为止的时间长度大于或等于所述第二处理时间。Wherein, the length of time from the moment of receiving the second indication to the beginning of sending the second PUSCH transmission is greater than or equal to the second processing time.如权利要求8所述的装置，其中，The device of claim 8, wherein:所述第一发送单元还根据所述第二指示生成所述第二PUSCH传输，并发送所述第二PUSCH传输。The first sending unit also generates the second PUSCH transmission according to the second instruction, and sends the second PUSCH transmission.如权利要求1所述的装置，其中，The device of claim 1, wherein:所述第一发送单元发送所述第一PUSCH传输；Sending the first PUSCH transmission by the first sending unit;其中，所述第一发送单元在生成第一PUSCH传输的过程中需要背负(piggyback)上行控制信息(UCI)。Wherein, the first sending unit needs to piggyback uplink control information (UCI) in the process of generating the first PUSCH transmission.如权利要求10所述的装置，其中，所述装置还包括：The device of claim 10, wherein the device further comprises:所述第一发送单元通知MAC层：物理层发送了第一PUSCH传输，并丢掉/忽视(drop/ignore)了第二PUSCH传输。The first sending unit notifies the MAC layer that the physical layer has sent the first PUSCH transmission and dropped/ignore the second PUSCH transmission.一种信息发送装置，设置于终端设备的MAC层，该装置包括：An information sending device is set at the MAC layer of a terminal device, and the device includes:第二发送单元，其对物理层进行的第一指示，所述第一指示用于指示所述物理层生成第一PUSCH传输；A second sending unit, a first instruction given to the physical layer, where the first instruction is used to instruct the physical layer to generate a first PUSCH transmission;所述第二发送单元对物理层进行或不进行第二指示，所述第二指示用于指示所述物理层生成第二PUSCH的传输，Performing or not performing a second instruction to the physical layer by the second sending unit, where the second instruction is used to instruct the physical layer to generate a second PUSCH transmission,其中，所述第一PUSCH所在物理时频资源与所述第二PUSCH所在物理时频资源在时域上至少部分重叠，并且，所述第一指示早于所述第二指示。Wherein, the physical time-frequency resource where the first PUSCH is located and the physical time-frequency resource where the second PUSCH is located at least partially overlap in the time domain, and the first indication is earlier than the second indication.如权利要求12所述的装置，其中，所述The device of claim 12, wherein said所述第二发送单元根据所述终端设备的第一处理时间(T_proc,I)与第二处理时间(T_proc,II)，判断是否对物理层进行所述第二指示，The second sending unit determines whether to perform the second instruction to the physical layer according to the first processing time (T_{proc, I} ) and the second processing time (T_{proc, II} ) of the terminal device,其中，所述物理层正在生成所述第一PUSCH，Wherein, the physical layer is generating the first PUSCH,所述的第一处理时间是所述终端设备终止生成所述第一PUSCH所需的最短时间；所述第二处理时间是所述终端设备终止正在发送第一PUSCH的过程所需的最短时间。The first processing time is the shortest time required for the terminal device to terminate the generation of the first PUSCH; the second processing time is the shortest time required for the terminal device to terminate the process of transmitting the first PUSCH.如权利要求13所述的装置，其中，The device of claim 13, wherein:所述第二发送单元进行所述第二指示，The second sending unit performs the second instruction,其中，从进行所述第二指示的时刻起到所述第一PUSCH开始发送的时刻为止的时间长度大于或等于所述第一处理时间。Wherein, the length of time from the moment when the second instruction is performed to the moment when the first PUSCH starts to be transmitted is greater than or equal to the first processing time.如权利要求13所述的装置，其中，The device of claim 13, wherein:所述第二发送单元进行所述第二指示，The second sending unit performs the second instruction,其中，从进行所述第二指示的时刻起到所述第一PUSCH开始发送的时刻为止的时间长度小于所述第一处理时间，并且从所述第一PUSCH开始发送的时刻起到所述第二PUSCH开始发送的时刻为止的时间长度大于或等于所述第二处理时间。Wherein, the length of time from the moment when the second instruction is given to the moment when the first PUSCH starts to be transmitted is less than the first processing time, and from the moment when the first PUSCH starts to transmit to the first The length of time from the moment when the second PUSCH starts to be sent is greater than or equal to the second processing time.如权利要求13所述的装置，其中，The device of claim 13, wherein:所述第二发送单元放弃进行所述第二指示，The second sending unit abandons performing the second instruction,其中，从进行所述第二指示的时刻起到所述第一PUSCH开始发送的时刻为止的时间长度小于所述第一处理时间，且从所述第一PUSCH开始发送的时刻起到所述第二PUSCH开始发送的时刻为止的时间长度小于所述第二处理时间。Wherein, the length of time from the moment when the second instruction is given to the moment when the first PUSCH starts to be transmitted is less than the first processing time, and from the moment when the first PUSCH starts to transmit to the first The length of time from the moment when the second PUSCH starts to be transmitted is less than the second processing time.如权利要求12所述的装置，其中，The device of claim 12, wherein:所述第二发送单元根据所述终端设备的第二处理时间(T_proc,II)，判断是否对物理层进行所述第二指示，The second sending unit determines whether to perform the second instruction on the physical layer according to the second processing time (T_{proc, II} ) of the terminal device,其中，所述物理层正在发送所述第一PUSCH，Wherein, the physical layer is sending the first PUSCH,所述的第二处理时间是所述终端设备终止正在发送第一PUSCH的过程所需的最短时间。The second processing time is the shortest time required for the terminal device to terminate the process of transmitting the first PUSCH.如权利要求17所述的装置，其中，The device of claim 17, wherein:所述第二发送单元进行所述第二指示；Performing the second instruction by the second sending unit;其中，从进行所述第二指示的时刻起到所述物理层开始发送所述第二PUSCH为止的时间长度大于或等于所述第二处理时间。Wherein, the length of time from the moment when the second instruction is performed to when the physical layer starts to send the second PUSCH is greater than or equal to the second processing time.如权利要求17所述的装置，其中，The device of claim 17, wherein:所述第二发送单元放弃进行所述第二信令，The second sending unit abandons performing the second signaling,其中，从进行所述第二指示的时刻起到所述物理层开始发送所述第二PUSCH为止的时间长度小于所述第二处理时间。Wherein, the length of time from the moment when the second instruction is performed to when the physical layer starts to send the second PUSCH is less than the second processing time.一种通信系统，所述通信系统具有网络设备和终端设备，A communication system, the communication system having network equipment and terminal equipment,其中，所述终端设备具有如权利要求1-19中任一项所述的信息发送装置。Wherein, the terminal device has the information sending device according to any one of claims 1-19.

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