WO2018148947A1

Movatterモバイル変換

Info

Publication number: WO2018148947A1
Application number: PCT/CN2017/073993
Authority: WO
Inventors: 余政; 南方; 费永强; 罗超; 程型清
Original assignee: Huawei Technologies Co Ltd
Current assignee: Huawei Technologies Co Ltd
Priority date: 2017-02-17
Filing date: 2017-02-17
Publication date: 2018-08-23
Anticipated expiration: 2019-08-17
Also published as: CN110169173A; CN110169173B

Abstract

Disclosed in embodiments of the present application is a resource allocation method. The method comprises: a terminal receiving resource block allocation information sent by a network apparatus, wherein the resource block allocation information is used to indicate a resource allocated to the terminal by the network apparatus, the resource allocated to the terminal by the network apparatus is selected by the network apparatus from selectable resources, and the selectable resources are remaining resources after unselectable resources are deleted from all resources; the terminal determining, according to the resource block allocation information, a first resource allocated by the network apparatus; and the terminal transmitting or receiving information on the first resource. The present application has advantages of meeting resource allocation requirements and effectively utilizing bits of resource block allocation information.

Description

Translated fromChinese

一种资源分配方法、装置Resource allocation method and device

技术领域Technical field

本申请涉及通信领域，尤其涉及一种资源分配方法及装置。The present application relates to the field of communications, and in particular, to a resource allocation method and apparatus.

背景技术Background technique

机器类型通信(Machine Type Communication，MTC)，是指通过部署具有一定感知、计算、执行和通信能力的各种设备，获取物理世界的信息，通过网络实现信息传输、协同和处理，从而实现人与物、物与物的互联。目前长期演进(Long Term Evolution，LTE)的Rel(release)-12、Rel-13、Rel-14版本能够支持MTC业务。Machine Type Communication (MTC) refers to the acquisition of information about the physical world by deploying various devices with certain sensing, computing, execution, and communication capabilities, and realizes information transmission, coordination, and processing through the network. The interconnection of things, things and things. Currently, Long Term Evolution (LTE) versions of Rel (release)-12, Rel-13, and Rel-14 can support MTC services.

LTE Rel-13中，能够支持MTC业务的终端(User Equipment，UE)是带宽降低低复杂度UE(Bandwidth-reduced Low-complexity UE，BL UE)或覆盖增强的UE(Coverage Enhancement UE，CE UE)，其最大可支持的发送及接收带宽是1.4MHz，或者一个窄带(Narrowband，NB)。一个窄带在频率上包含连续的6个物理资源块(Physical resource block，PRB)的频率宽度。为了使得MTC能够支持更高的数据速率，LTE Rel-14对MTC进行进一步增强，称进一步增强的机器类型通信(Further Enhanced Machine-Type Communication，FeMTC)。在LTE Rel-14，将进行MTC业务的UE能够支持的用于传输业务数据的带宽进行了扩展，即支持5MHz的物理上行共享信道(Physical Uplink Shared channel，PUSCH)带宽，支持5MHz或者20MHz的物理下行共享信道(Physical Downlink Shared channel，PDSCH)带宽。In the LTE Rel-13, the user equipment (UE) capable of supporting the MTC service is a Bandwidth-reduced Low-complexity UE (BL UE) or a Coverage Enhancement UE (CE UE). The maximum supported transmit and receive bandwidth is 1.4MHz, or a narrowband (NB). A narrowband contains a frequency bandwidth of six consecutive physical resource blocks (PRBs) in frequency. In order to enable the MTC to support higher data rates, LTE Rel-14 further enhances the MTC, referred to as Further Enhanced Machine-Type Communication (FeMTC). In LTE Rel-14, the bandwidth for transmitting the service data that the UE performing the MTC service can support is extended, that is, the physical uplink shared channel (PUSCH) bandwidth of 5 MHz is supported, and the physical medium of 5 MHz or 20 MHz is supported. The downlink shared channel (PDSCH) bandwidth.

现有LTE Rel-13在为BL UE或者CE UE进行资源分配时，只能指示系统带宽中具体的某一个窄带，及指示该窄带内的PRB分配。即分配资源的频率宽度不超过一个窄带，或者不超过1.4MHz。然而LTE Rel-14的MTC业务支持更大PUSCH和PDSCH带宽，需求分配资源的频率宽度可达5MHz或者20MHz，此时频率宽度超过一个窄带，现有的资源分配方案无法满足资源分配的需求。When the LTE Rel-13 allocates resources for the BL UE or the CE UE, it can only indicate a specific narrowband in the system bandwidth and indicate the PRB allocation in the narrowband. That is, the frequency bandwidth of the allocated resources does not exceed one narrow band, or does not exceed 1.4 MHz. However, the MTC service of LTE Rel-14 supports a larger PUSCH and PDSCH bandwidth, and the frequency bandwidth of the demand allocation resource can reach 5 MHz or 20 MHz. At this time, the frequency width exceeds a narrow band, and the existing resource allocation scheme cannot meet the resource allocation requirement.

发明内容Summary of the invention

本申请实施例所要解决的技术问题在于，提供一种资源分配方法及装置，可解决现有技术中无法满足资源分配需求的问题。The technical problem to be solved by the embodiments of the present application is to provide a resource allocation method and device, which can solve the problem that the resource allocation requirement cannot be met in the prior art.

第一方面，提供一种资源分配方法，所述方法包括如下步骤：终端接收网络设备发送的资源块分配信息，所述资源块分配信息用于指示所述网络设备为所述终端分配的资源；所述网络设备为所述终端分配的资源由所述网络设备从可选资源中选取，所述可选资源为从所有资源中删除禁选资源后的资源；终端根据所述资源块分配信息，确定所述网络设备分配的第一资源；终端在所述第一资源发送或接收信息。In a first aspect, a resource allocation method is provided, the method includes the following steps: a terminal receives resource block allocation information sent by a network device, where the resource block allocation information is used to indicate a resource allocated by the network device to the terminal; The resource allocated by the network device to the terminal is selected by the network device from an optional resource, where the optional resource is a resource after deleting the forbidden resource from all resources; the terminal allocates information according to the resource block. Determining a first resource allocated by the network device; the terminal transmitting or receiving information at the first resource.

第一方面提供的技术方案将所有资源分配成可选资源和禁选资源，网络设备只能在可选资源内选择第一资源分配给终端，以使得终端在第一资源内发送或接收消息，此技术方案能够实现5MHz、20MHz资源的分配，满足了资源分配需求，并且有效利用了资源块分配信息的比特。The technical solution provided by the first aspect allocates all the resources into the optional resource and the forbidden resource, and the network device can only select the first resource to be allocated to the terminal in the optional resource, so that the terminal sends or receives the message in the first resource. This technical solution can realize the allocation of 5MHz and 20MHz resources, meets the resource allocation requirements, and effectively utilizes the bits of the resource block allocation information.

在第一种可选方案中，所述资源块分配信息用于指示所述网络设备为所述终端分配的资源包括：所述资源块分配信息用于指示所述网络设备分配的起始资源单位以及连续资源单位的个数，所述资源单位为1/2窄带、窄带、物理资源块PRB中的一种。In a first implementation, the resource block allocation information is used to indicate that the network device allocates resources for the terminal, where the resource block allocation information is used to indicate a starting resource unit allocated by the network device. And the number of consecutive resource units, the resource unit being one of a 1/2 narrowband, a narrowband, and a physical resource block PRB.

在第二种可选方案中，所述资源单位为1/2窄带，所述禁选资源为从第一起始资源单位开始的连续P个资源单位；In a second alternative, the resource unit is a 1/2 narrowband, and the forbidden resource is a consecutive P resource units starting from the first starting resource unit;

其中，所述第一起始资源单位包括每个窄带的前1/2个窄带且所述P等于1；The first starting resource unit includes a first 1/2 narrow band of each narrow band and the P is equal to 1;

或者，所述第一起始资源单位包括每个窄带的后1/2个窄带且所述P等于1；Or the first starting resource unit includes the last 1/2 narrow band of each narrow band and the P is equal to 1;

或者，所述第一起始资源单位包括每个窄带的后1/2个窄带，所述P等于2，以及所述第一起始资源单位还包括窄带索引是N/2-1的窄带的前1/2个窄带，所述P等于4；其中N表示系统带宽中包含的窄带的个数，N为偶数。Or the first starting resource unit includes a second 1/2 narrowband of each narrowband, the P is equal to 2, and the first starting resource unit further includes a first one of a narrowband with a narrowband index of N/2-1. /2 narrow bands, the P is equal to 4; where N represents the number of narrow bands included in the system bandwidth, and N is an even number.

在第三种可选方案中，所述网络设备和所述终端通信的系统带宽包括：1.4MHz、3MHz、5MHz、10MHz、20MHz中的一种或多种。In a third alternative, the network bandwidth in which the network device communicates with the terminal includes one or more of 1.4 MHz, 3 MHz, 5 MHz, 10 MHz, and 20 MHz.

在第四种可选方案中，所述资源单位为窄带，所述禁选资源为从第一起始资源单位开始的连续P个资源单位；In a fourth alternative, the resource unit is a narrowband, and the forbidden resource is a consecutive P resource units starting from the first starting resource unit;

其中，所述第一起始资源单位包括窄带索引是偶数的窄带且所述P等于1；The first starting resource unit includes a narrowband with an even-numbered narrowband index and the P is equal to 1;

或者，所述第一起始资源单位包括窄带索引是奇数的窄带且所述P等于1；Or the first starting resource unit includes a narrowband whose narrowband index is an odd number and the P is equal to 1;

或者，所述第一起始资源单位包括系统带宽中的所有窄带且所述P等于1。Alternatively, the first starting resource unit includes all narrowbands in the system bandwidth and the P is equal to one.

在第五种可选方案中，所述网络设备和所述终端通信的系统带宽包括：3MHz、5MHz、10MHz、20MHz中的一种或多种。In a fifth alternative, the network bandwidth in which the network device communicates with the terminal includes one or more of 3 MHz, 5 MHz, 10 MHz, and 20 MHz.

在第六种可选方案中，所述资源单位为PRB，所述禁选资源为从第一起始资源单位开始的连续P个资源单位；In a sixth alternative, the resource unit is a PRB, and the forbidden resource is a consecutive P resource units starting from the first starting resource unit;

其中，所述第一起始资源单位包括系统带宽中的所有PRB并且P大于24，以及所述第一起始资源单位还包括系统带宽内的PRB索引是奇数或者偶数的PRB并且P等于1，以及所述第一起始资源单位还包括系统带宽内的PRB索引是X的PRB并且P等于2；其中，X取[0，99]中的26个不同值，所述网络设备和所述终端通信的系统带宽为20MHz；The first starting resource unit includes all PRBs in the system bandwidth and P is greater than 24, and the first starting resource unit further includes an PRB index in the system bandwidth that is an odd or even PRB and P is equal to 1, and The first starting resource unit further includes a PRB index in the system bandwidth that is a PRB of X and P is equal to 2; wherein X takes 26 different values in [0, 99], and the network device and the terminal communicate system The bandwidth is 20MHz;

或者，当所述网络设备和所述终端通信的系统带宽为20MHz时，所述第一起始资源单位包括系统带宽中的所有PRB并且P大于23；当所述网络设备和所述终端通信的系统带宽为10MHz或者15MHz时，所述第一起始资源单位包括系统带宽中的所有PRB并且P大于24；Or, when the system bandwidth of the network device and the terminal communicates is 20 MHz, the first starting resource unit includes all PRBs in the system bandwidth and P is greater than 23; when the network device communicates with the terminal When the bandwidth is 10 MHz or 15 MHz, the first starting resource unit includes all PRBs in the system bandwidth and P is greater than 24;

或者，所述第一起始资源单位包括系统带宽中的所有PRB并且P大于25，以及所述第一起始资源单位还包括系统带宽中的所有PRB并且P等于1，以及所述第一起始资源单位还包括系统带宽内的PRB索引是Y的PRB并且P等于2；其中，Y取[0，99]内的52个不同值，所述网络设备和所述终端通信的系统带宽为20MHz；Or the first starting resource unit includes all PRBs in the system bandwidth and P is greater than 25, and the first starting resource unit further includes all PRBs in the system bandwidth and P is equal to 1, and the first starting resource unit The PRB index in the system bandwidth is a PRB of Y and P is equal to 2; wherein Y takes 52 different values in [0, 99], and the system bandwidth of the network device and the terminal communicates is 20 MHz;

或者，当所述网络设备和所述终端通信的系统带宽为20MHz时，所述第一起始资源单位包括系统带宽中的所有PRB并且P大于23；当系统带宽是10MHz或者15MHz时，所述第一起始资源单位包括系统带宽中的所有PRB并且P大于25。Or, when the system bandwidth of the network device and the terminal communicates is 20 MHz, the first starting resource unit includes all PRBs in the system bandwidth and P is greater than 23; when the system bandwidth is 10 MHz or 15 MHz, the first A starting resource unit includes all PRBs in the system bandwidth and P is greater than 25.

在第七种可选方案中，所述资源块分配信息用于指示所述网络设备为所述终端分配分配的资源包括：所述资源块分配信息用于指示分配的窄带，以及在所述分配的窄带内分配的PRB；存在所述资源块分配信息的比特的状态所指示的分配的窄带个数大于1，在所述分配的窄带中的每个窄带内分配的PRB都相同。In a seventh implementation, the resource block allocation information is used to indicate that the network device allocates allocated resources to the terminal, where the resource block allocation information is used to indicate an allocated narrowband, and in the allocating Narrowband assignmentPRB; the number of allocated narrowbands indicated by the state of the bits of the resource block allocation information is greater than 1, and the PRBs allocated in each narrowband of the allocated narrowbands are the same.

在第八种可选方案中，所述资源块分配信息用于指示分配的窄带包括：In an eighth alternative, the resource block allocation information is used to indicate that the allocated narrowband includes:

所述资源块分配信息用于指示起始窄带索引，以及所述起始窄带之后的连续3个窄带中的每个窄带是否分配资源；The resource block allocation information is used to indicate a starting narrowband index, and whether each narrowband of the consecutive three narrowbands after the initial narrowband allocates resources;

或者，所述资源块分配信息用于指示起始窄带索引，以及分配窄带的个数；Or the resource block allocation information is used to indicate a starting narrowband index, and the number of narrowband bands is allocated;

或者，所述资源块分配信息用于指示起始窄带索引以及从所述起始窄带开始的连续4个窄带中分配的窄带起点和个数；Or the resource block allocation information is used to indicate a starting narrowband index and a narrowband starting point and a number allocated in consecutive four narrow bands starting from the starting narrowband;

或者，当所述网络设备和所述终端通信的系统带宽为5MHz或者3MHz时，所述资源块分配信息用于指示系统带宽内的每个窄带是否分配；Or, when the system bandwidth of the network device and the terminal communicates is 5 MHz or 3 MHz, the resource block allocation information is used to indicate whether each narrowband in the system bandwidth is allocated;

或者，当所述网络设备和所述终端通信的系统带宽为5MHz或者3MHz时，所述资源块分配信息用于指示分配窄带的个数；Or, when the system bandwidth of the network device and the terminal communicates is 5 MHz or 3 MHz, the resource block allocation information is used to indicate the number of allocated narrow bands;

或者，当所述网络设备和所述终端通信的系统带宽为5MHz或者3MHz时，所述资源块分配信息用于指示分配的窄带起点和个数。Alternatively, when the system bandwidth of the network device and the terminal communicates is 5 MHz or 3 MHz, the resource block allocation information is used to indicate the allocated narrowband starting point and the number.

在第九种可选方案中，所述资源块分配信息用于指示在所述分配的窄带内分配的PRB包括：In a ninth alternative, the resource block allocation information is used to indicate that the PRB allocated in the allocated narrowband includes:

所述资源块分配信息用于指示在窄带内分配的起始PRB和PRB个数；The resource block allocation information is used to indicate the number of initial PRBs and PRBs allocated in a narrow band;

或者，当所述资源块分配信息所指示的分配的窄带个数M为1时，所述资源块分配信息用于指示在窄带内分配的起始PRB和PRB个数；当所述资源块分配信息所指示的分配的窄带个数M大于1时，所述资源块分配信息用于指示在所分配的窄带中索引最大或者最小的窄带内分配的PRB的个数，其余M-1个窄带内的PRB全部分配。Or, when the allocated number of narrowbands M indicated by the resource block allocation information is 1, the resource block allocation information is used to indicate the number of starting PRBs and PRBs allocated in the narrowband; when the resource blocks are allocated When the number of allocated narrowbands M indicated by the information is greater than 1, the resource block allocation information is used to indicate the number of PRBs allocated in the narrowest band with the largest or smallest index in the allocated narrowband, and the remaining M-1 narrowbands The PRBs are all allocated.

在第九种可选方案中，所述禁选资源包括以下第一禁选资源、第二禁选资源、第三禁选资源、第四禁选资源、第五禁选资源、第六禁选资源中的一种或多种：In a ninth alternative, the forbidden resource includes the following first forbidden resource, second forbidden resource, third forbidden resource, fourth forbidden resource, fifth forbidden resource, and sixth forbidden election One or more of the resources:

第一禁选资源包括所述网络设备和所述终端通信的系统带宽大于等于5MHz时，起始窄带索引是所有窄带索引的最大值、第二大值或第三大值中的一个；When the first forbidden resource includes a system bandwidth of the network device and the terminal communicating, which is greater than or equal to 5 MHz, the initial narrowband index is one of a maximum value, a second largest value, or a third largest value of all narrowband indexes;

第二禁选资源包括窄带内分配的PRB个数是1；The second forbidden resource includes the number of PRBs allocated in the narrowband is 1;

第三禁选资源包括窄带内分配的PRB个数是1和2；The third forbidden resource includes the number of PRBs allocated in the narrowband is 1 and 2;

第四禁选资源包括窄带内分配的PRB个数是1和2，以及窄带内分配的起始PRB是索引S的PRB、PRB个数是3；其中S是窄带内的PRB索引，S取[0，3]内的2个不同值；The fourth forbidden resource includes the number of PRBs allocated in the narrowband is 1 and 2, and the initial PRB allocated in the narrowband is the PRB of the index S, and the number of PRBs is 3; where S is the PRB index in the narrowband, and S is taken [ 2 different values within 0,3];

第五禁选资源包括所述网络设备和所述终端通信的系统带宽大于5MHz时，起始窄带索引是小于等于N-4的自然数，并且窄带内分配的PRB个数是1和2；以及所述起始窄带索引是N-4，窄带内分配的起始PRB是索引S的PRB、PRB个数是3；以及起始窄带索引是N-3、N-2、N-1中的一个；其中S是窄带内的PRB索引，S取[0，3]内的2个不同值，N是系统带宽中包含的窄带的个数；When the fifth forbidden resource includes a system bandwidth of the network device and the terminal communicating greater than 5 MHz, the initial narrowband index is a natural number less than or equal to N-4, and the number of PRBs allocated in the narrowband is 1 and 2; The initial narrowband index is N-4, the initial PRB allocated in the narrowband is the PRB of the index S, the number of PRBs is 3; and the initial narrowband index is one of N-3, N-2, N-1; Where S is the PRB index in the narrowband, S takes two different values in [0, 3], and N is the number of narrowbands included in the system bandwidth;

第六禁选资源包括所述网络设备和所述终端通信的系统带宽大于5MHz时，分配的窄带个数是2并且起始窄带索引是N-1；以及分配的窄带个数是3并且起始窄带索引是N-1、N-2；以及分配的窄带个数是4并且起始窄带索引是N-1、N-2、N-3。The sixth forbidden resource includes a system bandwidth of the network device and the terminal communicating greater than 5 MHz, the number of narrowbands allocated is 2 and the initial narrowband index is N-1; and the number of allocated narrowbands is 3 and the start The narrowband index is N-1, N-2; and the number of allocated narrowbands is 4 and the starting narrowband indices are N-1, N-2, N-3.

第二方面，提供一种资源分配方法，所述方法包括如下步骤：网络设备向终端发送资源块分配信息，以使所述终端根据所述资源块分配信息确定所述网络设备分配的第一资源；所述资源块分配信息用于指示所述网络设备为所述终端分配的资源；所述网络设备为所述终端分配的资源由所述网络设备从可选资源中选取，所述可选资源为从所有资源中删除禁选资源后的资源；网络设备在所述第一资源向所述终端发送信息或接收所述终端发送的信息。The second aspect provides a resource allocation method, where the method includes the following steps: the network device sends resource block allocation information to the terminal, so that the terminal determines, according to the resource block allocation information, the first resource allocated by the network device. The resource block allocation information is used to indicate the resource allocated by the network device to the terminal; the resource allocated by the network device to the terminal is selected by the network device from an optional resource, and the optional resource is used. A resource after the banned resource is deleted from all resources; the network device sends information to the terminal or receives information sent by the terminal at the first resource.

在第二方面提供的技术方案支持了第一方面技术方案的实现。The technical solution provided in the second aspect supports the implementation of the technical solution of the first aspect.

在第二方面的第一种可选方案中，所述资源块分配信息包括：所述网络设备分配的起始资源单位以及连续资源单位的个数，所述资源单位为1/2窄带、窄带、物理资源块PRB中的一种。In a first alternative of the second aspect, the resource block allocation information includes: a starting resource unit allocated by the network device, and a number of consecutive resource units, where the resource unit is 1/2 narrowband and narrowband One of the physical resource blocks PRB.

在第二方面的第二种可选方案中，所述资源单位为1/2窄带，In a second alternative of the second aspect, the resource unit is 1/2 narrow band,

所述禁选资源为从第一起始资源单位开始的连续P个资源单位；The forbidden resource is a continuous P resource unit starting from a first starting resource unit;

在第二方面的第三种可选方案中，所述网络设备和所述终端通信的系统带宽包括：1.4MHz、3MHz、5MHz、10MHz、20MHz中的一种或多种。In a third alternative of the second aspect, the network bandwidth in which the network device communicates with the terminal includes one or more of 1.4 MHz, 3 MHz, 5 MHz, 10 MHz, and 20 MHz.

在第二方面的第四种可选方案中，所述资源单位为窄带，In a fourth alternative of the second aspect, the resource unit is a narrow band,

在第二方面的第五种可选方案中，所述网络设备和所述终端通信的系统带宽包括：3MHz、5MHz、10MHz、20MHz中的一种或多种。In a fifth alternative of the second aspect, the system bandwidth that the network device communicates with the terminal includes: one or more of 3 MHz, 5 MHz, 10 MHz, and 20 MHz.

在第二方面的第六种可选方案中，所述资源单位为PRB，In a sixth alternative of the second aspect, the resource unit is a PRB,

或者，所述第一起始资源单位包括系统带宽中的所有PRB并且P大于25，以及所述第一起始资源单位还包括系统带宽中的所有PRB并且P等于1，以及所述第一起始资源单位还包括系统带宽内的PRB索引是Y的PRB并且P等于2；其中，Y取[0，99]内的52个不同值，所述网络设备和所述终端通信的系统带宽为20MHz；Or the first starting resource unit includes all PRBs in the system bandwidth and P is greater than 25, and the first starting resource unit further includes all PRBs in the system bandwidth and P is equal to 1, and the first starting resource unit Also includesThe PRB index in the system bandwidth is the PRB of Y and P is equal to 2; wherein, Y takes 52 different values in [0, 99], and the system bandwidth of the network device and the terminal communicates is 20 MHz;

在第二方面的第六种可选方案中，所述资源块分配信息用于指示所述网络设备为所述终端分配分配的资源包括：In a sixth optional aspect of the second aspect, the resource block allocation information is used to indicate that the network device allocates allocated resources to the terminal, including:

所述资源块分配信息用于指示分配的窄带，以及在所述分配的窄带内分配的PRB；The resource block allocation information is used to indicate an allocated narrowband, and a PRB allocated in the allocated narrowband;

存在所述资源块分配信息的比特的状态所指示的分配的窄带个数大于1，在所述分配的窄带中的每个窄带内分配的PRB都相同。The number of allocated narrow bands indicated by the state of the bits in which the resource block allocation information exists is greater than 1, and the PRBs allocated in each of the narrowband of the allocated narrow bands are the same.

在第二方面的第七种可选方案中，所述资源块分配信息用于指示分配的窄带包括：In a seventh alternative of the second aspect, the resource block allocation information is used to indicate that the allocated narrowband includes:

在第二方面的第八种可选方案中，所述资源块分配信息用于指示在所述分配的窄带内分配的PRB包括：In an eighth optional aspect of the second aspect, the resource block allocation information is used to indicate that the PRB allocated in the allocated narrowband includes:

在第二方面的第九种可选方案中，所述禁选资源包括以下第一禁选资源、第二禁选资源、第三禁选资源、第四禁选资源、第五禁选资源、第六禁选资源中的一种或多种：In a ninth alternative of the second aspect, the forbidden resource includes the following first forbidden resource, second forbidden resource, third forbidden resource, fourth forbidden resource, fifth forbidden resource, One or more of the sixth prohibited resources:

第三方面，提供一种终端，所述终端包括：收发单元，用于接收网络设备发送的资源块分配信息，所述资源块分配信息用于指示所述网络设备为所述终端分配的资源；所述网络设备为所述终端分配的资源由所述网络设备从可选资源中选取，所述可选资源为从所有资源中删除禁选资源后的资源；处理单元，用于根据所述资源块分配信息，确定所述网络设备分配的第一资源；所述收发单元，还用于在所述第一资源发送或接收信息。In a third aspect, a terminal is provided, where the terminal includes: a transceiver unit, configured to receive resource block allocation information sent by a network device, where the resource block allocation information is used to indicate a resource allocated by the network device to the terminal; The resource allocated by the network device to the terminal is selected by the network device from an optional resource, where the optional resource is a resource after deleting the forbidden resource from all resources; and the processing unit is configured to use the resource according to the resource The block allocation information is used to determine a first resource allocated by the network device, and the transceiver unit is further configured to send or receive information in the first resource.

在第三方面的第一种可选方案中，所述资源块分配信息用于指示所述网络设备为所述终端分配的资源包括：所述资源块分配信息用于指示所述网络设备分配的起始资源单位以及连续资源单位的个数，所述资源单位为1/2窄带、窄带、物理资源块PRB中的一种。In a first alternative of the third aspect, the resource block allocation information is used to indicate that the network device allocates resources for the terminal, where the resource block allocation information is used to indicate that the network device allocates The starting resource unit and the number of consecutive resource units, the resource unit being one of a 1/2 narrowband, a narrowband, and a physical resource block PRB.

在第三方面的第二种可选方案中，所述资源单位为1/2窄带，所述禁选资源为从第一起始资源单位开始的连续P个资源单位；In a second alternative of the third aspect, the resource unit is a 1/2 narrow band, and the forbidden resource is a consecutive P resource units starting from the first starting resource unit;

在第三方面的第三种可选方案中，所述网络设备和所述终端通信的系统带宽包括：1.4MHz、3MHz、5MHz、10MHz、20MHz中的一种或多种。In a third alternative of the third aspect, the network bandwidth in which the network device communicates with the terminal includes one or more of 1.4 MHz, 3 MHz, 5 MHz, 10 MHz, and 20 MHz.

在第三方面的第四种可选方案中，所述资源单位为窄带，所述禁选资源为从第一起始资源单位开始的连续P个资源单位；In a fourth optional aspect of the third aspect, the resource unit is a narrowband, and the forbidden resource is a consecutive P resource units starting from the first starting resource unit;

在第三方面的第五种可选方案中，所述网络设备和所述终端通信的系统带宽包括：3MHz、5MHz、10MHz、20MHz中的一种或多种。In a fifth alternative of the third aspect, the system bandwidth that the network device communicates with the terminal includes: one or more of 3 MHz, 5 MHz, 10 MHz, and 20 MHz.

在第三方面的第六种可选方案中，所述资源单位为PRB，所述禁选资源为从第一起始资源单位开始的连续P个资源单位；In a sixth optional aspect of the third aspect, the resource unit is a PRB, and the forbidden resource is a consecutive P resource units starting from a first starting resource unit;

在第三方面的第七种可选方案中，所述资源块分配信息用于指示所述网络设备为所述终端分配分配的资源包括：所述资源块分配信息用于指示分配的窄带，以及在所述分配的窄带内分配的PRB；存在所述资源块分配信息的比特的状态所指示的分配的窄带个数大于1，在所述分配的窄带中的每个窄带内分配的PRB都相同。In a seventh optional aspect of the third aspect, the resource block allocation information is used to indicate that the network device allocates allocated resources to the terminal, where the resource block allocation information is used to indicate an allocated narrowband, and a PRB allocated within the allocated narrowband; the number of allocated narrowbands indicated by the state of the bits in which the resource block allocation information exists is greater than 1, and the PRBs allocated in each narrowband of the allocated narrowband are the same .

在第三方面的第八种可选方案中，所述资源块分配信息用于指示分配的窄带包括：In an eighth alternative of the third aspect, the resource block allocation information is used to indicate that the allocated narrowband includes:

在第三方面的第九种可选方案中，所述禁选资源包括以下第一禁选资源、第二禁选资源、第三禁选资源、第四禁选资源、第五禁选资源、第六禁选资源中的一种或多种：In a ninth alternative of the third aspect, the forbidden resource includes the following first forbidden resource, second forbidden resource, third forbidden resource, fourth forbidden resource, fifth forbidden resource, One or more of the sixth prohibited resources:

第四方面，提供一种网络设备，所述网络设备包括：收发单元，用于向终端发送资源块分配信息，以使所述终端根据所述资源块分配信息确定所述网络设备分配的第一资源；所述资源块分配信息用于指示所述网络设备为所述终端分配的资源；处理单元，用于为所述终端分配的资源由所述处理单元从可选资源中选取，所述可选资源为从所有资源中删除禁选资源后的资源；所述收发单元，还用于在所述第一资源向所述终端发送信息或接收所述终端发送的信息。The fourth aspect provides a network device, where the network device includes: a transceiver unit, configured to send resource block allocation information to the terminal, so that the terminal determines, according to the resource block allocation information, the first allocated by the network device The resource block allocation information is used to indicate the resource allocated by the network device to the terminal; the processing unit, the resource allocated for the terminal is selected by the processing unit from the optional resource, where The resource is a resource after the banned resource is deleted from all the resources. The transceiver unit is further configured to send information to the terminal or receive information sent by the terminal.

在第四方面的第一种可选方案中，所述资源块分配信息包括：所述网络设备分配的起始资源单位以及连续资源单位的个数，所述资源单位为1/2窄带、窄带、物理资源块PRB中的一种。In a first alternative of the fourth aspect, the resource block allocation information includes: a starting resource unit allocated by the network device, and a number of consecutive resource units, where the resource unit is 1/2 narrowband and narrowband One of the physical resource blocks PRB.

在第四方面的第二种可选方案中，所述资源单位为1/2窄带，In a second alternative of the fourth aspect, the resource unit is 1/2 narrow band,

在第四方面的第三种可选方案中，所述网络设备和所述终端通信的系统带宽包括：1.4MHz、3MHz、5MHz、10MHz、20MHz中的一种或多种。In a third alternative of the fourth aspect, the network bandwidth in which the network device communicates with the terminal includes one or more of 1.4 MHz, 3 MHz, 5 MHz, 10 MHz, and 20 MHz.

在第四方面的第四种可选方案中，所述资源单位为窄带，In a fourth alternative of the fourth aspect, the resource unit is a narrowband,

在第四方面的第五种可选方案中，所述网络设备和所述终端通信的系统带宽包括：3MHz、5MHz、10MHz、20MHz中的一种或多种。In a fifth alternative of the fourth aspect, the network bandwidth that the network device communicates with the terminal includes: one or more of 3 MHz, 5 MHz, 10 MHz, and 20 MHz.

在第四方面的第六种可选方案中，所述资源单位为PRB，In a sixth alternative of the fourth aspect, the resource unit is a PRB,

在第四方面的第六种可选方案中，所述资源块分配信息用于指示所述网络设备为所述终端分配分配的资源包括：In a sixth optional aspect of the fourth aspect, the resource block allocation information is used to indicate that the network device allocates allocated resources to the terminal, including:

在第四方面的第七种可选方案中，所述资源块分配信息用于指示分配的窄带包括：In a seventh optional aspect of the fourth aspect, the resource block allocation information is used to indicate that the allocated narrowband includes:

在第四方面的第八种可选方案中，所述资源块分配信息用于指示在所述分配的窄带内分配的PRB包括：In an eighth optional aspect of the fourth aspect, the resource block allocation information is used to indicate that the PRB allocated in the allocated narrowband includes:

在第四方面的第九种可选方案中，所述禁选资源包括以下第一禁选资源、第二禁选资源、第三禁选资源、第四禁选资源、第五禁选资源、第六禁选资源中的一种或多种：In a ninth alternative of the fourth aspect, the forbidden resource includes the following first forbidden resource, second forbidden resource, third forbidden resource, fourth forbidden resource, fifth forbidden resource, One or more of the sixth prohibited resources:

第五方面，提供一种网络设备，所述网络设备包括：处理器、收发器和存储器，所述处理器、所述存储器和所述收发器之间建立有通信连接，所述存储器中存储程序代码；所述收发器，用于向终端发送资源块分配信息，以使所述终端根据所述资源块分配信息确定所述网络设备分配的第一资源；所述资源块分配信息用于指示所述网络设备为所述终端分配的资源；处理器，用于为所述终端分配的资源由所述处理单元从可选资源中选取，所述可选资源为从所有资源中删除禁选资源后的资源；所述收发器，还用于在所述第一资源向所述终端发送信息或接收所述终端发送的信息。A fifth aspect provides a network device, including: a processor, a transceiver, and a memory, wherein a communication connection is established between the processor, the memory, and the transceiver, and the program is stored in the memory The transceiver is configured to send resource block allocation information to the terminal, so that the terminal determines, according to the resource block allocation information, a first resource allocated by the network device; the resource block allocation information is used to indicate a resource allocated by the network device to the terminal; a processor, where the resource allocated for the terminal is selected by the processing unit from an optional resource, where the optional resource is after deleting the forbidden resource from all resources The transceiver is further configured to send information to the terminal or receive information sent by the terminal at the first resource.

在第五方面的第一种可选方案中，所述资源块分配信息包括：所述网络设备分配的起始资源单位以及连续资源单位的个数，所述资源单位为1/2窄带、窄带、物理资源块PRB中的一种。In a first alternative of the fifth aspect, the resource block allocation information includes: a starting resource unit allocated by the network device, and a number of consecutive resource units, where the resource unit is 1/2 narrowband and narrowband One of the physical resource blocks PRB.

在第五方面的第二种可选方案中，所述资源单位为1/2窄带，In a second alternative of the fifth aspect, the resource unit is 1/2 narrowband,

在第五方面的第三种可选方案中，所述网络设备和所述终端通信的系统带宽包括：1.4MHz、3MHz、5MHz、10MHz、20MHz中的一种或多种。In a third alternative of the fifth aspect, the network bandwidth that the network device communicates with the terminal includes: one or more of 1.4 MHz, 3 MHz, 5 MHz, 10 MHz, and 20 MHz.

在第五方面的第四种可选方案中，所述资源单位为窄带，In a fourth alternative of the fifth aspect, the resource unit is a narrowband,

在第五方面的第五种可选方案中，所述网络设备和所述终端通信的系统带宽包括：3MHz、5MHz、10MHz、20MHz中的一种或多种。In a fifth alternative of the fifth aspect, the system bandwidth of the network device and the terminal communication comprises: one or more of 3 MHz, 5 MHz, 10 MHz, and 20 MHz.

在第五方面的第六种可选方案中，所述资源单位为PRB，In a sixth alternative of the fifth aspect, the resource unit is a PRB,

在第五方面的第六种可选方案中，所述资源块分配信息用于指示所述网络设备为所述终端分配分配的资源包括：In a sixth optional aspect of the fifth aspect, the resource block allocation information is used to indicate that the network device allocates allocated resources to the terminal, including:

在第五方面的第七种可选方案中，所述资源块分配信息用于指示分配的窄带包括：In a seventh optional aspect of the fifth aspect, the resource block allocation information is used to indicate that the allocated narrowband includes:

在第五方面的第八种可选方案中，所述资源块分配信息用于指示在所述分配的窄带内分配的PRB包括：In an eighth optional aspect of the fifth aspect, the resource block allocation information is used to indicate that the PRB allocated in the allocated narrowband includes:

在第五方面的第九种可选方案中，所述禁选资源包括以下第一禁选资源、第二禁选资源、第三禁选资源、第四禁选资源、第五禁选资源、第六禁选资源中的一种或多种：In a ninth alternative of the fifth aspect, the forbidden resource includes the following first forbidden resource, second forbidden resource, third forbidden resource, fourth forbidden resource, fifth forbidden resource, One or more of the sixth prohibited resources:

第六方面，提供一种终端，所述终端包括：处理器、收发器和存储器，所述处理器、所述存储器和所述收发器之间建立有通信连接，存储器中存储程序代码；所述收发器，用于接收网络设备发送的资源块分配信息，所述资源块分配信息用于指示所述网络设备为所述终端分配的资源；所述网络设备为所述终端分配的资源由所述网络设备从可选资源中选取，所述可选资源为从所有资源中删除禁选资源后的资源；处理器，用于根据所述资源块分配信息，确定所述网络设备分配的第一资源；所述收发器，还用于在所述第一资源发送或接收信息。According to a sixth aspect, a terminal is provided, the terminal includes: a processor, a transceiver, and a memory, wherein a communication connection is established between the processor, the memory, and the transceiver, and a program code is stored in the memory; a transceiver, configured to receive resource block allocation information that is sent by the network device, where the resource block allocation information is used to indicate a resource allocated by the network device to the terminal; The network device is selected from the optional resources, the optional resource is a resource after the banned resource is deleted from all the resources, and the processor is configured to determine, according to the resource block allocation information, the first resource allocated by the network device The transceiver is further configured to send or receive information at the first resource.

在第六方面的第一种可选方案中，所述资源块分配信息用于指示所述网络设备为所述终端分配的资源包括：所述资源块分配信息用于指示所述网络设备分配的起始资源单位以及连续资源单位的个数，所述资源单位为1/2窄带、窄带、物理资源块PRB中的一种。In a first alternative of the sixth aspect, the resource block allocation information is used to indicate that the network device allocates resources for the terminal, where the resource block allocation information is used to indicate that the network device allocates The starting resource unit and the number of consecutive resource units, the resource unit being one of a 1/2 narrowband, a narrowband, and a physical resource block PRB.

在第六方面的第二种可选方案中，所述资源单位为1/2窄带，所述禁选资源为从第一起始资源单位开始的连续P个资源单位；In a second optional aspect of the sixth aspect, the resource unit is a 1/2 narrowband, and the forbidden resource is a consecutive P resource units starting from the first starting resource unit;

在第六方面的第三种可选方案中，所述网络设备和所述终端通信的系统带宽包括：1.4MHz、3MHz、5MHz、10MHz、20MHz中的一种或多种。In a third alternative of the sixth aspect, the system bandwidth of the network device and the terminal communication comprises: one or more of 1.4 MHz, 3 MHz, 5 MHz, 10 MHz, and 20 MHz.

在第六方面的第四种可选方案中，所述资源单位为窄带，所述禁选资源为从第一起始资源单位开始的连续P个资源单位；In a fourth optional aspect of the sixth aspect, the resource unit is a narrowband, and the forbidden resource is a consecutive P resource units starting from a first starting resource unit;

在第六方面的第五种可选方案中，所述网络设备和所述终端通信的系统带宽包括：3MHz、5MHz、10MHz、20MHz中的一种或多种。In a fifth alternative of the sixth aspect, the network bandwidth that the network device communicates with the terminal includes: one or more of 3 MHz, 5 MHz, 10 MHz, and 20 MHz.

在第六方面的第六种可选方案中，所述资源单位为PRB，所述禁选资源为从第一起始资源单位开始的连续P个资源单位；In a sixth optional aspect of the sixth aspect, the resource unit is a PRB, and the forbidden resource is a consecutive P resource units starting from a first starting resource unit;

在第六方面的第七种可选方案中，所述资源块分配信息用于指示所述网络设备为所述终端分配分配的资源包括：所述资源块分配信息用于指示分配的窄带，以及在所述分配的窄带内分配的PRB；存在所述资源块分配信息的比特的状态所指示的分配的窄带个数大于1，在所述分配的窄带中的每个窄带内分配的PRB都相同。In a seventh optional aspect of the sixth aspect, the resource block allocation information is used to indicate that the network device allocates allocated resources to the terminal, where the resource block allocation information is used to indicate an allocated narrowband, and a PRB allocated within the allocated narrowband; the number of allocated narrowbands indicated by the state of the bits in which the resource block allocation information exists is greater than 1, and the PRBs allocated in each narrowband of the allocated narrowband are the same .

在第六方面的第八种可选方案中，所述资源块分配信息用于指示分配的窄带包括：In an eighth alternative of the sixth aspect, the resource block allocation information is used to indicate that the allocated narrowband includes:

在第六方面的第九种可选方案中，所述禁选资源包括以下第一禁选资源、第二禁选资源、第三禁选资源、第四禁选资源、第五禁选资源、第六禁选资源中的一种或多种：In a ninth alternative of the sixth aspect, the forbidden resource includes the following first forbidden resource, second forbidden resource, third forbidden resource, fourth forbidden resource, fifth forbidden resource, One or more of the sixth prohibited resources:

附图说明DRAWINGS

为了更清楚地说明本申请实施例或现有技术中的技术方案，下面将对实施例中所需要使用的附图作简单地介绍，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。In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings to be used in the embodiments will be briefly described below. Obviously, the drawings in the following description are only some of the present application. For the embodiments, those skilled in the art can obtain other drawings according to the drawings without any creative work.

图1是网络构架的示意图。Figure 1 is a schematic diagram of a network architecture.

图2-1是上下行资源分配的指示方法示意图。Figure 2-1 is a schematic diagram of an indication method for uplink and downlink resource allocation.

图2-2是RIV值示意图。Figure 2-2 is a schematic diagram of RIV values.

图3是本申请一实施例提供的一种资源分配方法流程图。FIG. 3 is a flowchart of a resource allocation method according to an embodiment of the present application.

图4是本申请另一实施例提供的一种资源分配方法流程图。FIG. 4 is a flowchart of a resource allocation method according to another embodiment of the present application.

图5是本申请又一实施例提供的一种资源分配方法流程图。FIG. 5 is a flowchart of a resource allocation method according to another embodiment of the present application.

图6是本申请实施例提供的一种终端的结构示意图。FIG. 6 is a schematic structural diagram of a terminal according to an embodiment of the present application.

图7为本申请实施例提供的一种网络设备的结构示意图。FIG. 7 is a schematic structural diagram of a network device according to an embodiment of the present disclosure.

图8是本申请实施例提供的一种终端的硬件示意图。FIG. 8 is a schematic diagram of hardware of a terminal according to an embodiment of the present application.

图9为本申请实施例提供的一种网络设备的硬件示意图。FIG. 9 is a schematic diagram of hardware of a network device according to an embodiment of the present application.

具体实施方式detailed description

下面将结合本申请实施例中的附图，对本申请实施例中的技术方案进行清楚、完整地描述，显然，所描述的实施例仅仅是本申请一部分实施例，而不是全部的实施例。基于本申请中的实施例，本领域普通技术人员在没有作出创造性劳动前提下所获得的所有其他实施例，都属于本申请保护的范围。The technical solutions in the embodiments of the present application are clearly and completely described in the following with reference to the drawings in the embodiments of the present application. It is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present application without departing from the inventive scope are the scope of the present application.

如图1所示，图1为本申请提供的技术方案的网络构架，该网络构架包括：基站(base station)和多个UE，其中，UE与基站之间通过无线方式连接，该无线方式包括但不限于LTE的无线接入方式等方式。其中UE可以为多个，为了描述的方便，这里以UE1、UE2、UE3、UE4、UE5、UE6区分，其中UE可以为MTC中的任意设备，例如：智能手机(UE5)、智能电视、智能打印机、智能电水壶、智能电表等等能够支持MTC业务的设备，各个UE之间也可以通过无线方式连接，如图1所示，UE5可以通过无线方式与UE4和UE6连接。在网络构架中，基站可以发送资源块分配信息给UE1～UE6中的一个或多个UE。此外，UE5也可以发送资源块分配信息给UE4和UE6中的一个或多个UE。As shown in FIG. 1 , FIG. 1 is a network architecture of a technical solution provided by the present application. The network architecture includes: a base station and multiple UEs, where the UE and the base station are connected by using a wireless manner, and the wireless manner includes However, it is not limited to the LTE wireless access method. The UE may be multiple. For the convenience of description, the UE is divided into UE1, UE2, UE3, UE4, UE5, and UE6. The UE may be any device in the MTC, for example, a smart phone (UE5), a smart TV, or a smart printer. The device can support the MTC service, and the UEs can also be connected in a wireless manner. As shown in FIG. 1 , theUE 5 can be connected to theUE 4 and theUE 6 in a wireless manner. In the network architecture, the base station may send resource block allocation information to one or more UEs in UE1 to UE6. In addition, theUE 5 may also transmit resource block allocation information to one or more of theUE 4 and theUE 6.

LTE Rel-13为CE UE提供了两种覆盖增强模式，即用于较小覆盖增强程度的覆盖增强模式A(CE mode A)，和用于较大覆盖增强程度的覆盖增强模式B(CE mode B)。图2-1表示了LTE Rel-13CE mode A时的上下行资源分配的指示方法。下行控制信息(Downlink Control Information，DCI)格式6-0A和6-1A分别采用LTE Rel-13 provides two coverage enhancement modes for CE UE, namely, coverage enhancement mode A (CE mode A) for smaller coverage enhancement degree and coverage enhancement mode B (CE mode for larger coverage enhancement degree). B). Figure 2-1 shows the indication method of uplink and downlink resource allocation in LTE Rel-13 CE mode A. Downlink Control Information (DCI) formats 6-0A and 6-1A are used respectively.

和

个比特指示在系统带宽中分配的一个窄带的窄带索引。系统带宽的频率范围内包含一个或者多个窄带。对系统带宽的频率范围内包含的窄带在按照频率升序或者降序进行编号，即为窄带索引。其中，

表示上行系统带宽在频率上包含的PRB的个数，

表示下行系统带宽在频率上包含的PRB的个数。后5个比特(b0-b4)用于指示在所指示的窄带内PRB的分配，后5个比特的指示方式采用起点结合长度的方式，指示连续的PRB分配(下行起点结合长度的资源分配方式为类型2Type 2资源分配方式，上行起点结合长度的资源分配方式为类型0Type 0资源分配方式)。对窄带在频率上包含的连续的6个PRB按照频率升序或者降序进行编号，即为窄带内的PRB索引。所述窄带内的PRB索引的取值范围是0～5。5比特的二进制数对应的资源指示值(Resource Indication Value，RIV)表示窄带内的PRB的一个起始PRB索引和连续的PRB个数。所述起始PRB索引是窄带内的PRB索引。RIV值如图2-2所示。例如RIV值为20时表示所述起始PRB索引为2，连续PRB个数为4个，同理，RIV值为19时，表示所述起始PRB索引为1，连续PRB个数为4个。LTE Rel-13的DCI格式6-0A和6-1A的资源分配，只能指示系统带宽中具体的某一个窄带，及指示该窄带内的PRB分配，即分配资源的频率宽度不超过一个窄带，无法满足分配5MHz或者20MHz资源的需求。

with

The bits indicate a narrowband narrowband index allocated in the system bandwidth. The frequency range of the system bandwidth contains one or more narrowbands. The narrowband included in the frequency range of the system bandwidth is numbered in ascending or descending order of frequency, which is a narrowband index. among them,

Indicates the number of PRBs included in the uplink system bandwidth on the frequency.

Indicates the number of PRBs that the downlink system bandwidth contains on the frequency. The last 5 bits (b0-b4) are used to indicate the allocation of the PRB in the indicated narrowband, and the indication manner of the last 5 bits adopts the starting point combined length to indicate the continuous PRB allocation (the resource allocation mode of the downlink starting point combined length) For thetype 2Type 2 resource allocation mode, the resource allocation mode of the uplink starting point combined with the length istype 0Type 0 resource allocation mode). The consecutive 6 PRBs included in the frequency of the narrow band are numbered in ascending or descending order of frequency, that is, the PRB index in the narrow band. The value of the PRB index in the narrowband is 0 to 5. The Resource Indication Value (RIV) corresponding to the 5-bit binary number indicates a starting PRB index and a continuous number of PRBs of the PRB in the narrowband. . The starting PRB index is a PRB index within a narrow band. The RIV value is shown in Figure 2-2. For example, when the RIV value is 20, the initial PRB index is 2, and the number of consecutive PRBs is 4. Similarly, when the RIV value is 19, the initial PRB index is 1, and the number of consecutive PRBs is 4. . The resource allocation of the DCI formats 6-0A and 6-1A of the LTE Rel-13 can only indicate a specific narrowband in the system bandwidth, and indicate the PRB allocation in the narrowband, that is, the frequency bandwidth of the allocated resources does not exceed a narrow band. Unable to meet the need to allocate 5MHz or 20MHz resources.

参阅图3，图3为本申请一实施例提供的一种资源分配方法，该方法由网络设备与终端之间执行，该终端具体可以为：智能手机、平板电脑、计算机、智能电视、智能打印机、智能电水壶、智能电表设备等，该网络设备具体可以为：基站、智能手机、平板电脑、中继站等等设备，该方法如图3所示，包括如下步骤：Referring to FIG. 3, FIG. 3 is a resource allocation method according to an embodiment of the present disclosure. The method is performed by a network device and a terminal, and the terminal may be: a smart phone, a tablet computer, a computer, a smart TV, a smart printer. The smart device, the smart electric kettle device, the smart meter device, etc., the network device may specifically be: a base station, a smart phone, a tablet computer, a relay station, and the like. The method is as shown in FIG. 3, and includes the following steps:

步骤S301、网络设备向终端发送资源块分配信息，所述资源块分配信息用于指示所述网络设备为所述终端分配的资源；所述网络设备为所述终端分配的资源由所述网络设备从可选资源中选取，所述可选资源为从所有资源中删除禁选资源后的资源。Step S301: The network device sends resource block allocation information to the terminal, where the resource block allocation information is used to indicate the resource allocated by the network device to the terminal, and the network device allocates resources for the terminal by the network device. The resource is selected from the optional resources, and the optional resource is a resource after the banned resource is deleted from all the resources.

可选的，上述资源块分配信息用于指示所述网络设备分配的起始资源单位以及连续资源单位的个数，所述资源单位为1/2窄带、窄带、物理资源块PRB中的一种。Optionally, the foregoing resource block allocation information is used to indicate a starting resource unit and a number of consecutive resource units allocated by the network device, where the resource unit is one of a 1/2 narrowband, a narrowband, and a physical resource block PRB. .

步骤S302、终端根据所述资源块分配信息，确定所述网络设备分配的第一资源。Step S302: The terminal determines, according to the resource block allocation information, the first resource allocated by the network device.

步骤S303、终端在所述第一资源向所述网络设备发送信息或接收网络设备发送的信息。Step S303: The terminal sends information to the network device or receives information sent by the network device in the first resource.

本申请实施例提供的技术方案将所有资源分配成可选资源和禁选资源，限制从可选资源中选取分配的资源，从而实现资源的分配，进而能够实现5MHz、20MHz资源的分配，有效利用资源块分配信息的比特。The technical solution provided by the embodiment of the present application allocates all resources into an optional resource and a forbidden resource, and restricts the allocation of the allocated resource from the optional resource, thereby realizing the resource allocation, thereby realizing the allocation of the 5 MHz and 20 MHz resources, and effectively utilizing The bits of the resource block allocation information.

可选的，上述资源单位可以为1/2窄带，当为1/2窄带时，上述禁选资源可以为从第一起始资源单位开始的连续P个资源单位；上述网络设备与终端通信的系统带宽可以包括：1.4MHz、3MHz、5MHz、10MHz、20MHz中的一种或多种。Optionally, the foregoing resource unit may be a 1/2 narrowband. When the bandwidth is 1/2 narrowband, the forbidden resource may be consecutive P resource units starting from the first starting resource unit; and the system for communicating with the terminal by the network device. The bandwidth may include one or more of 1.4 MHz, 3 MHz, 5 MHz, 10 MHz, and 20 MHz.

上述第一起始资源单位以及P的取值可以为下述方式中的任意一种：The first starting resource unit and the value of P may be any one of the following modes:

方式A、第一起始资源单位为每个窄带的前1/2个窄带且P等于1。Mode A, the first starting resource unit is the first 1/2 narrow band of each narrow band and P is equal to 1.

方式B、第一起始资源单位为每个窄带的后1/2个窄带且P等于1。Mode B, the first starting resource unit is the last 1/2 narrow band of each narrow band and P is equal to 1.

方式C、第一起始资源单位包括每个窄带的后1/2个窄带，所述P等于2，以及所述第一起始资源单位还包括窄带索引是N/2-1的窄带的前1/2个窄带，所述P等于4；其中N表示系统带宽中包含的窄带的个数，N为偶数。In the mode C, the first starting resource unit includes the last 1/2 narrow band of each narrow band, the P is equal to 2, and the first starting resource unit further includes a front band of a narrow band with a narrowband index of N/2-1. 2 narrow bands, the P is equal to 4; wherein N represents the number of narrow bands included in the system bandwidth, and N is an even number.

可选的，上述资源单位可以为窄带，该禁选资源可以为从第一起始资源单元开始的连续P个资源单位，所述网络设备和所述终端通信的系统带宽包括：3MHz、5MHz、10MHz、20MHz中的一种或多种。Optionally, the foregoing resource unit may be a narrowband, the forbidden resource may be consecutive P resource units starting from the first starting resource unit, and the system bandwidth of the network device and the terminal communication includes: 3 MHz, 5 MHz, 10 MHz. One or more of 20MHz.

当资源单位为窄带时，该第一起始资源单元以及P值可以选择下述方式中的任意一种：When the resource unit is a narrow band, the first starting resource unit and the P value may be selected in any of the following manners:

方式D、第一起始资源单位包括窄带索引是偶数的窄带且所述P等于1；Mode D: The first starting resource unit includes a narrowband with an even-numbered narrowband index and the P is equal to 1;

方式E、所述第一起始资源单位包括窄带索引是奇数的窄带且所述P等于1；Mode E, the first starting resource unit includes a narrowband with an odd-numbered index being an odd number and the P is equal to 1;

方式F、所述第一起始资源单位包括系统带宽中的所有窄带且所述P等于1。Mode F, the first starting resource unit includes all narrowbands in the system bandwidth and the P is equal to 1.

可选的，上述资源单位可以为PRB，该禁选资源为从第一起始资源单位开始的连续P个资源单位。Optionally, the foregoing resource unit may be a PRB, and the forbidden resource is a consecutive P resource units starting from the first starting resource unit.

当资源单位为PRB时，该第一起始资源单元以及P值可以选择下述方式中的任意一种：When the resource unit is a PRB, the first starting resource unit and the P value may be selected in any of the following manners:

方式G、所述第一起始资源单位包括系统带宽中的所有PRB并且P大于24，以及所述第一起始资源单位还包括系统带宽内的PRB索引是奇数或者偶数的PRB并且P等于1，以及所述第一起始资源单位还包括系统带宽内的PRB索引是X的PRB并且P等于2；其中，X取[0，99]中的26个不同值，所述网络设备和所述终端通信的系统带宽为20MHz。In the mode G, the first starting resource unit includes all PRBs in the system bandwidth and P is greater than 24, and the first starting resource unit further includes an PRB index in the system bandwidth that is an odd or even PRB and P is equal to 1, and The first starting resource unit further includes a PRB index in the system bandwidth that is a PRB of X and P is equal to 2; wherein X takes 26 different values in [0, 99], and the network device communicates with the terminal. The system bandwidth is 20MHz.

对系统带宽内的PRB按照频率升序或者降序进行编号，即为系统带宽内的PRB索引。例如，对于20MHz的系统带宽内的PRB，系统带宽内的PRB索引的取值范围是0～99。上述方式G中的PRB索引是系统带宽内的PRB索引。X的取值可以为[0，99]中任选的26个数值，且X值不重复。方式H、当所述网络设备和所述终端通信的系统带宽为20MHz时，所述第一起始资源单位包括系统带宽中的所有PRB并且P大于23；当所述网络设备和所述终端通信的系统带宽为10MHz或者15MHz时，所述第一起始资源单位包括系统带宽中的所有PRB并且P大于24。The PRBs in the system bandwidth are numbered in ascending or descending order of frequency, which is the PRB index in the system bandwidth. For example, for a PRB within a system bandwidth of 20 MHz, the PRB index in the system bandwidth ranges from 0 to 99. The PRB index in the above manner G is a PRB index within the system bandwidth. The value of X can be any of the 26 values in [0, 99], and the X values are not repeated. Mode H, when the system bandwidth of the network device and the terminal communicates is 20 MHz, the first starting resource unit includes all PRBs in the system bandwidth and P is greater than 23; when the network device communicates with the terminal When the system bandwidth is 10 MHz or 15 MHz, the first starting resource unit includes all PRBs in the system bandwidth and P is greater than 24.

方式I、所述第一起始资源单位包括系统带宽中的所有PRB并且P大于25，以及所述第一起始资源单位还包括系统带宽中的所有PRB并且P等于1，以及所述第一起始资源单位还包括系统带宽内的PRB索引是Y的PRB并且P等于2；其中，Y取[0，99]内的52个不同值，所述网络设备和所述终端通信的系统带宽为20MHz。Mode 1, the first starting resource unit includes all PRBs in the system bandwidth and P is greater than 25, and the first starting resource unit further includes all PRBs in the system bandwidth and P is equal to 1, and the first starting resource The unit further includes a PRB index within the system bandwidth that is a PRB of Y and P equals 2; wherein Y takes 52 different values within [0, 99], and the network bandwidth of the network device and the terminal communicates is 20 MHz.

上述方式I中的PRB索引是系统带宽内的PRB索引。Y的取值可以为[0，99]中任选的52个数值，且Y值不重复。The PRB index in the above mode I is a PRB index within the system bandwidth. The value of Y can be any of the 52 values in [0, 99], and the Y value is not repeated.

方式J、当所述网络设备和所述终端通信的系统带宽为20MHz时，所述第一起始资源单位包括系统带宽中的所有PRB并且P大于23；当系统带宽是10MHz或者15MHz时，所述第一起始资源单位包括系统带宽中的所有PRB并且P大于25。Mode J, when the system bandwidth of the network device and the terminal communicates is 20 MHz, the first starting resource unit includes all PRBs in the system bandwidth and P is greater than 23; when the system bandwidth is 10 MHz or 15 MHz, the The first starting resource unit includes all PRBs in the system bandwidth and P is greater than 25.

可选的，所述资源块分配信息用于指示分配的窄带，以及在所述分配的窄带内分配的PRB；存在所述资源块分配信息的比特的状态所指示的分配的窄带个数大于1，在所述分配的窄带中的每个窄带内分配的PRB都相同。Optionally, the resource block allocation information is used to indicate the allocated narrowband, and the PRB allocated in the allocated narrowband; the number of allocated narrowbands indicated by the state of the bit in which the resource block allocation information exists is greater than 1. The PRBs allocated in each of the narrow bands of the allocated narrow bands are the same.

所述资源块分配信息用于指示分配的窄带包括：The resource block allocation information is used to indicate that the allocated narrowband includes:

可选的，所述资源块分配信息用于指示在所述分配的窄带内分配的PRB包括：Optionally, the resource block allocation information is used to indicate that the PRB allocated in the allocated narrowband includes:

可选的，所述禁选资源包括以下第一禁选资源、第二禁选资源、第三禁选资源、第四禁选资源、第五禁选资源、第六禁选资源中的一种或多种：Optionally, the forbidden resource includes one of the following first forbidden resource, second forbidden resource, third forbidden resource, fourth forbidden resource, fifth forbidden resource, and sixth forbidden resource Or multiple:

参阅图4，图4为本申请另一实施例提供的一种资源分配方法，该方法由网络设备与终端之间执行，该终端具体可以为：智能手机、平板电脑、计算机、智能电视、智能打印机、智能电水壶、智能电表设备等，该网络设备具体可以为：基站、智能手机、平板电脑、中继站等等设备。该方法以1/2个窄带，即3个PRB为资源分配的资源单位。采用起点结合长度的资源分配方式。本实施例的资源块分配信息不指示禁选资源。如图4所示，包括如下步骤：Referring to FIG. 4, FIG. 4 is a method for allocating resources according to another embodiment of the present application. The method is implemented by a network device and a terminal, and the terminal may be: a smart phone, a tablet computer, a computer, a smart TV, and a smart device. The printer, the smart electric kettle, the smart meter device, etc., the network device may specifically be: a base station, a smart phone, a tablet computer, a relay station, and the like. The method uses 1/2 narrow bands, that is, 3 PRBs, as resource units allocated by resources. A resource allocation method using a starting point combined with a length. The resource block allocation information of this embodiment does not indicate a forbidden resource. As shown in Figure 4, the following steps are included:

步骤S401、网络设备向终端发送资源块分配信息，所述资源块分配信息用于指示所述网络设备分配的起始资源单位以及连续资源单位的个数，所述资源单位为1/2窄带；所述资源块分配信息指示的所述网络设备为所述终端分配的资源由所述网络设备从可选资源中选取，所述可选资源为从所有资源中删除禁选资源后的资源。Step S401: The network device sends resource block allocation information to the terminal, where the resource block allocation information is used to indicate a starting resource unit and a number of consecutive resource units allocated by the network device, where the resource unit is a 1/2 narrow band; The resource allocated by the network device to the terminal indicated by the resource block allocation information is selected by the network device from an optional resource, and the optional resource is a resource after deleting the forbidden resource from all resources.

对于本实施例中所述资源块分配信息用于指示所述网络设备分配的起始资源单位以及连续资源单位的个数，所述资源单位为1/2窄带，所述资源块分配信息的每个二进制比特串对应的RIV值表示分配的起始1/2窄带的位置和分配连续1/2窄带的个数。分配的起始1/2窄带的位置可以是以窄带中包含的第一个PRB(窄带内的PRB索引是0的PRB)为起点的连续3个PRB，即一个窄带的前1/2；也可以是窄带中包含的第四个PRB(窄带内的PRB索引是3的PRB)为起点的连续3个PRB，即一个窄带的后1/2。设系统带宽中包含的窄带个数为N，分配1/2个窄带共有2N种分配方法，分配1/2*2即1个窄带共有2N-1种分配方法(可以从窄带内的PRB索引是3的PRB开始，跨窄带分配1个窄带，即分配的2个1/2窄带分别位于2个连续的窄带；或者分配N个窄带中的一个窄带)，分配3/2个窄带共有2N-2种分配方法，……，分配N-1/2个窄带共有2种分配方法，分配N个窄带共有1种分配方法。所以以1/2个窄带为资源单位，指示分配的起始1/2窄带的位置和分配连续1/2窄带的个数总共有2N+(2N-1)+(2N-2)+……+2+1＝(2N+1)*N种分配方法，即所述所有资源总共有(2N+1)*N种分配方法。The resource block allocation information used in the embodiment is used to indicate a starting resource unit and a number of consecutive resource units allocated by the network device, where the resource unit is 1/2 narrow band, and each resource block allocation information The RIV values corresponding to the binary bit strings represent the position of the initial 1/2 narrow band of the allocation and the number of consecutive 1/2 narrow bands. The position of the initial 1/2 narrow band allocated may be three consecutive PRBs starting from the first PRB (the PRB whose PRB index is 0 in the narrow band) included in the narrow band, that is, the first 1/2 of a narrow band; It may be a continuous 3 PRBs whose starting point is the fourth PRB (the PRB index in the narrow band is 3 PRBs) in the narrow band, that is, the last 1/2 of a narrow band. Let the number of narrowbands included in the system bandwidth be N, allocate 1/2 narrowbands to share 2N kinds of allocation methods, and allocate 1/2*2, that is, one narrowband has 2N-1 kinds of allocation methods (can be indexed from the narrowband PRB) The PRB of 3 starts with a narrow band distributed across the narrow band, that is, the allocated 2 1/2 narrow bands are respectively located in 2 consecutive narrow bands; or one narrow band of N narrow bands is allocated), and 3/2 narrow bands are allocated 2N-2 in total. Distribution method, ..., assign N-1/2There are two kinds of distribution methods for narrow bands, and one distribution method for N narrow bands. Therefore, with 1/2 narrowband as the resource unit, the position indicating the initial 1/2 narrow band of the allocation and the number of consecutive 1/2 narrow bands are allocated 2N+(2N-1)+(2N-2)+...+ 2+1=(2N+1)*N kinds of allocation methods, that is, all the resources have a total of (2N+1)*N allocation methods.

以20MHz系统带宽为例，系统带宽中包含的窄带个数N是16，所述所有资源总共有528种分配方法。如果所述资源块分配信息指示的所述网络设备为所述终端分配的资源为所有资源，则指示所述528种分配方法需要10比特。然而，10比特总共有1024种取值状态，其中只有528种取值状态指示了资源分配，这样就存在较多没有用到的取值状态，没有有效利用资源块分配信息的比特，资源块分配信息的比特开销较大。所以本实施例中所述资源块分配信息指示的所述网络设备为所述终端分配的资源由所述网络设备从可选资源中选取，所述可选资源为从所有资源中删除禁选资源后的资源。仍以20MHz系统带宽为例，如果所述禁选资源有16种分配方法，则所述可选资源为从528种分配方法中删除16种后留下的512种分配方法，所述资源块分配信息需要9比特即能够指示所述可选资源的512种分配方法，节约了所述资源块分配信息的比特开销。Taking the 20 MHz system bandwidth as an example, the number N of narrowbands included in the system bandwidth is 16, and all of the resources have a total of 528 allocation methods. If the resource allocated by the network device to the terminal indicated by the resource block allocation information is all resources, it indicates that the 528 allocation methods require 10 bits. However, there are 1024 kinds of value states in 10 bits, of which only 528 value states indicate resource allocation, so there are more unused value states, and there is no bit that effectively utilizes resource block allocation information, resource block allocation. The bit overhead of the information is large. Therefore, the resources allocated by the network device to the terminal indicated by the resource block allocation information in the embodiment are selected by the network device from the optional resources, and the optional resource is to delete the forbidden resource from all the resources. After the resources. Still taking the 20 MHz system bandwidth as an example, if there are 16 allocation methods for the forbidden resource, the optional resource is 512 allocation methods left after deleting 16 kinds from 528 allocation methods, the resource block allocation. The information requires 9 bits to indicate 512 allocation methods of the optional resources, which saves the bit overhead of the resource block allocation information.

所述可选资源或者所述禁选资源需要以预先规定的方式设置在网络设备和终端内。所述预先规定的方式可以是协议规定。所述禁选资源具体可以为：从第一起始资源单位开始的连续P个资源单位。即从第一1/2窄带开始的连续P个1/2窄带。The optional resource or the forbidden resource needs to be set in the network device and the terminal in a predetermined manner. The predetermined manner may be an agreement. The forbidden resource may be specifically: consecutive P resource units starting from the first starting resource unit. That is,consecutive P 1/2 narrow bands starting from the first 1/2 narrow band.

可选的，所述第一起始资源单位包括每个窄带的前1/2个窄带且所述P等于1。即所述禁选资源是分配1/2个窄带，起始位置是窄带中包含的第一个PRB，即分配每个窄带的前1/2个窄带。总共有N种资源分配方法。以20MHz系统带宽为例，即16个窄带中每个窄带的前1/2个窄带均为禁选资源，总共有16种分配方法。Optionally, the first starting resource unit includes a first 1/2 narrow band of each narrow band and the P is equal to 1. That is, the forbidden resource is allocated 1/2 narrow bands, and the starting position is the first PRB included in the narrow band, that is, the first 1/2 narrow bands of each narrow band are allocated. There are a total of N resource allocation methods. Taking the 20 MHz system bandwidth as an example, that is, the first 1/2 narrow bands of each narrow band in the 16 narrow bands are forbidden resources, and there are 16 allocation methods in total.

或者，所述第一起始资源单位包括每个窄带的后1/2个窄带且所述P等于1。即所述禁选资源是分配1/2个窄带，起始位置是窄带中包含的第四个PRB，即分配每个窄带的后1/2个窄带。总共有N种资源分配方法。以20MHz系统带宽为例，即16个窄带中每个窄带的后1/2个窄带均为禁选资源，总共有16种分配方法。Alternatively, the first starting resource unit includes the last 1/2 narrow band of each narrow band and the P is equal to 1. That is, the forbidden resource is allocated 1/2 narrow bands, and the starting position is the fourth PRB included in the narrow band, that is, the last 1/2 narrow bands of each narrow band are allocated. There are a total of N resource allocation methods. Taking the 20MHz system bandwidth as an example, that is, the last 1/2 narrow bands of each narrow band in the 16 narrow bands are forbidden resources, and there are 16 allocation methods in total.

或者，所述第一起始资源单位包括每个窄带的后1/2个窄带，所述P等于2。即分配1个窄带，起始位置是窄带中包含的第四个PRB，即跨窄带分配1个窄带，有N-1种资源分配方法。以及所述第一起始资源单位还包括窄带索引是N/2-1的窄带的前1/2个窄带，所述P等于4。其中N表示系统带宽中包含的窄带的个数，N为偶数。即分配系统带宽中间的2个窄带，有1种分配方法。所述禁选资源总共有N种分配方法。以20MHz系统带宽为例，所述禁选资源总共有16种分配方法。Alternatively, the first starting resource unit includes the last 1/2 narrow band of each narrow band, and the P is equal to 2. That is, one narrow band is allocated, and the starting position is the fourth PRB included in the narrow band, that is, one narrow band is allocated across the narrow band, and there are N-1 resource allocation methods. And the first starting resource unit further includes a first 1/2 narrowband of a narrowband index of N/2-1, and the P is equal to 4. Where N is the number of narrowbands included in the system bandwidth and N is an even number. That is, two narrow bands in the middle of the system bandwidth are allocated, and there is one distribution method. There are a total of N allocation methods for the forbidden resources. Taking the 20 MHz system bandwidth as an example, the forbidden resource has a total of 16 allocation methods.

可选的，所述网络设备和所述终端通信的系统带宽包括：1.4MHz、3MHz、5MHz、10MHz、20MHz中的一种或多种。即当系统带宽是1.4MHz、3MHz、5MHz、10MHz、20MHz中的一种或多种时，存在所述禁选资源。此时，所述资源块分配信息为

个比特。当所述网络设备和所述终端通信的系统带宽是其它系统带宽，不存在所述禁选资源。即所述可选资源为所有资源。此时，所述资源块分配信息为

个比特。比如当所述网络设备和所述终端通信的系统带宽是15MHz时，不存在所述禁选资源。Optionally, the system bandwidth that the network device communicates with the terminal includes: one or more of 1.4 MHz, 3 MHz, 5 MHz, 10 MHz, and 20 MHz. That is, when the system bandwidth is one or more of 1.4 MHz, 3 MHz, 5 MHz, 10 MHz, and 20 MHz, the forbidden resource exists. At this time, the resource block allocation information is

Bits. When the system bandwidth communicated by the network device and the terminal is other system bandwidth, the forbidden resource does not exist. That is, the optional resource is all resources. At this time, the resource block allocation information is

Bits. For example, when the system bandwidth of the network device and the terminal communicates is 15 MHz, the forbidden resource does not exist.

如表1所示，为本申请实施例资源分配的分配方法数和资源块分配信息的比特数示意表。As shown in Table 1, the number of allocation methods of resource allocation and the number of bits of resource block allocation information in the embodiment of the present application are shown.

表1：Table 1:

步骤S402、终端根据所述资源块分配信息，确定网络设备分配的第一资源。Step S402: The terminal determines, according to the resource block allocation information, the first resource allocated by the network device.

步骤S403、终端在所述第一资源向网络设备发送信息或接收网络设备发送的信息。Step S403: The terminal sends information to the network device or receives information sent by the network device in the first resource.

本申请实施例能够分配窄带内的资源和更大带宽的资源，提高了资源指示的灵活性，满足了支持更大业务数据带宽(大于1.4MHz)的UE的需求。本实施例提供的技术方案将所有资源分配成可选资源和禁选资源，限制从可选资源中选取分配的资源，从而实现资源的分配，节省了资源块分配信息的比特开销，对资源块分配信息比特的各种取值充分赋予了有效意义，有效的利用了资源块分配信息比特。The embodiments of the present application are capable of allocating resources within a narrow band and resources of a larger bandwidth, improving the flexibility of resource indication and satisfying the requirements of UEs supporting a larger service data bandwidth (greater than 1.4 MHz). The technical solution provided by the embodiment allocates all the resources into the optional resource and the forbidden resource, and restricts the allocation of the allocated resource from the optional resource, thereby realizing the resource allocation, saving the bit overhead of the resource block allocation information, and the resource block. The various values of the allocation information bits are fully validated, and the resource block allocation information bits are effectively utilized.

参阅图5，图5为本申请又一实施例提供的一种资源分配方法，该方法由网络设备与终端之间执行，该终端具体可以为：智能手机、平板电脑、计算机、智能电视、智能打印机、智能电水壶、智能电表设备等，该网络设备具体可以为：基站、智能手机、平板电脑、中继站等等设备。该方法以窄带，即6个PRB为资源分配的资源单位。采用起点结合长度的资源分配方式。本实施例的资源块分配信息不指示禁选资源。如图5所示，包括如下步骤：Referring to FIG. 5, FIG. 5 is a resource allocation method according to another embodiment of the present application. The method is implemented by a network device and a terminal, and the terminal may be: a smart phone, a tablet computer, a computer, a smart TV, and a smart device. The printer, the smart electric kettle, the smart meter device, etc., the network device may specifically be: a base station, a smart phone, a tablet computer, a relay station, and the like. The method uses a narrow band, that is, 6 PRBs as resource units allocated by resources. A resource allocation method using a starting point combined with a length. The resource block allocation information of this embodiment does not indicate a forbidden resource. As shown in Figure 5, the following steps are included:

步骤S501、网络设备向终端发送资源块分配信息，所述资源块分配信息用于指示所述网络设备分配的起始资源单位以及连续资源单位的个数，所述资源单位为窄带；所述资源块分配信息指示的所述网络设备为所述终端分配的资源由所述网络设备从可选资源中选取，所述可选资源为从所有资源中删除禁选资源后的资源。Step S501: The network device sends resource block allocation information to the terminal, where the resource block allocation information is used to indicate a starting resource unit and a number of consecutive resource units allocated by the network device, where the resource unit is a narrowband; The resource allocated by the network device to the terminal indicated by the block allocation information is selected by the network device from an optional resource, and the optional resource is a resource after deleting the forbidden resource from all resources.

对于本实施例中所述资源块分配信息用于指示所述网络设备分配的起始资源单位以及连续资源单位的个数，所述资源单位为窄带，所述资源块分配信息的每个二进制比特串对应的RIV值表示分配的起始窄带和分配连续的窄带的个数。设系统带宽中包含的窄带个数为N，分配1个窄带共有N种分配方法，分配2个窄带共有N-1种分配方法，……，分配N-1个窄带共有2种分配方法，分配N个窄带共有1种分配方法。所以以1个窄带为资源单位，指示分配的起始窄带和分配连续的窄带的个数总共有N+(N-1)+(N-2)+……+2+1＝(N+1)*N/2种分配方法，即所述所有资源总共有(N+1)*N/2种分配方法。The resource block allocation information used in the embodiment is used to indicate a starting resource unit and a number of consecutive resource units allocated by the network device, where the resource unit is a narrowband, and each binary bit of the resource block allocation information The corresponding RIV value of the string indicates the initial narrowband of the allocation and the number of consecutive narrowbands allocated. Let the number of narrowbands included in the system bandwidth be N, allocate one N-band allocation method for Narrowbands, allocate two narrow-band shared N-1 kinds of allocation methods, ..., allocate N-1 narrow-band shared two kinds of allocation methods, and allocate There are one distribution method for N narrow bands. Therefore, with 1 narrowband as the resource unit, the total number of initial narrowbands allocated and the number of consecutive narrowbands allocated is N+(N-1)+(N-2)+...+2+1=(N+1) *N/2 allocation methods, that is, all of the resources have a total of (N+1)*N/2 allocation methods.

以20MHz系统带宽为例，系统带宽中包含的窄带个数N是16，所述所有资源总共有136种分配方法。如果所述资源块分配信息指示的所述网络设备为所述终端分配的资源为所有资源，则指示所述136种分配方法需要8比特。然而，8比特总共有256种取值状态，其中只有136种取值状态指示了资源分配，这样就存在较多没有用到的取值状态，没有有效利用资源块分配信息的比特，资源块分配信息的比特开销较大。所以本实施例中所述资源块分配信息指示的所述网络设备为所述终端分配的资源由所述网络设备从可选资源中选取，所述可选资源为从所有资源中删除禁选资源后的资源。仍以20MHz系统带宽为例，如果所述禁选资源有8种分配方法，则所述可选资源为从136种分配方法中删除8种后留下的128种分配方法，所述资源块分配信息需要7比特即能够指示所述可选资源的128种分配方法，节约了所述资源块分配信息的比特开销。Taking the 20 MHz system bandwidth as an example, the number N of narrowbands included in the system bandwidth is 16, and there are a total of 136 allocation methods for all the resources. If the resource allocated by the network device to the terminal indicated by the resource block allocation information is all resources, it indicates that the 136 allocation methods require 8 bits. However, 8 bits have a total of 256 values, of which onlyThe 136 kinds of value states indicate the resource allocation, so there are more unused value states, and there is no bit that effectively utilizes the resource block allocation information, and the bit overhead of the resource block allocation information is large. Therefore, the resources allocated by the network device to the terminal indicated by the resource block allocation information in the embodiment are selected by the network device from the optional resources, and the optional resource is to delete the forbidden resource from all the resources. After the resources. Still taking the 20 MHz system bandwidth as an example, if the forbidden resource has 8 allocation methods, the optional resource is 128 allocation methods left after deleting 8 types from 136 allocation methods, the resource block allocation. The information requires 7 bits to indicate 128 allocation methods of the optional resources, which saves the bit overhead of the resource block allocation information.

所述可选资源或者所述禁选资源需要以预先规定的方式设置在网络设备和终端内。所述预先规定的方式可以是协议规定。所述禁选资源具体可以为：从第一起始资源单位开始的连续P个资源单位。即从第一窄带开始的连续P个窄带。The optional resource or the forbidden resource needs to be set in the network device and the terminal in a predetermined manner. The predetermined manner may be an agreement. The forbidden resource may be specifically: consecutive P resource units starting from the first starting resource unit. That is, consecutive P narrow bands starting from the first narrow band.

可选的，所述第一起始资源单位包括窄带索引是偶数的窄带且所述P等于1。即所述禁选资源是分配1个窄带，且分配的窄带是索引是偶数的窄带。总共有N/2种资源分配方法。以20MHz系统带宽为例，即16个窄带中索引是偶数的窄带均为禁选资源，总共有8种分配方法。Optionally, the first starting resource unit includes a narrowband with an even-numbered narrowband index and the P is equal to 1. That is, the forbidden resource is allocated 1 narrow band, and the allocated narrow band is a narrow band whose index is even. There are a total of N/2 resource allocation methods. Taking the 20MHz system bandwidth as an example, that is, 16 narrow-band indexes with even-numbered narrowbands are forbidden resources, and there are a total of eight allocation methods.

或者，所述第一起始资源单位包括窄带索引是奇数的窄带且所述P等于1。即所述禁选资源是分配1个窄带，且分配的窄带是索引是奇数的窄带。总共有N/2种资源分配方法。以20MHz系统带宽为例，即16个窄带中索引是奇数的窄带均为禁选资源，总共有8种分配方法。Alternatively, the first starting resource unit includes a narrow band whose odd band index is an odd number and the P is equal to 1. That is, the forbidden resource is allocated 1 narrow band, and the allocated narrow band is a narrow band whose index is odd. There are a total of N/2 resource allocation methods. Taking the 20MHz system bandwidth as an example, that is, 16 narrowbands with odd-numbered indexes are forbidden resources, and there are 8 allocation methods in total.

或者，所述第一起始资源单位包括系统带宽中的所有窄带且所述P等于1。即所述禁选资源是分配系统带宽中的任一窄带。总共有N种资源分配方法。Alternatively, the first starting resource unit includes all narrowbands in the system bandwidth and the P is equal to one. That is, the forbidden resource is any narrow band in the allocation system bandwidth. There are a total of N resource allocation methods.

可选的，所述网络设备和所述终端通信的系统带宽包括：3MHz、5MHz、10MHz、20MHz中的一种或多种。即当系统带宽是3MHz、5MHz、10MHz、20MHz中的一种或多种时，存在所述禁选资源。此时，所述资源块分配信息为

个比特(禁选资源的分配方法有N/2种)或

个比特(禁选资源的分配方法有N种)。当所述网络设备和所述终端通信的系统带宽是其它系统带宽，不存在所述禁选资源。即所述可选资源为所有资源。此时，所述资源块分配信息为

个比特。比如当所述网络设备和所述终端通信的系统带宽是15MHz时，不存在所述禁选资源。Optionally, the system bandwidth that the network device communicates with the terminal includes: one or more of 3 MHz, 5 MHz, 10 MHz, and 20 MHz. That is, when the system bandwidth is one or more of 3 MHz, 5 MHz, 10 MHz, and 20 MHz, the forbidden resource exists. At this time, the resource block allocation information is

Bits (N/2 types of forbidden resources are allocated) or

There are N bits for the allocation of forbidden resources. When the system bandwidth communicated by the network device and the terminal is other system bandwidth, the forbidden resource does not exist. That is, the optional resource is all resources. At this time, the resource block allocation information is

如表2所示，为本申请实施例资源分配的分配方法数和资源块分配信息的比特数示意表。As shown in Table 2, the number of allocation methods of resource allocation and the number of bits of resource block allocation information are shown in the embodiment of the present application.

表2：Table 2:

比如对于20MHz系统带宽，资源块分配信息的比特数是7，资源块分配信息的比特是b6b5b4b3b2b1b0。比特b2b1b0的8种状态用于指示分配1个窄带，并且只能分配奇数或者偶数索引的窄带。b6b5b4b3b2b1b0表示的十进制数-8＝RIV，用于指示大于一个窄带的资源分配。RIV的每个数值对应一个起始窄带的位置和分配的连续窄带的个数。For example, for a 20 MHz system bandwidth, the number of bits of resource block allocation information is 7, and the bits of resource block allocation information are b6b5b4b3b2b1b0. The eight states of bit b2b1b0 are used to indicate that 1 narrow band is allocated, and only narrow bands of odd or even indices can be allocated. The decimal number -8=RIV represented by b6b5b4b3b2b1b0 is used to indicate resource allocation greater than one narrow band. Each value of RIV corresponds to the position of a starting narrow band and the number of consecutive narrow bands assigned.

步骤S502、终端根据所述资源块分配信息，确定网络设备分配的第一资源。Step S502: The terminal determines, according to the resource block allocation information, a first resource allocated by the network device.

步骤S503、终端在所述第一资源向网络设备发送信息或接收网络设备发送的信息。Step S503: The terminal sends information to the network device or receives information sent by the network device in the first resource.

本申请实施例还提供一种资源分配的方法，本实施例用于支持PDSCH或PUSCH带宽是5MHz的UE。该方法以PRB为资源分配的资源单位。采用起点结合长度的资源分配方式。本实施例的资源块分配信息不指示禁选资源。The embodiment of the present application further provides a method for resource allocation. The embodiment is used to support a UE with a PDSCH or a PUSCH bandwidth of 5 MHz. The method uses PRB as a resource unit allocated by resources. A resource allocation method using a starting point combined with a length. The resource block allocation information of this embodiment does not indicate a forbidden resource.

在本实施例中，所述资源块分配信息用于指示所述网络设备分配的起始资源单位以及连续资源单位的个数，所述资源单位为PRB；所述资源块分配信息指示的所述网络设备为所述终端分配的资源由所述网络设备从可选资源中选取，所述可选资源为从所有资源中删除禁选资源后的资源。In this embodiment, the resource block allocation information is used to indicate a starting resource unit and a number of consecutive resource units allocated by the network device, where the resource unit is a PRB, and the resource block allocation information indicates the The resources allocated by the network device to the terminal are selected by the network device from the optional resources, and the optional resources are resources after the forbidden resources are deleted from all the resources.

在现有LTE系统中，对下行资源分配，起点结合长度的资源分配方式以PRB为粒度，为类型2 Type 2资源分配方式；对于上行资源分配，起点结合长度的资源分配方式以PRB为粒度，为类型0 Type 0资源分配方式。实施例类似于现有LTE系统中Type 2或者Type 0的资源分配方式。所述资源块分配信息的每个二进制比特串对应的RIV值表示分配资源的起始PRB和分配连续的PRB的个数。In the existing LTE system, the resource allocation mode of the downlink resource allocation and the starting point combined length is in the PRB granularity, and is thetype 2Type 2 resource allocation mode; for the uplink resource allocation, the resource allocation mode of the starting point combined length is PRB granularity. Thetype 0Type 0 resource allocation method. The embodiment is similar to the resource allocation mode ofType 2 orType 0 in the existing LTE system. The RIV value corresponding to each binary bit string of the resource block allocation information indicates the starting PRB of the allocated resource and the number of consecutive PRBs allocated.

在本实施例中，所述所有资源为起始PRB是系统带宽内的任一PRB，分配连续的PRB的个数是1～系统带宽内的PRB个数中的一种。所述禁选资源为从第一起始资源单位开始的连续P个资源单位。In this embodiment, the all the resources are any PRBs in the system bandwidth, and the number of consecutive PRBs allocated is one of the number of PRBs in the system bandwidth. The forbidden resource is a consecutive P resource units starting from a first starting resource unit.

在一种具体方式中，实施例最多分配24个PRB。这种实施方式应用于PDSCH或者PUSCH的资源分配。In one specific manner, the embodiment allocates up to 24 PRBs. This embodiment is applied to the resource allocation of the PDSCH or PUSCH.

可选的，当所述网络设备和所述终端通信的系统带宽为10MHz、15MHz、20MHz，所述第一起始资源单位包括系统带宽中的所有PRB并且P大于24。可选的，当所述网络设备和所述终端通信的系统带宽是20MHz时，所述第一起始资源单位还包括系统带宽内的PRB索引是奇数或者偶数的PRB并且P等于1，以及所述第一起始资源单位还包括系统带宽内的PRB索引是X的PRB并且P等于2；其中，X取[0，99]中的26个不同值。Optionally, when the system bandwidth of the network device and the terminal communicates is 10 MHz, 15 MHz, and 20 MHz, the first starting resource unit includes all PRBs in the system bandwidth and P is greater than 24. Optionally, when the network bandwidth of the network device and the terminal communicates is 20 MHz, the first starting resource unit further includes: the PRB index in the system bandwidth is an odd or even PRB and the P is equal to 1, and the The first starting resource unit further includes a PRB index within the system bandwidth that is a PRB of X and P equals 2; wherein X takes 26 different values in [0, 99].

可选的，当所述网络设备和所述终端通信的系统带宽为20MHz时，所述第一起始资源单位包括系统带宽中的所有PRB并且P大于23；当所述网络设备和所述终端通信的系统带宽为10MHz或者15MHz时，所述第一起始资源单位包括系统带宽中的所有PRB并且P大于24。Optionally, when the system bandwidth of the network device and the terminal communicates is 20 MHz, the first starting resource unit includes all PRBs in the system bandwidth and P is greater than 23; when the network device communicates with the terminal When the system bandwidth is 10 MHz or 15 MHz, the first starting resource unit includes all PRBs in the system bandwidth and P is greater than 24.

本实施例的一种具体方式的资源分配的分配方法数和资源块分配信息的比特数如下表3所示。The number of allocation methods of resource allocation and the number of bits of resource block allocation information in a specific mode of this embodiment are as shown in Table 3 below.

表3：table 3:

在另一种具体方式中，实施例最多分配25个PRB。这种实施方式应用于PUSCH的资源分配。In another specific manner, the embodiment allocates up to 25 PRBs. This embodiment is applied to the resource allocation of the PUSCH.

可选的，当所述网络设备和所述终端通信的系统带宽为10MHz、15MHz、20MHz，所述第一起始资源单位包括系统带宽中的所有PRB并且P大于25。可选的，所述网络设备和所述终端通信的系统带宽为20MHz时，所述第一起始资源单位还包括系统带宽中的所有PRB并且P等于1，以及所述第一起始资源单位还包括系统带宽内的PRB索引是Y的PRB并且P等于2；其中，Y取[0，99]内的52个不同值。Optionally, when the system bandwidth of the network device and the terminal communicates is 10 MHz, 15 MHz, and 20 MHz, the first starting resource unit includes all PRBs in the system bandwidth and P is greater than 25. Optionally, when the system bandwidth of the network device and the terminal is 20 MHz, the first starting resource unit further includes all PRBs in the system bandwidth and P is equal to 1, and the first starting resource unit further includes The PRB index within the system bandwidth is the PRB of Y and P is equal to 2; where Y takes 52 different values within [0, 99].

可选的，当所述网络设备和所述终端通信的系统带宽为20MHz时，所述第一起始资源单位包括系统带宽中的所有PRB并且P大于23；当系统带宽是10MHz或者15MHz时，所述第一起始资源单位包括系统带宽中的所有PRB并且P大于25。Optionally, when the system bandwidth of the network device and the terminal communicates is 20 MHz, the first starting resource unit includes all PRBs in the system bandwidth and P is greater than 23; when the system bandwidth is 10 MHz or 15 MHz, The first starting resource unit includes all PRBs in the system bandwidth and P is greater than 25.

本实施例的另一种具体方式的资源分配的分配方法数和资源块分配信息的比特数如下表4。The number of allocation methods of resource allocation and the number of bits of resource block allocation information in another specific mode of this embodiment are as shown in Table 4 below.

表4：Table 4:

本申请一实施例还提供一种资源分配的方法，本实施例用于支持PDSCH或PUSCH带宽是5MHz的UE。在本实施例中，所述资源块分配信息用于指示分配的窄带，以及在所述分配的窄带内分配的PRB；存在所述资源块分配信息的比特的状态所指示的分配的窄带个数大于1，在所述分配的窄带中的每个窄带内分配的PRB都相同。本实施例的资源块分配信息不指示禁选资源。即所述资源块分配信息指示的所述网络设备为所述终端分配的资源由所述网络设备从可选资源中选取，所述可选资源为从所有资源中删除禁选资源后的资源。An embodiment of the present application further provides a method for resource allocation. The embodiment is used to support a UE with a PDSCH or a PUSCH bandwidth of 5 MHz. In this embodiment, the resource block allocation information is used to indicate an allocated narrowband, and a PRB allocated in the allocated narrowband; and an allocated narrowband number indicated by a state of a bit of the resource block allocation information Above 1, the PRBs allocated in each of the narrowband of the assigned narrowband are the same. The resource block allocation information of this embodiment does not indicate a forbidden resource. That is, the resource allocated by the network device to the terminal indicated by the resource block allocation information is selected by the network device from an optional resource, and the optional resource is a resource after deleting the forbidden resource from all resources.

所述资源块分配信息用于指示分配的窄带的具体方式一是所述资源块分配信息用于指示起始窄带索引，以及所述起始窄带之后的连续3个窄带中的每个窄带是否分配资源。若起始窄带索引是i，所述起始窄带之后的连续3个窄带是指窄带索引是i+1、i+2、i+3的3个窄带。The specific manner of the resource block allocation information for indicating the allocated narrowband is that the resource block allocation information is used to indicate a starting narrowband index, and whether each narrowband of the consecutive three narrowbands after the initial narrowband is allocated Resources. If the starting narrowband index is i, the consecutive three narrowbands after the initial narrowband means that the narrowband index is three narrowbands of i+1, i+2, i+3.

设系统带宽中包含N个窄带，索引分别是0～N-1。本实施例中所述起始窄带索引所有可能有N种。Let the system bandwidth contain N narrow bands, and the indexes are 0 to N-1 respectively. All of the initial narrowband indices described in this embodiment may have N types.

指示所述起始窄带之后的连续3个窄带中的每个窄带是否分配资源的所有可能共有8种。默认起始窄带分配资源。具体方式一应用于例如PDSCH。There are a total of eight possible combinations of whether each narrow band of the consecutive three narrow bands after the initial narrow band is allocated resources. The default starting narrowband allocates resources. The specific method is applied to, for example, a PDSCH.

所述资源块分配信息用于指示分配的窄带的具体方式二是所述资源块分配信息用于指示起始窄带索引，以及分配窄带的个数。可以分配1～4个窄带。分配的窄带是从所述起始窄带索引表示的窄带开始的连续窄带。具体方式二应用于例如PUSCH。The specific manner of the resource block allocation information for indicating the allocated narrowband is that the resource block allocation information is used to indicate the initial narrowband index, and the number of narrowband allocations is allocated. It can be assigned 1 to 4 narrow bands. The assigned narrow band is a continuous narrow band starting from the narrow band indicated by the starting narrow band index. Thespecific method 2 is applied to, for example, a PUSCH.

所述资源块分配信息用于指示分配的窄带的具体方式三是所述资源块分配信息用于指示起始窄带索引以及从所述起始窄带开始的连续4个窄带中分配的窄带起点和个数。即在从起始窄带开始的连续4个窄带中，采用起点结合长度的指示方式，以窄带为粒度。共有4+3+2+1＝10种可能性。若起始窄带索引是i，所述从起始窄带开始的连续4个窄带是指窄带索引是i、i+1、i+2、i+3的4个窄带。Thespecific mode 3 of the resource block allocation information used to indicate the allocated narrowband is that the resource block allocation information is used to indicate a starting narrowband index and a narrowband starting point and a plurality of consecutive four narrowbands starting from the starting narrowband. number. That is, in the four consecutive narrow bands starting from the initial narrow band, the indication of the starting point combined length is adopted, and the narrow band is used as the granularity. There are 4+3+2+1=10 possibilities. If the starting narrowband index is i, the consecutive four narrowbands starting from the starting narrowband mean that the narrowband index is four narrowbands of i, i+1, i+2, i+3.

以上三种所述资源块分配信息用于指示分配的窄带的具体方式可以应用于任意系统带宽。特别的，以上三种所述资源块分配信息用于指示分配的窄带的具体方式应用于系统带宽＞5MHz。The specific manner in which the above three types of resource block allocation information are used to indicate the allocated narrowband can be applied to any system bandwidth. In particular, the above three types of resource block allocation information are used to indicate the specific manner of the allocated narrowband to be applied to the system bandwidth >5 MHz.

当所述网络设备和所述终端通信的系统带宽为5MHz或者3MHz时，所述资源块分配信息用于指示分配的窄带的具体方式四是所述资源块分配信息用于指示系统带宽内的每个窄带是否分配。5MHz系统带宽有16种可能性；3MHz系统带宽有4种可能性。When the system bandwidth of the network device and the terminal communicates is 5 MHz or 3 MHz, the specific manner of the resource block allocation information for indicating the allocated narrowband is that the resource block allocation information is used to indicate each of the system bandwidths. Whether the narrow bands are allocated. There are 16 possibilities for 5MHz system bandwidth; there are 4 possibilities for 3MHz system bandwidth.

当所述网络设备和所述终端通信的系统带宽为5MHz或者3MHz时，所述资源块分配信息用于指示分配的窄带的具体方式五是所述资源块分配信息用于指示分配窄带的个数。指示分配的窄带以索引是0的窄带为起始。5MHz系统带宽有4种可能性。3MHz系统带宽有2种可能性。When the system bandwidth of the network device and the terminal is 5 MHz or 3 MHz, the specific manner of the resource block allocation information for indicating the allocated narrowband is that the resource block allocation information is used to indicate the number of narrowband allocations. . The narrow band indicating the allocation starts with a narrow band whose index is 0. There are 4 possibilities for 5MHz system bandwidth. There are 2 possibilities for 3MHz system bandwidth.

当所述网络设备和所述终端通信的系统带宽为5MHz或者3MHz时，所述资源块分配信息用于指示分配的窄带的具体方式六是所述资源块分配信息用于指示分配的窄带起点和个数。即指示分配的窄带采用起点结合长度的指示方式，以窄带为粒度。5MHz系统带宽有10种可能性。3MHz系统带宽有3种可能性。When the system bandwidth of the network device and the terminal communicates is 5 MHz or 3 MHz, the specific manner of the resource block allocation information for indicating the allocated narrowband is that the resource block allocation information is used to indicate the allocated narrowband starting point and Number. That is, the narrow band indicating the allocation is indicated by the starting point combined length, and the narrow band is used as the granularity. There are 10 possibilities for 5MHz system bandwidth. There are 3 possibilities for 3MHz system bandwidth.

需要说明的是，在以上所述资源块分配信息用于指示分配的窄带的具体方式中，所列出的可能性是所有资源分配方法的可能性，并未删除禁选资源的分配方法。It should be noted that, in the specific manner in which the foregoing resource block allocation information is used to indicate the allocated narrowband, the listed possibility is the possibility of all resource allocation methods, and the allocation method of the forbidden resource is not deleted.

所述资源块分配信息用于指示在所述分配的窄带内分配的PRB的具体方式一是所述资源块分配信息用于指示在窄带内分配的起始PRB和PRB个数。即采用起点结合长度的资源分配方式，以PRB为资源单位。类似现有DCI格式6-0A或6-1A窄带内的资源分配，所有资源分配方法共有21种。起始窄带以及起始窄带之后的连续3个窄带中每个窄带内的资源分配方法都相同。The specific manner of the resource block allocation information for indicating the PRB allocated in the allocated narrowband is that the resource block allocation information is used to indicate the number of starting PRBs and PRBs allocated in the narrowband. That is to say, the resource allocation method with the starting point combined with the length is adopted, and the PRB is used as the resource unit. Similar to the resource allocation in the narrow band of the existing DCI format 6-0A or 6-1A, there are 21 resource allocation methods in total. The resource allocation method in each narrow band of the initial narrow band and the consecutive three narrow bands after the initial narrow band is the same.

所述资源块分配信息用于指示在所述分配的窄带内分配的PRB的具体方式二是当所述资源块分配信息所指示的分配的窄带个数M为1时，所述资源块分配信息用于指示在窄带内分配的起始PRB和PRB个数。即采用类似现有DCI格式6-0A或6-1A起点结合长度的窄带内的资源分配。当所述资源块分配信息所指示的分配的窄带个数M大于1时，所述资源块分配信息用于指示在所分配的窄带中索引最大或者最小的窄带内分配的PRB的个数，其余M-1个窄带内的PRB全部分配。其中索引最大或者最小的一个窄带内分配的PRB与其余窄带中分配的PRB构成连续的PRB。所述资源块分配信息用于指示在所述分配的窄带内分配的PRB的具体方式二应用于例如PUSCH。该具体方式二保证了分配的资源是连续的。Thespecific mode 2 of the resource block allocation information used to indicate the PRB allocated in the allocated narrowband is that when the allocated narrowband number M indicated by the resource block allocation information is 1, the resource block allocation information Used to indicate the number of starting PRBs and PRBs allocated within the narrowband. That is, resource allocation within a narrow band similar to the existing DCI format 6-0A or 6-1A starting point combined length is used. When the number of allocated narrowbands M indicated by the resource block allocation information is greater than 1, the resource block allocation information is used to indicate the number of PRBs allocated in the narrowest band with the largest or smallest index in the allocated narrowband, and the rest The PRBs in the M-1 narrow bands are all allocated. The PRB allocated in one narrowband with the largest or smallest index and the PRB allocated in the remaining narrowband constitute a continuous PRB. Thespecific mode 2 of the resource block allocation information used to indicate the PRB allocated in the allocated narrowband is applied to, for example, a PUSCH. Thespecific mode 2 ensures that the allocated resources are continuous.

本实施例中，所述资源块分配信息用于指示分配的窄带，以及在所述分配的窄带内分配的PRB可以由不同的二进制比特串分别指示。也可以由一个二进制比特串对应的RIV值来表示所述分配的窄带和在所述分配的窄带内分配的PRB。In this embodiment, the resource block allocation information is used to indicate the allocated narrowband, and the PRBs allocated in the allocated narrowband may be respectively indicated by different binary bit strings. The assigned narrowband and the PRB allocated within the allocated narrowband may also be represented by a RIV value corresponding to a binary bit string.

所述禁选资源包括以下第一禁选资源、第二禁选资源、第三禁选资源、第四禁选资源、第五禁选资源、第六禁选资源中的一种或多种：The forbidden resource includes one or more of the following first forbidden resource, second forbidden resource, third forbidden resource, fourth forbidden resource, fifth forbidden resource, and sixth forbidden resource:

第一禁选资源包括所述网络设备和所述终端通信的系统带宽大于等于5MHz时，起始窄带索引是所有窄带索引的最大值、第二大值或第三大值中的一个。When the first forbidden resource includes a system bandwidth of the network device and the terminal communicating, which is greater than or equal to 5 MHz, the initial narrowband index is one of a maximum value, a second largest value, or a third largest value of all narrowband indexes.

第二禁选资源包括窄带内分配的PRB个数是1。The second forbidden resource includes the number of PRBs allocated in the narrowband is 1.

第三禁选资源包括窄带内分配的PRB个数是1和2。The third forbidden resource includes the number of PRBs allocated in the narrowband is 1 and 2.

第四禁选资源包括窄带内分配的PRB个数是1和2，以及窄带内分配的起始PRB是索引S的PRB、PRB个数是3；其中S是窄带内的PRB索引，S取[0，3]内的2个不同值。特别的，S取1和2。The fourth forbidden resource includes the number of PRBs allocated in the narrowband is 1 and 2, and the initial PRB allocated in the narrowband is the PRB of the index S, and the number of PRBs is 3; where S is the PRB index in the narrowband, and S is taken [ 2 different values within 0,3]. In particular, S takes 1 and 2.

第五禁选资源包括所述网络设备和所述终端通信的系统带宽大于5MHz时，起始窄带索引是小于等于N-4的自然数，并且窄带内分配的PRB个数是1和2；以及所述起始窄带索引是N-4，窄带内分配的起始PRB是索引S的PRB、PRB个数是3；以及起始窄带索引是N-3、N-2、N-1中的一个；其中S是窄带内的PRB索引，S取[0，3]内的2个不同值，N是系统带宽中包含的窄带的个数。特别的，S取1和2。When the fifth forbidden resource includes a system bandwidth of the network device and the terminal communicating greater than 5 MHz, the initial narrowband index is a natural number less than or equal to N-4, and the number of PRBs allocated in the narrowband is 1 and 2; The initial narrowband index is N-4, the initial PRB allocated in the narrowband is the PRB of the index S, the number of PRBs is 3; and the initial narrowband index is one of N-3, N-2, N-1; Where S is the PRB index in the narrow band, S takes two different values in [0, 3], and N is the number of narrow bands included in the system bandwidth. In particular, S takes 1 and 2.

表5示例了当系统带宽＞5MHz时，采用指示分配的窄带的具体方式一，指示在所述分配的窄带内分配的PRB的具体方式一，所述禁选资源包括第四(第五)禁选资源时，资源分配可能的方法数和资源块分配信息采用的比特数。Table 5 exemplifies aspecific mode 1 of indicating a PRB allocated in the narrow band of the allocation when the system bandwidth is >5 MHz, and aspecific mode 1 indicating a narrow band allocated in the narrow band, the forbidden resource includes a fourth (fifth) forbidden When selecting a resource, the number of possible methods for resource allocation and the number of bits used for resource block allocation information.

表5：table 5:

表6示例了当系统带宽＞5MHz时，采用指示分配的窄带的具体方式二，指示在所述分配的窄带内分配的PRB的具体方式二，所述禁选资源包括第六禁选资源时，资源分配可能的方法数和资源块分配信息采用的比特数。当系统带宽为5MHz或者3MHz时，指示分配的窄带采用具体方式六，指示在所述分配的窄带内分配的PRB的采用具体方式二，资源分配可能的方法数和资源块分配信息采用的比特数也如下表所示。表4：Table 6 exemplifies a specific mode 2 of indicating a PRB allocated in the narrowband of the allocation when the system bandwidth is >5 MHz, and the specific mode 2 of the PRB allocated in the allocated narrowband, where the forbidden resource includes the sixth forbidden resource, The number of possible methods for resource allocation and the number of bits used for resource block allocation information. When the system bandwidth is 5MHz or 3MHz, the narrowband of the indication is indicated.In a specific manner six, the specific mode 2 of indicating the PRB allocated in the allocated narrowband, the number of possible methods for resource allocation and the number of bits used for resource block allocation information are also shown in the following table. Table 4:

参阅图6，图6为本申请提供的一种终端60，该终端具体可以为：手机、个人数字助理、平板电脑等设备，该终端如图6所示，包括：Referring to FIG. 6 , FIG. 6 is a terminal 60 provided by the present application. The terminal may be specifically: a mobile phone, a personal digital assistant, a tablet computer, and the like. The terminal is as shown in FIG. 6 and includes:

收发单元601，用于接收网络设备发送的资源块分配信息，所述资源块分配信息用于指示所述网络设备为所述终端分配的资源；所述网络设备为所述终端分配的资源由所述网络设备从可选资源中选取，所述可选资源为从所有资源中删除禁选资源后的资源；Thetransceiver unit 601 is configured to receive resource block allocation information that is sent by the network device, where the resource block allocation information is used to indicate resources allocated by the network device to the terminal, and the resource allocated by the network device to the terminal is The network device is selected from the optional resources, where the optional resource is a resource after deleting the forbidden resource from all resources;

处理单元602，用于根据所述资源块分配信息，确定所述网络设备分配的第一资源；Theprocessing unit 602 is configured to determine, according to the resource block allocation information, the first resource allocated by the network device;

收发单元601，还用于在所述第一资源发送或接收信息。Thetransceiver unit 601 is further configured to send or receive information on the first resource.

如图6所示的实施例中的技术术语、细化方案以及技术效果可以参见如图3、图4、图5所示实施例的描述，这里不再赘述。For the technical terms, the refinement scheme, and the technical effects in the embodiment shown in FIG. 6, reference may be made to the description of the embodiment shown in FIG. 3, FIG. 4, and FIG. 5, and details are not described herein again.

参阅图7，图7为本申请提供的一种网络设备700，该网络设备具体可以为：手机、平板电脑、中继器、路由器、基站等设备，该网络设备700包括：Referring to FIG. 7, FIG. 7 is a network device 700, which may be: a mobile phone, a tablet, a repeater, a router, a base station, etc., and the network device 700 includes:

收发单元701，用于向终端发送资源块分配信息，以使所述终端根据所述资源块分配信息确定所述网络设备分配的第一资源；所述资源块分配信息用于指示所述网络设备为所述终端分配的资源；Thetransceiver unit 701 is configured to send the resource block allocation information to the terminal, so that the terminal determines, according to the resource block allocation information, the first resource allocated by the network device; the resource block allocation information is used to indicate the network device Resources allocated for the terminal;

处理单元702，用于为所述终端分配的资源由所述处理单元从可选资源中选取，所述可选资源为从所有资源中删除禁选资源后的资源；Theprocessing unit 702, the resource used for the terminal is selected by the processing unit from the optional resource, where the optional resource is a resource after deleting the forbidden resource from all the resources;

收发单元701，还用于在所述第一资源向所述终端发送信息或接收所述终端发送的信息。Thetransceiver unit 701 is further configured to send information to the terminal or receive information sent by the terminal at the first resource.

如图7所示的实施例中的技术术语、细化方案以及技术效果可以参见如图3、图4、图5所示实施例的描述，这里不再赘述。For the technical terms, the refinement scheme, and the technical effects in the embodiment shown in FIG. 7, reference may be made to the description of the embodiment shown in FIG. 3, FIG. 4, and FIG. 5, and details are not described herein again.

参阅图8，图8为一种终端80，包括：处理器801、收发器802和存储器803，处理器801、存储器803和收发器802之间建立有通信连接。在通过软件来实现本申请提供的资源分配方法方案时，程序代码可以保存在存储器803中，并由处理器801来执行。终端80可以用于执行图3、图4或图5中终端的步骤。关于本实施例涉及的术语的含义以及举例，可以参考图3、图4或图5对应的实施例。此处不再赘述。Referring to FIG. 8, FIG. 8 is a terminal 80 including aprocessor 801, a transceiver 802, and amemory 803. A communication connection is established between theprocessor 801, thememory 803, and the transceiver 802. When the resource allocation method scheme provided by the present application is implemented by software, the program code may be stored in thememory 803 and executed by theprocessor 801. The terminal 80 can be used to perform the steps of the terminal in FIG. 3, FIG. 4 or FIG. For the meaning and examples of the terms involved in the embodiment, reference may be made to the embodiment corresponding to FIG. 3, FIG. 4 or FIG. I will not repeat them here.

收发器802，用于接收网络设备发送的资源块分配信息，所述资源块分配信息用于指示所述网络设备为所述终端分配的资源；所述网络设备为所述终端分配的资源由所述网络设备从可选资源中选取，所述可选资源为从所有资源中删除禁选资源后的资源。The transceiver 802 is configured to receive resource block allocation information that is sent by the network device, where the resource block allocation information is used to indicate resources allocated by the network device to the terminal, and the resource allocated by the network device to the terminal is The network device is selected from the optional resources, and the optional resource is a resource after the banned resource is deleted from all the resources.

其中，存储器803中存储程序代码。处理器801用于调用存储器803中存储的程序代码，用于执行以下操作：The program code is stored in thememory 803. Theprocessor 801 is configured to call the program code stored in thememory 803 to perform the following operations:

处理器801，用于根据所述资源块分配信息，确定所述网络设备分配的第一资源；Theprocessor 801 is configured to determine, according to the resource block allocation information, a first resource allocated by the network device;

收发器802，用于在所述第一资源发送或接收信息。The transceiver 802 is configured to send or receive information at the first resource.

需要说明的是，这里的处理器801可以是一个处理元件，也可以是多个处理元件的统称。例如，该处理元件可以是中央处理器(Central Processing Unit，CPU)，也可以是特定集成电路(Application Specific Integrated Circuit，ASIC)，或者是被配置成实施本申请实施例的一个或多个集成电路，例如：一个或多个微处理器(digital singnal processor，DSP)，或，一个或者多个现场可编程门阵列(Field Programmable Gate Array，FPGA)。It should be noted that theprocessor 801 herein may be a processing component or a general term of multiple processing components. For example, the processing component may be a central processing unit (CPU), an application specific integrated circuit (ASIC), or one or more integrated circuits configured to implement the embodiments of the present application. For example, one or more digital singal processors (DSPs), or one or more Field Programmable Gate Arrays (FPGAs).

存储器803可以是一个存储装置，也可以是多个存储元件的统称，且用于存储可执行程序代码或应用程序运行装置运行所需要参数、数据等。且存储器803可以包括随机存储器(RAM)，也可以包括非易失性存储器(non-volatile memory)，例如磁盘存储器，闪存(Flash)等。Thememory 803 may be a storage device or a collective name of a plurality of storage elements, and is used to store executable program code or parameters, data, and the like required for the application running device to operate. And thememory 803 may include random access memory (RAM), and may also include non-volatile memory such as a magnetic disk memory, a flash memory, or the like.

该终端还可以包括输入输出装置，与处理器801等其它部分连接。该输入输出装置可以为操作人员提供一输入界面，以便操作人员通过该输入界面选择布控项，还可以是其它接口，可通过该接口外接其它设备。The terminal may further include input and output means, and is connected to other parts such as theprocessor 801. The input/output device can provide an input interface for the operator, so that the operator can select the control item through the input interface, and can also be other interfaces through which other devices can be externally connected.

参阅图9，图9为一种网络设备90，包括：处理器901、收发器902和存储器903，处理器901、存储器903和收发器902之间建立有通信连接。在通过软件来实现本申请提供的资源分配方法方案时，程序代码可以保存在存储器903中，并由处理器901来执行。网络设备90可以用于执行图3、图4或图5中网络设备的步骤。关于本实施例涉及的术语的含义以及举例，可以参考图3、图4或图5对应的实施例。此处不再赘述。Referring to FIG. 9, FIG. 9 is a network device 90 including aprocessor 901, a transceiver 902, and amemory 903. A communication connection is established between theprocessor 901, thememory 903, and the transceiver 902. When the resource allocation method scheme provided by the present application is implemented by software, the program code may be saved in thememory 903 and executed by theprocessor 901. Network device 90 may be used to perform the steps of the network device of Figures 3, 4 or 5. For the meaning and examples of the terms involved in the embodiment, reference may be made to the embodiment corresponding to FIG. 3, FIG. 4 or FIG. I will not repeat them here.

收发器902，用于向终端发送资源块分配信息，以使所述终端根据所述资源块分配信息确定所述网络设备分配的第一资源；所述资源块分配信息用于指示所述网络设备为所述终端分配的资源。The transceiver 902 is configured to send the resource block allocation information to the terminal, so that the terminal determines, according to the resource block allocation information, the first resource allocated by the network device; the resource block allocation information is used to indicate the network device The resources allocated for the terminal.

其中，存储器903中存储程序代码。处理器901用于调用存储器903中存储的程序代码，用于执行以下操作：The program code is stored in thememory 903. Theprocessor 901 is configured to call the program code stored in thememory 903 for performing the following operations:

处理器901，用于为所述终端分配的资源由所述处理单元从可选资源中选取，所述可选资源为从所有资源中删除禁选资源后的资源；Theprocessor 901, the resource allocated for the terminal is selected by the processing unit from an optional resource, where the optional resource is a resource after deleting the forbidden resource from all resources;

收发器902，用于在所述第一资源向所述终端发送信息或接收所述终端发送的信息。The transceiver 902 is configured to send information to the terminal or receive information sent by the terminal at the first resource.

需要说明的是，这里的处理器901可以是一个处理元件，也可以是多个处理元件的统称。例如，该处理元件可以是中央处理器(Central Processing Unit，CPU)，也可以是特定集成电路(Application Specific Integrated Circuit，ASIC)，或者是被配置成实施本申请实施例的一个或多个集成电路，例如：一个或多个微处理器(digital singnal processor，DSP)，或，一个或者多个现场可编程门阵列(Field Programmable Gate Array，FPGA)。It should be noted that theprocessor 901 herein may be a processing component or a general term of multiple processing components. For example, the processing component may be a central processing unit (CPU), an application specific integrated circuit (ASIC), or one or more integrated circuits configured to implement the embodiments of the present application. For example, one or more digital singal processors (DSPs), or one or more Field Programmable Gate Arrays (FPGAs).

存储器903可以是一个存储装置，也可以是多个存储元件的统称，且用于存储可执行程序代码或应用程序运行装置运行所需要参数、数据等。且存储器903可以包括随机存储器(RAM)，也可以包括非易失性存储器(non-volatile memory)，例如磁盘存储器，闪存(Flash)等。Thememory 903 may be a storage device or a collective name of a plurality of storage elements, and is used to store executable program code or parameters, data, and the like required for the application running device to operate. And thememory 903 may include random access memory (RAM), and may also include non-volatile memory such as a magnetic disk memory, a flash memory, or the like.

该终端还可以包括输入输出装置，与处理器901等其它部分连接。该输入输出装置可以为操作人员提供一输入界面，以便操作人员通过该输入界面选择布控项，还可以是其它接口，可通过该接口外接其它设备。The terminal may further include input and output means, and is connected to other parts such as theprocessor 901. The input/output device can provide an input interface for the operator, so that the operator can select the control item through the input interface, and can also be other interfaces through which other devices can be externally connected.

本领域普通技术人员可以理解实现上述实施例方法中的全部或部分流程，是可以通过计算机程序来指令相关的硬件来完成，所述的程序可存储于一计算机可读取存储介质中，该程序在执行时，可包括如上述各方法的实施例的流程。其中，所述的存储介质可为磁碟、光盘、只读存储记忆体(Read-Only Memory，ROM)或随机存储记忆体(Random Access Memory，RAM)等。One of ordinary skill in the art can understand that all or part of the process of implementing the foregoing embodiments can be completed by a computer program to instruct related hardware, and the program can be stored in a computer readable storage medium. When executed, the flow of an embodiment of the methods as described above may be included. The storage medium may be a magnetic disk, an optical disk, a read-only memory (ROM), or a random access memory (RAM).

以上所揭露的仅为本申请一种较佳实施例而已，当然不能以此来限定本申请之权利范围，本领域普通技术人员可以理解实现上述实施例的全部或部分流程，并依本申请权利要求所作的等同变化，仍属于申请所涵盖的范围。The above disclosure is only a preferred embodiment of the present application, and of course, the scope of the application should not be limited thereto, and those skilled in the art can understand all or part of the process of implementing the above embodiments, and the rights of the present application are The equivalent changes required are still within the scope of the application.