技术领域technical field
本发明涉及一种智能家居控制领域,尤其是指一种可更新的红外转发系统及其更新方法。The invention relates to the field of smart home control, in particular to an updateable infrared forwarding system and an update method thereof.
背景技术Background technique
现有红外转发器主要运用两种红外控制技术的设备。The existing infrared transponder mainly uses two kinds of infrared control technology equipment.
一种是万能红外转发器,其通过预先将红外遥控载波与编码信息存储在红外转发器内,从而在需要使用的时候通过设置选定对应要遥控设备的上述红外遥控载波与编码信息后实现对其预设部分的电器进行遥控控制。One is a universal infrared transponder, which stores the infrared remote control carrier and code information in the infrared transponder in advance, so that when it needs to be used, the infrared remote control carrier and code information corresponding to the remote control device can be selected to realize the remote control. The electric appliances of its preset part are controlled by remote control.
第二种是学习型红外转发器,其可以通过切换进入“学习模式”,从而与电器本身遥控器的对码,以学习该遥控器对应操控的红外遥控载波与编码信息并保存,而后当退出“学习模式”后,以学习到保存的红外遥控载波与编码信息以实现对电器的对应操控控制。The second is a learning infrared transponder, which can enter the "learning mode" by switching to code pairing with the remote control of the electrical appliance itself, so as to learn and save the infrared remote control carrier and code information corresponding to the remote control, and then when exiting After the "Learning Mode", learn the stored infrared remote control carrier and code information to realize the corresponding control of the electrical appliances.
然而上述两种现有的红外控制技术的设备均存在一定缺陷,其体现在:Yet all there is certain defect in the equipment of above-mentioned two kinds of existing infrared control technologies, it is reflected in:
1、对应万能型红外转发器而言,处于成本的考虑,其自身存储器容量有限,因此存储的红外遥控载波与编码信息数量较少,往往只能针对一些主流的受控设备进行预设置,而在电器产品种类繁多的今天,显然其应用往往无法适应大量不同电器的控制需求。1. For the universal infrared transponder, due to cost considerations, its own memory capacity is limited, so the number of stored infrared remote control carrier and code information is small, and it can only be pre-set for some mainstream controlled devices. Today, with a wide variety of electrical products, it is obvious that its application often cannot meet the control requirements of a large number of different electrical appliances.
2、而对应学习型遥控器,则存在设备的学习过程比较复杂,操作困难且学习成功率低,最终应用中往往也只能实现对部分电器的控制,无法适应市场的需求。2. For the learning remote control, the learning process of the equipment is complicated, the operation is difficult and the success rate of learning is low, and the final application can only realize the control of some electrical appliances, which cannot meet the needs of the market.
此外,现有的红外转发器与控制终端的通讯往往采用RF或者WIFI技术实现,其中使用RF技术(433MHz等)的通信存在串网、通信安全性差、组网方式不灵活、网络健壮性差等问题。而使用WIFI技术实现通信则存在设备成本高,功耗大等问题。In addition, the communication between the existing infrared transponder and the control terminal is often realized by RF or WIFI technology, and the communication using RF technology (433MHz, etc.) has problems such as serial network, poor communication security, inflexible networking mode, and poor network robustness. . However, using WIFI technology to realize communication has problems such as high equipment cost and high power consumption.
发明内容Contents of the invention
本发明的目的在于克服了上述缺陷,提供一种可更新的红外转发系统及其更新方法。The object of the present invention is to overcome the above-mentioned defects, and provide an updateable infrared forwarding system and an updating method thereof.
本发明的目的是这样实现的:一种可更新的红外转发系统,它包括,The purpose of the present invention is achieved like this: a kind of updateable infrared transmission system, it comprises,
红外转发器,用于在检测到待适配红外遥控器的控制信号后,收集红外信号特征并查询自身是否存在对应该红外信号特征的红外控制载波及编码信息,若存在则调用上述信息,实现对受控设备的控制;若不存在则将收集的红外信号特征上传至控制主机,等待其反馈对应该特征的红外控制载波编码信息并于自身存储后实现对受控设备的控制;The infrared transponder is used to collect the infrared signal characteristics after detecting the control signal of the infrared remote controller to be adapted, and inquire whether there is an infrared control carrier and encoding information corresponding to the infrared signal characteristics, and if it exists, call the above information to realize Control the controlled equipment; if it does not exist, upload the collected infrared signal characteristics to the control host, wait for its feedback of the infrared control carrier code information corresponding to the characteristics, and realize the control of the controlled equipment after storing it by itself;
控制主机,用于接收来自红外转发器上传的红外信号特征后,向服务器请求符合该红外信号特征的红外控制载波及编码信息,若服务器返回对应红外控制载波及编码信息则将其转发至对应上传的红外转发器;The control host is used to request the infrared control carrier and encoding information from the server after receiving the infrared signal characteristics uploaded from the infrared transponder. If the server returns the corresponding infrared control carrier and encoding information, it will be forwarded to the corresponding uploader. Infrared transponder;
服务器,用于接收来自控制主机的请求,根据红外信号特征查询对应红外控制载波及编码信息后传送至控制主机;The server is used to receive the request from the control host, query the corresponding infrared control carrier and encoding information according to the characteristics of the infrared signal, and then send it to the control host;
智能控制终端,用于向红外转发器发送受控设备的控制指令,红外转发器根据控制指令所对应的红外控制载波及编码信息发出红外信号实现对受控设备的控制;The intelligent control terminal is used to send the control command of the controlled device to the infrared transponder, and the infrared transponder sends out an infrared signal according to the infrared control carrier and coded information corresponding to the control command to realize the control of the controlled device;
异构网关,用于接收来自控制主机发向服务器的请求后转换为广域网通讯发送至服务器,接收到服务器传送的红外控制载波及编码信息后进行信息转化后发送至控制主机的步骤;The heterogeneous gateway is used to receive the request sent from the control host to the server and then convert it into wide area network communication and send it to the server. After receiving the infrared control carrier and encoding information transmitted by the server, the information is converted and then sent to the control host;
上述结构中,所述控制主机通过Zigbee网络与红外转发器通讯,所述控制主机通过串口与异构网关通讯,异构网关通过TCP/IP网络与服务器通讯。In the above structure, the control host communicates with the infrared transponder through the Zigbee network, the control host communicates with the heterogeneous gateway through the serial port, and the heterogeneous gateway communicates with the server through the TCP/IP network.
上述结构中,所述服务器设置于远端,所述控制主机与红外转发器设置与本地端;所述红外转发器包括多个,多个红外转发器通过内网与控制主机通讯;所述控制主机包括多个,多个控制主机与服务器通过广域网通讯;In the above structure, the server is set at the remote end, and the control host and the infrared transponder are set at the local end; the infrared transponder includes multiple, and the plurality of infrared transponders communicate with the control host through the intranet; the control There are multiple hosts, and multiple control hosts communicate with the server through the wide area network;
上述结构中,所述红外转发器包括,红外控制载波与编码信息存储模块,用于将红外控制载波与编码信息存储;通讯模块,用于与控制主机进行数据通讯;红外信号特征收集模块,用于探测待适配红外遥控器的控制信号并对其红外信号特征进行收集;红外发射模块,用于根据调用存储的红外控制载波与编码信息对受控设备的控制;中央处理器,用于将收集的红外信号特征并查询存储模块中是否存在对应该红外信号特征的红外控制载波及编码信息,若存在则调用上述信息,实现对受控设备的控制,若不存在则将收集的红外信号特征上传至控制主机,等待其反馈对应该特征的红外控制载波编码信息后于存储模块中,并实现对受控设备的控制。In the above structure, the infrared transponder includes an infrared control carrier and encoding information storage module for storing the infrared control carrier and encoding information; a communication module for performing data communication with the control host; an infrared signal feature collection module for It is used to detect the control signal of the infrared remote controller to be adapted and collect its infrared signal characteristics; the infrared emission module is used to control the controlled equipment according to the infrared control carrier and code information stored in the call; the central processing unit is used to control the Collect the infrared signal characteristics and inquire whether there is an infrared control carrier and encoding information corresponding to the infrared signal characteristics in the storage module. If it exists, call the above information to realize the control of the controlled device. Upload to the control host, wait for it to feed back the infrared control carrier code information corresponding to the feature, and store it in the storage module, and realize the control of the controlled equipment.
本发明还涉及一种可更新的红外转发系统更新方法,它包括,The present invention also relates to a method for updating an infrared forwarding system, which includes:
A)、红外转发器在检测到待适配红外遥控器的控制信号后,收集红外信号特征并查询自身是否存在对应该红外信号特征的红外控制载波及编码信息,若存在则调用上述信息,实现对受控设备的控制,若不存在则将收集的红外信号特征上传至控制主机,等待其反馈对应该特征的红外控制载波编码信息后于自身存储并实现对受控设备的控制的步骤;A). After the infrared transponder detects the control signal of the infrared remote control to be adapted, it collects the infrared signal characteristics and inquires whether there is an infrared control carrier and encoding information corresponding to the infrared signal characteristics. If it exists, it calls the above information to realize For the control of the controlled device, if it does not exist, upload the collected infrared signal characteristics to the control host, wait for its feedback of the infrared control carrier code information corresponding to the characteristics, and then store it by itself and realize the control of the controlled device;
B)、控制主机接收来自红外转发器上传的红外信号特征后,向服务器请求符合该红外信号特征的红外控制载波及编码信息,若服务器返回对应红外控制载波及编码信息则将其转发至对应上传的红外转发器的步骤;B). After the control host receives the infrared signal characteristics uploaded from the infrared transponder, it requests the server for the infrared control carrier and encoding information that conforms to the infrared signal characteristics. If the server returns the corresponding infrared control carrier and encoding information, it will forward it to the corresponding uploader. The steps of the infrared transponder;
C)、服务器接收来自控制主机的请求,根据红外信号特征查询对应红外控制载波及编码信息后传送至控制主机的步骤;C), the server receives the request from the control host, queries the corresponding infrared control carrier and encoding information according to the characteristics of the infrared signal, and then sends it to the control host;
D)、智能控制终端向红外转发器发送受控设备的控制指令,红外转发器根据控制指令所对应的红外控制载波及编码信息发出红外信号实现对受控设备的控制的步骤;D), the intelligent control terminal sends the control command of the controlled device to the infrared transponder, and the infrared transponder sends out an infrared signal according to the infrared control carrier and coding information corresponding to the control command to realize the control of the controlled device;
上述方法中,所述A的步骤中,红外转发器与控制主机之间通过内网通讯;所述B、C的步骤中,控制主机与服务器之间通过广域网通讯;In the above method, in the step of A, the infrared transponder communicates with the control host through the intranet; in the steps of B and C, the control host communicates with the server through the wide area network;
上述方法中,所述B、C的步骤中,控制主机与服务器之间通过异构网关融合步骤进行广域网通讯,所述异构网关融合步骤包括,接收来自控制主机发向服务器的请求后转换为广域网通讯发送至服务器,接收到服务器传送的红外控制载波及编码信息后进行信息转化后发送至控制主机。In the above method, in the steps of B and C, the control host and the server perform wide area network communication through the heterogeneous gateway fusion step, and the heterogeneous gateway fusion step includes receiving a request from the control host to the server and converting it into The WAN communication is sent to the server, and after receiving the infrared control carrier and coding information transmitted by the server, the information is converted and sent to the control host.
上述方法中,所述A的步骤中具体包括,用于将红外控制载波与编码信息存储在存储模块中的步骤;用于与控制主机进行数据通讯的步骤;用于探测待适配红外遥控器的控制信号并对其红外信号特征进行收集的步骤;用于根据调用存储的红外控制载波与编码信息对受控设备的控制的步骤;用于将收集的红外信号特征并查询存储模块中是否存在对应该红外信号特征的红外控制载波及编码信息,若存在则调用上述信息,实现对受控设备的控制,若不存在则将收集的红外信号特征上传至控制主机,等待其反馈对应该特征的红外控制载波编码信息后于存储模块中,并实现对受控设备的控制的步骤。In the above method, the step of A specifically includes a step for storing the infrared control carrier and encoding information in the storage module; a step for performing data communication with the control host; and a step for detecting the infrared remote controller to be adapted The step of collecting the control signal and its infrared signal characteristics; the step of controlling the controlled device according to the stored infrared control carrier and encoding information; the step of collecting the collected infrared signal characteristics and querying whether there is The infrared control carrier and code information corresponding to the infrared signal feature, if it exists, call the above information to realize the control of the controlled device, if not, upload the collected infrared signal feature to the control host, and wait for its feedback corresponding to the feature The infrared control carrier code information is stored in the storage module, and the steps of controlling the controlled equipment are realized.
相比于常见的红外控制技术,本发明的有益效果在于在碰到自身不具备红外控制载波及编码信息情况下通过控制主机根据红外信号特征向服务器请求对应红外控制载波及编码信息,而后再更新该信息后以实现对受控设备进行控制。解决了传统红外转发器对不同厂家、不同标准的红外控制载波及编码信息收集不足的缺陷,大幅度提高了该无线红外转发器的通用性。此外采用了基于Zigbee技术的内网Zigbee组网的内网及基于TCP/IP技术的外网TCP/IP的外网通讯结合的方式,降低了红外转发器的成本与功耗,增强了本地智能控制网络的健壮性、稳定性、保密性和可扩展性,支持灵活的组网方式及大量无线红外转发器同时接入。Compared with the common infrared control technology, the beneficial effect of the present invention is that in the case that it does not have the infrared control carrier and encoding information, the control host requests the corresponding infrared control carrier and encoding information from the server according to the characteristics of the infrared signal, and then updates This information is used to control the controlled equipment. It solves the defect of insufficient collection of infrared control carrier and coding information of different manufacturers and standards by traditional infrared transponders, and greatly improves the versatility of the wireless infrared transponder. In addition, the combination of Zigbee internal network internal network based on Zigbee technology and external network TCP/IP external network communication based on TCP/IP technology is adopted, which reduces the cost and power consumption of infrared transponders and enhances local intelligence. Control the robustness, stability, confidentiality and scalability of the network, support flexible networking methods and simultaneous access of a large number of wireless infrared transponders.
附图说明Description of drawings
下面结合附图详述本发明的具体结构Describe concrete structure of the present invention in detail below in conjunction with accompanying drawing
图1为本发明的整体系统架构图;Fig. 1 is an overall system architecture diagram of the present invention;
图2为本发明的红外转发器构成图。Fig. 2 is a structural diagram of the infrared transponder of the present invention.
具体实施方式detailed description
为详细说明本发明的技术内容、构造特征、所实现目的及效果,以下结合实施方式并配合附图详予说明。In order to describe the technical content, structural features, achieved goals and effects of the present invention in detail, the following will be described in detail in conjunction with the embodiments and accompanying drawings.
请参阅图1以及图2,本专利提供了一种可更新的红外转发系统,它包括的主要设备有服务器、控制主机、红外转发器,其中:Please refer to Figure 1 and Figure 2, this patent provides an updateable infrared forwarding system, which includes a server, a control host, and an infrared repeater, among which:
红外转发器,用于在检测到待适配红外遥控器的控制信号后,收集红外信号特征并查询自身是否存在对应该红外信号特征的红外控制载波及编码信息,若存在则调用上述信息,实现对受控设备的控制;若不存在则将收集的红外信号特征上传至控制主机,等待其反馈对应该特征的红外控制载波编码信息并于自身存储后实现对受控设备的控制;The infrared transponder is used to collect the infrared signal characteristics after detecting the control signal of the infrared remote controller to be adapted, and inquire whether there is an infrared control carrier and encoding information corresponding to the infrared signal characteristics, and if it exists, call the above information to realize Control the controlled equipment; if it does not exist, upload the collected infrared signal characteristics to the control host, wait for its feedback of the infrared control carrier code information corresponding to the characteristics, and realize the control of the controlled equipment after storing it by itself;
控制主机,用于接收来自红外转发器上传的红外信号特征后,向服务器请求符合该红外信号特征的红外控制载波及编码信息,若服务器返回对应红外控制载波及编码信息则将其转发至对应上传的红外转发器;The control host is used to request the infrared control carrier and encoding information from the server after receiving the infrared signal characteristics uploaded from the infrared transponder. If the server returns the corresponding infrared control carrier and encoding information, it will be forwarded to the corresponding uploader. Infrared transponder;
服务器,用于接收来自控制主机的请求,根据红外信号特征查询对应红外控制载波及编码信息后传送至控制主机;The server is used to receive the request from the control host, query the corresponding infrared control carrier and encoding information according to the characteristics of the infrared signal, and then send it to the control host;
根据需要,上述系统还可加入智能控制终端,用于向红外转发器发送受控设备的控制指令,红外转发器根据控制指令所对应的红外控制载波及编码信息发出红外信号实现对受控设备的控制。According to needs, the above-mentioned system can also be added with an intelligent control terminal, which is used to send control instructions of the controlled equipment to the infrared transponder. control.
由此,对比现有红外控制技术的通用性差的问题,本专利系统提供了一个服务器,在服务器上可以收集保存大量红外遥控载波及编码信息,甚至可轻松覆盖95%以上的红外控制电器的上述红外遥控载波及编码信息,当红外转发器检测到待适配红外遥控器的控制信号后会若自身不具备相应红外遥控载波及编码信息,则会通过控制主机想服务器请求相应数据,以完成自我更新后实现对受控设备的控制。Therefore, compared with the poor versatility of the existing infrared control technology, this patent system provides a server on which a large amount of infrared remote control carrier and coding information can be collected and stored, and can even easily cover more than 95% of the above-mentioned infrared control electrical appliances. Infrared remote control carrier and coding information, when the infrared transponder detects the control signal of the infrared remote control to be adapted, if it does not have the corresponding infrared remote control carrier and coding information, it will request the corresponding data from the server through the control host to complete the self After the update, the control of the controlled device is realized.
且进一步的,上述系统架构可采用分开设置的方式,即,将服务器设置于远端(例如服务运营商方),而控制主机与红外转发器则设置在本地端(例如用户家中),且进一步的,与控制主机通讯的红外转发器可以包括多个,多个红外转发器通过内网(诸如可实现机器与机器的通信(Machine-to-MachineCommunication)的Zigbee网络)与控制主机通讯,同样对于远端的服务器而言,其连接的控制主机也可以包括多个,多个控制主机与服务器通过广域网通讯。And further, the above system architecture can be set separately, that is, the server is set at the remote end (such as the service operator), while the control host and the infrared transponder are set at the local end (such as the user's home), and further Yes, the infrared transponders that communicate with the control host can include multiple, and multiple infrared transponders communicate with the control host through the intranet (such as the Zigbee network that can realize machine-to-machine communication (Machine-to-Machine Communication)). As far as the remote server is concerned, the connected control hosts may also include multiple ones, and the multiple control hosts communicate with the server through the wide area network.
由此形成一个以运营商为主,向下辐射最终到各用户,各红外转发器的一个辐射网络,既可以降低用户的系统搭建成本,还为服务提供商创造了更好的一个运营平台。As a result, a radiating network with operators as the mainstay and radiating downwards to each user and each infrared transponder is formed, which can not only reduce the system construction cost of users, but also create a better operating platform for service providers.
而为了实现上述组网方式,通常系统内还需要配备一个异构网关,其用于支持本地与远端多钟不同通信协议之间的转化,实现搭载了不同通信协议的异构通信网络融合,包括接收来自控制主机发向服务器的请求后转换为广域网通讯发送至服务器,接收到服务器传送的红外控制载波及编码信息后进行信息转化后发送至控制主机。In order to realize the above-mentioned networking method, usually a heterogeneous gateway is required in the system, which is used to support the transformation between different local and remote communication protocols, and realize the integration of heterogeneous communication networks equipped with different communication protocols. Including receiving the request sent from the control host to the server, converting it into wide area network communication and sending it to the server, receiving the infrared control carrier and encoding information transmitted by the server, converting the information and sending it to the control host.
最佳的,上述系统的通讯方式,控制主机与红外转发器之间通过Zigbee网络通讯,控制主机通过串口与异构网关通讯,而异构网关再通过TCP/IP网络与服务器通讯。此处红外转发器与控制主机的Zigbee组网的方式解决了传统WIFI或RF通讯的缺陷,且可进一步降低红外转发器的成本与功耗,增强了系统的本地端网络的健壮性、稳定性、保密性和可扩展性,支持灵活的组网方式及大量无线红外转发器同时接入。Optimally, in the communication mode of the above system, the control host communicates with the infrared transponder through the Zigbee network, the control host communicates with the heterogeneous gateway through the serial port, and the heterogeneous gateway communicates with the server through the TCP/IP network. Here, the Zigbee networking method between the infrared transponder and the control host solves the defects of traditional WIFI or RF communication, and can further reduce the cost and power consumption of the infrared transponder, and enhance the robustness and stability of the local network of the system , Confidentiality and scalability, support flexible networking and simultaneous access of a large number of wireless infrared transponders.
如图2,作为一实施例,上述红外转发器具体的包括:As shown in Figure 2, as an embodiment, the above-mentioned infrared transponder specifically includes:
红外控制载波与编码信息存储模块,用于将红外控制载波与编码信息存储;Infrared control carrier and encoding information storage module, used to store infrared control carrier and encoding information;
通讯模块,用于与控制主机进行数据通讯;The communication module is used for data communication with the control host;
红外信号特征收集模块,用于探测待适配红外遥控器的控制信号并对其红外信号特征进行收集;An infrared signal feature collection module is used to detect the control signal of the infrared remote controller to be adapted and collect its infrared signal features;
红外发射模块,用于根据调用存储的红外控制载波与编码信息对受控设备的控制;An infrared emission module is used to control the controlled equipment according to the stored infrared control carrier and code information;
中央处理器,用于将收集的红外信号特征并查询存储模块中是否存在对应该红外信号特征的红外控制载波及编码信息,若存在则调用上述信息,实现对受控设备的控制,若不存在则将收集的红外信号特征上传至控制主机,等待其反馈对应该特征的红外控制载波编码信息后于存储模块中,并实现对受控设备的控制。The central processing unit is used to collect the infrared signal characteristics and inquire whether there is an infrared control carrier and coding information corresponding to the infrared signal characteristics in the storage module, and if it exists, call the above information to realize the control of the controlled equipment, if not Then upload the collected infrared signal characteristics to the control host, wait for it to feed back the infrared control carrier code information corresponding to the characteristics, and then store it in the storage module, and realize the control of the controlled equipment.
本发明还涉及一种可更新的红外转发系统更新方法,它包括,The present invention also relates to a method for updating an infrared forwarding system, which includes:
A)、红外转发器在检测到待适配红外遥控器的控制信号后,收集红外信号特征并查询自身是否存在对应该红外信号特征的红外控制载波及编码信息,若存在则调用上述信息,实现对受控设备的控制,若不存在则将收集的红外信号特征上传至控制主机,等待其反馈对应该特征的红外控制载波编码信息后于自身存储并实现对受控设备的控制的步骤;A). After the infrared transponder detects the control signal of the infrared remote control to be adapted, it collects the infrared signal characteristics and inquires whether there is an infrared control carrier and encoding information corresponding to the infrared signal characteristics. If it exists, it calls the above information to realize For the control of the controlled device, if it does not exist, upload the collected infrared signal characteristics to the control host, wait for its feedback of the infrared control carrier code information corresponding to the characteristics, and then store it by itself and realize the control of the controlled device;
作为一具体实施例,本步骤具体包括,As a specific embodiment, this step specifically includes,
A1)、用于将红外控制载波与编码信息存储在存储模块中的步骤;A1), a step for storing the infrared control carrier and encoding information in the storage module;
A2)、用于与控制主机进行数据通讯的步骤;A2), steps for data communication with the control host;
A3)、用于探测待适配红外遥控器的控制信号并对其红外信号特征进行收集的步骤;A3), steps for detecting the control signal of the infrared remote controller to be adapted and collecting the characteristics of the infrared signal;
A4)、用于根据调用存储的红外控制载波与编码信息对受控设备的控制的步骤;A4), a step for controlling the controlled device according to the stored infrared control carrier and coded information;
A5)、用于将收集的红外信号特征并查询存储模块中是否存在对应该红外信号特征的红外控制载波及编码信息,若存在则调用上述信息,实现对受控设备的控制,若不存在则将收集的红外信号特征上传至控制主机,等待其反馈对应该特征的红外控制载波编码信息后于存储模块中,并实现对受控设备的控制的步骤。A5) It is used to collect the infrared signal characteristics and query whether there is infrared control carrier and coding information corresponding to the infrared signal characteristics in the storage module. If it exists, call the above information to realize the control of the controlled equipment. If it does not exist, then The steps of uploading the collected infrared signal characteristics to the control host, waiting for it to feed back the infrared control carrier code information corresponding to the characteristics, and storing them in the storage module, and realizing the control of the controlled equipment.
B)、控制主机接收来自红外转发器上传的红外信号特征后,向服务器请求符合该红外信号特征的红外控制载波及编码信息,若服务器返回对应红外控制载波及编码信息则将其转发至对应上传的红外转发器的步骤;B). After the control host receives the infrared signal characteristics uploaded from the infrared transponder, it requests the server for the infrared control carrier and encoding information that conforms to the infrared signal characteristics. If the server returns the corresponding infrared control carrier and encoding information, it will forward it to the corresponding uploader. The steps of the infrared transponder;
C)、服务器接收来自控制主机的请求,根据红外信号特征查询对应红外控制载波及编码信息后传送至控制主机的步骤;C), the server receives the request from the control host, queries the corresponding infrared control carrier and encoding information according to the characteristics of the infrared signal, and then sends it to the control host;
D)、智能控制终端向红外转发器发送受控设备的控制指令,红外转发器根据控制指令所对应的红外控制载波及编码信息发出红外信号实现对受控设备的控制的步骤;D), the intelligent control terminal sends the control command of the controlled device to the infrared transponder, and the infrared transponder sends out an infrared signal according to the infrared control carrier and coding information corresponding to the control command to realize the control of the controlled device;
根据需要,上述方法的步骤可采用分布式通讯的方式,即在A的步骤中,红外转发器与控制主机之间通过内网通讯,最佳的两者通过可实现机器与机器的通信(Machine-to-MachineCommunication)的Zigbee网络的内网进行通讯;而B、C的步骤中,控制主机与服务器之间通过TCP/IP的广域网通讯。且由于是组网的形式实现通讯,红外转发器与控制主机均不限制数量,即可通过组网方式采用多个红外转发器对一个控制主机,再多个控制主机对一个服务器的方式进行组网通讯。According to needs, the steps of the above method can adopt the mode of distributed communication, that is, in the step of A, the infrared transponder and the control host communicate through the intranet, and the best two can realize the machine-to-machine communication (Machine -to-MachineCommunication) Zigbee network intranet for communication; and in steps B and C, the communication between the control host and the server is through TCP/IP wide area network. And because the communication is realized in the form of networking, there is no limit to the number of infrared transponders and control hosts, and multiple infrared transponders can be used to form a control host through networking, and then multiple control hosts can be combined with a server. web communication.
为了配合上述分布式通讯方法,在B、C的步骤中,控制主机与服务器之间进一步通过异构网关融合步骤进行广域网通讯,所述异构网关融合步骤包括,通过串口通讯接收来自控制主机发向服务器的请求后转换为广域网的TCP/IP通讯发送至服务器,由广域网的TCP/IP通讯接收到服务器传送的红外控制载波及编码信息后进行信息转化后通过串口通讯发送至控制主机。In order to cooperate with the above-mentioned distributed communication method, in steps B and C, the control host and the server further carry out wide area network communication through the heterogeneous gateway fusion step, and the heterogeneous gateway fusion step includes: After the request to the server is converted into the TCP/IP communication of the WAN and sent to the server, the TCP/IP communication of the WAN receives the infrared control carrier and encoding information transmitted by the server, and after the information is converted, it is sent to the control host through serial communication.
以上所述仅为本发明的实施例,并非因此限制本发明的专利范围,凡是利用本发明说明书及附图内容所作的等效结构或等效流程变换,或直接或间接运用在其他相关的技术领域,均同理包括在本发明的专利保护范围内。The above is only an embodiment of the present invention, and does not limit the patent scope of the present invention. Any equivalent structure or equivalent process transformation made by using the description of the present invention and the contents of the accompanying drawings, or directly or indirectly used in other related technologies fields, all of which are equally included in the scope of patent protection of the present invention.
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| CN201610341797.0ACN105844900A (en) | 2012-10-15 | 2012-10-15 | Updatable infrared forwarding system based on remote communication |
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| Application Number | Priority Date | Filing Date | Title |
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| CN201210391690.9ACN102945597B (en) | 2012-10-15 | 2012-10-15 | Updatable Infrared Transmitter System and Its Updating Method |
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| CN201610341797.0ADivisionCN105844900A (en) | 2012-10-15 | 2012-10-15 | Updatable infrared forwarding system based on remote communication |
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| CN201610341797.0APendingCN105844900A (en) | 2012-10-15 | 2012-10-15 | Updatable infrared forwarding system based on remote communication |
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