CN102801561A - Method for managing network equipment - Google Patents

Method for managing network equipment Download PDF

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Publication number
CN102801561A
CN102801561A CN 201210282264 CN201210282264A CN102801561A CN 102801561 A CN102801561 A CN 102801561A CN 201210282264 CN201210282264 CN 201210282264 CN 201210282264 A CN201210282264 A CN 201210282264A CN 102801561 A CN102801561 A CN 102801561A
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step
packet
network
command
file
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CN 201210282264
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Chinese (zh)
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丁腾飞
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深圳市双赢伟业科技股份有限公司
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Abstract

The invention discloses a method for managing network equipment. The network equipment receives a management command from a management terminal through a network message, wherein the network message comprises a command type field for managing the network equipment. After the network equipment receives the network message, the network equipment executes an operational command corresponding to the command type field. According to the method for managing network equipment provided by the invention, the network equipment can be managed conveniently.

Description

ー种管理网络设备的方法ー kinds of methods for managing network devices

技术领域 FIELD

[0001] 本发明涉及通信领域,特别是ー种管理网络设备的方法。 [0001] The present invention relates to the field of communications, the method for managing network devices ー particular species.

背景技术 Background technique

[0002]目前,对网络设备的管理一般是通过串ロ或者网页登陆到网络设备的管理页面来直接进行管理。 [0002] Currently, the management of network equipment are generally logged on to the network device management page by page or string ro be managed directly. 虽然串ロ功能強大,但是连接不方便,并且大多数网络设备并没有设置串ロ接ロ,而只预留了串ロ插针,导致串ロ接入困难,増加了管理和控制网络设备的难度;采用网页登陆来进行管理的方式中,由于网页本身设计面向用户的关系,其设置的管理和控制功能有限,并不能做十分全面的管理和控制,尤其是在单网ロLAN/WAN复用的情況,此时需要通过无线登录到网络设备才能管理和控制。 Although the string ro powerful, but the connection is not convenient, and most network devices and access ro ro string is not set, and only set aside a string ro pins, resulting in a string ro access difficult, to increase in the difficulty of managing and controlling network devices ; ways to manage the use of the landing page, the page itself because the relationship between the user-oriented design, limited set of management and control functions, does not do a very comprehensive management and control, particularly in the single-wire ro LAN / WAN multiplexing the situation at this time need to log into the network equipment to manage and control via wireless.

发明内容 SUMMARY

[0003] 为了解决现有技术的上述问题,有必要提供一种便于管理网络设备的方法。 [0003] In order to solve the aforementioned problems of the prior art, it is necessary to provide a method of manageable network devices.

[0004] 本发明解决技术问题提供的技术方案是: [0004] Technical Solution The present invention solves the technical problem is provided:

[0005] ー种管理网络设备的方法,其特征在于,所述网络设备通过网络报文接受来自管理端的管理指令,所述网络报文中包括用于管理网络设备的命令类型字段,所述网络设备接收到所述网络报文后,执行所述命令类型字段对应的操作命令。 [0005] ー method for managing network devices, wherein the network device management message receiving instruction from the management terminal through a network, the network packet includes a command type field for managing network devices, said network after the network device receives the message, executing the command corresponding to the operation command type field.

[0006] 一种网络设备接收的网络报文的方法,其特征在于,包括:检查网络报文中命令类型字段的步骤;如果所述命令类型为文件传输类,则执行接受网络报文中文件数据的操作;如果所述命令类型为设备管理类,则执行对应命令类型的操作。 [0006] A method of network packets received by a network device, characterized by comprising: a step of checking the network packet of the command type field; if the command type is the class file transfer, the recipient network performs packet file operational data; if the command type is a device management category, corresponding to the command type of operation performed.

[0007] ー种生成网络报文的方法,其步骤包括: [0007] ー method of generating a network packet, comprising the steps of:

[0008] 步骤I :构造报文,如果属于文件传输类报文则转步骤2,如果是设备管理类则转步骤3 ; [0008] Step I: configuration packet, if the packet belongs to the class file transfer go to Step 2, if the device management category go to Step 3;

[0009] 步骤2 :填充数据区以及文件区,计算文件CRC,转步骤3 ; [0009] Step 2: the padding data area and a file area, the file the CRC calculation, go to step 3;

[0010] 步骤3 :根据命令填充命令类型字段,计算报文CRC,转步骤4 ; [0010] Step 3: fill command according to the command type field, the CRC calculation message, go to step 4;

[0011] 步骤4 :发送报文并等待网络设备回复报文,并设置监听timeout时间,转步骤5 ; [0011] Step 4: transmitting packet network device and wait for reply packet, and set the timeout time listening, go to step 5;

[0012] 步骤5 :如果timeout到期,则认为未收到回复报文,此时转步骤7 ;否则转步骤6 ; [0012] Step 5: If the timeout expires, it is considered not receive a response packet, then turn to Step 7; otherwise, turn to Step 6;

[0013] 步骤6 :读取回复报文,根据回复报文中的命令执行结果判断命名是否成功,如果成功则转步骤8 ;否则转步骤7 ; [0013] Step 6: Read reply message, the reply message according to the command execution results to determine whether the naming succeeds, go to step 8 if successful; otherwise, turn to Step 7;

[0014] 步骤7 :根据上次发送命令重新生成报文,准备重传报文,转步骤4 ; [0014] Step 7: The regenerated previous transmission command packet, the retransmission packets ready, go to step 4;

[0015] 步骤8 :清除上次报文及所有标志位,以准备下次发送报文转步骤I。 [0015] Step 8: Clearing the last message and all flags in preparation for the next transmission packet forwarding step I.

[0016] 相较于现有技术,本发明的管理网络设备的方法在ニ层协议中只使用了以太网的数据包,所以可以在只连接网ロ的情况下对网络设备进行管理和控制,极大的提高了对设备可操作性,降低的维护、调试的难度,尤其是在单网ロWAN、LAN复用的情況,能够极其方便的管理和控制网络设备。 [0016] Compared to the prior art, the network device managing method according to the present invention is used in the Ni layer protocol only Ethernet data packets, it is possible to manage and control of network devices connected to the network in the case where only the ro, greatly improves the operability of equipment, reduce maintenance, debugging difficulty, especially in WAN, LAN multiplexing case of a single network ro, can be extremely easy to manage and control network devices. 附图说明 BRIEF DESCRIPTION

[0017] 图I是本发明的报文结构图。 [0017] Figure I is a packet configuration diagram of the present invention.

[0018] 图2是本发明的方法对网络设备进行管理和控制的流程图。 [0018] FIG 2 is a flowchart of a method of the present invention to manage network devices and control.

[0019] 图3是管理控制端产生管理控制报文的流程图。 [0019] FIG. 3 is a flowchart of the management control packets generated management control terminal.

具体实施方式 detailed description

[0020] 本发明中,采用ー个新的网络报文协议对网络设备进行控制。 [0020] the present invention, a new network ー packet protocol controls network devices. 下面结合附图对本发明进行进ー步描述。 The following figures present invention will be further described in conjunction with the intake ー.

[0021] 图I为本发明的所提供的报文结构图。 [0021] FIG packet structure I provided by the present invention in FIG.

[0022] 该报文包括一个以太网报头以及协议报头,具体包括目的地址、源地址、以太网类型、命令类型、执行结果、文件总长度、文件CRC校验码、当前包中数据相对于文件中的偏移量、数据长度、当前包的CRC校验码、包序号、保留位、数据填充位。 [0022] The message includes an Ethernet header and a protocol header comprises a destination address, source address, an Ethernet type, the type of command, the execution result, the total length of the file, the file of CRC with respect to the current packet of data files the offset, data length, CRC of the current packet, the packet sequence number, a reserved bit, the data padding bits. 其中,目的地址、源地址和以太网类型属于以太网报头;命令类型、执行结果、文件总长度、文件CRC校验码、当前包中数据相对于文件中的偏移量、数据长度、当前包的CRC校验码、包序号以及保留位属于协议报头。 Wherein, destination address, source address and the Ethernet type is the Ethernet header; command type, the results of the total file size, file checksum CRC, the current packet offset with respect to the data file, the data length of the current packet the CRC of the packet sequence number and the protocol header reserved bit belongs. 相对于以往的报文结构,特别设置了ー个命令类型字段,用于对网络设备的管理和控制。 With respect to the conventional packet structure, provided ー particular command type field, for managing and controlling network devices. 其中: among them:

[0023] 第I到第6个字节是目的地址; [0023] I, the first 6 bytes are the destination address;

[0024] 第7到第12个字节是源地址; [0024] 7 to 12 bytes of source address;

[0025] 第13到第14个字节是以太网类型,本协议使用的是0x88FF ; [0025] 13 to 14 bytes of Ethernet type, this is the protocol used 0x88FF;

[0026] 第15个字节是命令类型,所述命令类型分为文件传输类型和文件管理类型; [0026] The first type is a command byte 15, the command type into the file transfer and file management type;

[0027] 第16个字节是执行結果,OxFF是执行失败,0x00是执行成功,发送命令的时候置0 ; [0027] The first 16 bytes of the execution result, is failed is OxFF, 0x00 is executed successfully, when sending the command set to 0;

[0028] 第17到第20个字节是文件总长度,用于有文件传输的情况下,否则置0 ; [0028] 17 to 20 bytes is the total length of the file, for the case where there is a file transfer, and 0 otherwise;

[0029] 第21到第24个字节是文件CRC校验码,用于有文件传输的情况下,否则置0 ; [0029] 21 to 24 of the CRC byte file, a file transfer with a lower case, and 0 otherwise;

[0030] 第25到第28个字节是当前包中数据相对于文件中的偏移量,用于数据重组,在包数据长度大于0时使用,用于有文件传输的情况下,否则置0 ; [0030] 25 to 28 bytes of the current packet is the data file with respect to offset for data reorganization, the length of the packet data is greater than 0 using, for the case where there is a file transfer, or set 0;

[0031] 第29到第32个字节是当前包中数据的长度,在包数据长度大于0时使用,用于有文件传输的情况下,否则置0; [0031] 29 to 32 bytes is the length of the current packet of data, the data used when the packet length is greater than 0, for the case where there is a file transfer, and 0 otherwise;

[0032] 第33到第36个字节是当前包的CRC校验码,在包数据长度大于0时使用,用于有文件传输的情况下,否则置0; [0032] 33 to the first 36 bytes of the current packet is a CRC check code, used when the packet data length is greater than 0, for the case where there is a file transfer, and 0 otherwise;

[0033] 第37到第40个字节包序号,方便接收数据包失败的情况下重传,用于有文件传输的情况下,否则置0; [0033] 37 to 40 bytes of a packet sequence number, a case where the received packet to facilitate retransmission failure, for the case where there is a file transfer, and 0 otherwise;

[0034] 第41到第48个字节,保留位,用于协议扩展,置0 ; [0034] 41 first to 48th bytes are reserved for protocol expansion, set to 0;

[0035] 第49到第15000个字节,数据填充位、用于数据填充,无数据时不使用。 [0035] The 49th to 15000 bytes, the data padding bits, padding data is used, is not used when no data.

[0036] 图2是本发明网络设备端的工作流程图,所述网络设备可以处理符合本协议要求的网络报文,实现其被管理和控制的目的。 [0036] FIG 2 is a flowchart of the network terminal apparatus according to the present invention, the network device may process the network packets comply with the protocol requirements, its purpose is to manage and control. 该方法包括以下步骤: The method comprises the steps of:

[0037] 步骤I :监听网络报文; [0037] Step I: monitor network packets;

[0038] 步骤2 :如果网络报文属于本协议类型,则转步骤3 ;否则转步骤1,继续监听网络报文;[0039] 步骤3 :为报文创建接收缓冲区,把报文内容复制到缓冲区中,转步骤4 ; [0038] Step 2: If the network protocol type of this packet belongs to, then go to step 3; otherwise, turn to Step 1 to continue listening to the network packet; [0039] Step 3: Create message packet receive buffer, copy the contents of the packet a buffer, go to step 4;

[0040] 步骤4 :检查报文CRC校验码是否正确,如果正确,转步骤5 ;否则设置报文命令结果为报文CRC错误,然后转步骤13 ; [0040] Step 4: Check whether the packet CRC is correct, if correct, go to step 5; otherwise set command message packet CRC error result, and then proceed to step 13;

[0041] 步骤5 :检查命令类型,如果属于文件传输类,则转步骤6 ;否则转步骤13 ; [0041] Step 5: Check command type, if part of the file transfer category, then go to Step 6; otherwise, turn to Step 13;

[0042] 步骤6 :检查是否第一次收到该文件传输命令,如果是,则转步骤7 ;否则转步骤 [0042] Step 6: Check whether the first file transfer command is received, if yes, then go to step 7; otherwise, turn to Step

8 ; 8 ;

[0043] 步骤7 :为文件重组创建缓冲区,转步骤8 ; [0043] Step 7: Create a file buffer recombination, Step 8;

[0044] 步骤8 :开始文件重组,根据报头中包偏移量以及包序号定位该报文数据内容在缓冲区中的位置,然后复制到该位置上,转步骤9 ; [0044] Step 8: Start file recombination, positioned in the location of the message data content of the buffer in accordance with the packet header and a packet sequence number offset, then copied to the location, proceed to step 9;

[0045] 步骤9 :检查重组是否完成,如果完成,转步骤10 ;否则转步骤14 ; [0045] Step 9: Check whether reorganization completed, if completed, proceed to step 10; otherwise, turn to Step 14;

[0046] 步骤10 :检查文件CRC校验码是否正确,如果正确,转步骤11 ;否则转步骤12 ; [0046] Step 10: Check the CRC file is correct, if correct, go to step 11; otherwise, turn to Step 12;

[0047] 步骤11 :文件处理,根据文件命令处理文件,处理后设置报文命令结果区并释放文件缓冲区,转步骤14; [0047] Step 11: the file processing, the command processing files based on, setting the command message and releases the results after treatment zone file buffer, go to step 14;

[0048] 步骤12 :设置报头中的包偏移量为0,包序号为1,命令类型为文件重传请求,转步骤14 ; [0048] Step 12: Set packet header offset is 0, the packet number is 1, the command type file retransmission request, proceed to step 14;

[0049] 步骤13 :执行命令类型对应命令处理,根据命令处理结果设置报文命令结果区,转步骤14 ; [0049] Step 13: Run command corresponding to the type of processing, the processing result according to the command message command result set area, go to step 14;

[0050] 步骤14 :使用之前步骤构建的报文发送回复报文,转步骤I。 [0050] Step 14: Step constructed prior to sending a reply packet using the packet, proceed to step I.

[0051] 图3是本发明管理控制端对的流程图,该方法可以请求符合本协议要求的网络报文,实现其管理和控制的目的。 [0051] FIG. 3 is a flowchart of the control of the console of the present invention, the method may comply with the request network message protocol requirements, to achieve the purpose of its management and control. 该方法包括以下步骤: The method comprises the steps of:

[0052] 步骤I :构造报文,如果属于文件传输类报文则转步骤2,;否则转步骤3 ; [0052] Step I: configuration packet, if the packet belongs to the file transfer category ,; otherwise, go to Step 2 Step 3 revolutions;

[0053] 步骤2 :计算文件CRC,填充数据区以及文件区(文件总长度、文件CRC校验码、当前包中数据相对于文件中的偏移量、数据长度等),转步骤3 ; [0053] Step 2: File CRC calculation, the padding data area and a file area (total length of the file, the file CRC checksum, the data of the current packet offset with respect to the file, data length, etc.), go to step 3;

[0054] 步骤3 :根据命令填充命令类型字段,计算报文CRC,转步骤4 ; [0054] Step 3: fill command according to the command type field, the CRC calculation message, go to step 4;

[0055] 步骤4 :发送报文并等待网络设备回复报文,并设置监听timeout时间,转步骤5 ; [0055] Step 4: transmitting packet network device and wait for reply packet, and set the timeout time listening, go to step 5;

[0056] 步骤5 :如果timeout到期,则认为未收到回复报文,此时转步骤7 ;否则转步骤6 ; [0056] Step 5: If the timeout expires, it is considered not receive a response packet, then turn to Step 7; otherwise, turn to Step 6;

[0057] 步骤6 :读取回复报文,根据回复报文中的命令结果区判断命令执行是否成功,如果成功则转步骤8 ;否则转步骤7 ; [0057] Step 6: Read reply packet is determined according to the command reply packet command execution results area is successful, then go to step 8 if successful; otherwise, turn to Step 7;

[0058] 步骤7 :根据上次发送命令重新生成报文,准备重传报文,转步骤4 ; [0058] Step 7: The regenerated previous transmission command packet, the retransmission packets ready, go to step 4;

[0059] 步骤8 :清除上次报文及所有标志位,以准备下次发送报文转步骤I。 [0059] Step 8: Clearing the last message and all flags in preparation for the next transmission packet forwarding step I.

[0060] 由于报文格式中包含了ー个命令类型字段,所以管理方需要在填写报文的时候指定某个类型的管理报文,比如管理方需要被控制网络设备重启,则需要对该位置0x01(该值被预定义为设备重启),然后网络设备收到该报文后会检查命令类型字段的值,并根据该值进行相应的操作,例如,如果是重启命令则是回复ー个应答报文之后,开始重启操作。 [0060] Since the packet format contains ー command type field, the management side need to specify a type of the management message packets to fill the time, such as the network management control device side needs to be restarted, it is necessary for the position 0x01 (the value is predefined as the device is restarted), the network device receives and checks the value of the command type field of the packet, and performs corresponding operation according to the value, for example, if a restart command is a reply to a response ーafter the message began to restart operations. 由于报文中命令类型字段所占的空间是ー个字节,所以其可以使用的命令类型可以有256种,完全可以覆盖串ロ的常规管理和控制命令。 Since the space occupied by the message type field is ー command bytes, the type of command may be used for 256, can override the general management and control command string ro. 再由于该报文通过以太网通讯,所以不需要任何串ロ的支持,只需要连接网ロ即可形成通讯的媒介。 Since then the packet communication via Ethernet, there is no need of any support string ro, ro only needs to be connected to form a network media communication.

[0061] 与现有技术相比较,本发明的管理和控制网络设备的ニ层协议由于只使用了以太网的数据包,所以可以在只连接网ロ的情况下对网络设备进行管理和控制,极大的提高了对设备可操作性,降低的维护、调试的难度,尤其是在单网口WAN、LAN复用的情况,能够极其方便的管理和控制网络设备。 [0061] Compared with the prior art, managing and controlling network devices according to the present invention, the Ni layer protocols since only Ethernet data packets, it is possible to manage and control of network devices connected to the network in the case where only the ro, greatly improves the operability of equipment, reduce maintenance, debugging difficult, especially in a single network port WAN, LAN case of multiplexing can be extremely convenient management and control of network devices.

[0062] 以上内容是结合具体的优选实施方式对本发明所作的进一步详细说明,不能认定本发明的具体实施只局限于这些说明。 [0062] The above contents with the specific preferred embodiments of the present invention is further made to the detailed description, specific embodiments of the present invention should not be considered limited to these descriptions. 对于本发明所属技术领域的普通技术人员来说,在不脱离本发明构思的前提下,还可以做出若干简单推演或替换,都应当视为属于本发明的保护范围。 Those of ordinary skill in the art for the present invention, without departing from the spirit of the present invention, can make various simple deduction or replacement, should be deemed to belong to the scope of the present invention.

Claims (6)

  1. 1. 一种管理网络设备的方法,其特征在于,所述网络设备通过网络报文接受来自管理端的管理指令,所述网络报文中包括用于管理网络设备的命令类型字段,所述网络设备接收到所述网络报文后,执行所述命令类型字段对应的操作命令。 CLAIMS 1. A method for managing a network device, wherein said network management device accepts an instruction from the management terminal through a network packet, the network packet includes a command type field for managing network devices, said network device after receiving the network packet, executing the command corresponding to the operation command type field.
  2. 2.根据权利要求I所述的管理网络设备的方法,其特征在于,所述命令类型字段中的命令类型分为文件传输类型和设备管理类型。 2. The network device management method according to claim I, wherein said command in the command type field into the file transfer and the type of device management.
  3. 3.根据权利要求I所述的管理网络设备的方法,其特征在于,所述报文进一步包括如下字段:目的地址、源地址、以太网类型、执行结果、文件总长度、文件CRC校验码、当前包中数据相对于文件中的偏移量、数据长度、当前包的CRC校验码、包序号、保留位、数据填充位。 The network device management method according to claim I, wherein said message further comprises the following fields: destination address, source address, type of Ethernet, the results of the total file size, file checksum CRC , the data of the current packet offset with respect to the file, data length, CRC of the current packet, the packet sequence number, a reserved bit, the data padding bits.
  4. 4.根据权利要求3所述的管理网络设备的方法,其特征在于,第I到第6个字节是目的地址•'第7到第12个字节是源地址;第13到第14个字节是以太网类型;第15个字节是命令类型;第16个字节是执行结果;第17到第20个字节是文件总长度;第21到第24个字节是文件CRC校验码;第25到第28个字节是当前包中数据相对于文件中的偏移量;第29到第32个字节是当前包中数据的长度;第33到第36个字节是当前包的CRC校验码;第37到第40个字节包序号;第41到第48个字节是保留位;第49到第15000个字节是数据填充位。 4. A method for managing a network device according to claim 3, wherein the first I sixth byte destination address • '7th to 12th bytes of the source address; 13th to 14th byte Ethernet type; 15th byte command type; the first 16 bytes of the execution result; 17th to the 20th bytes is the total length of the file; 21 to 24 of the CRC byte file check code; 25th to 28th byte in the current packet data offset with respect to the file; 29 to 32 bytes of the current length of the data packet; 33rd to 36th bytes is CRC checksum of the current packet; 37 to 40-byte packet sequence number; 41st to 48th bytes are reserved; 49th to 15,000 bytes of data padding bits.
  5. 5. —种网络设备接收网络报文的方法,其特征在于,包括: 检查网络报文中命令类型字段的步骤; 如果所述命令类型为文件传输类,则执行接受网络报文中文件数据的操作;如果所述命令类型为设备管理类,则执行对应命令类型的操作。 5 - method receiving network packets network device, characterized in that, comprising: a step of checking the network packet of the command type field; if the command type is the class file transfer, the recipient network performs packet data files operation; if the command type is a device management category, type of operation corresponding to the command is executed.
  6. 6. 一种生成网络报文的方法,其特征在于,步骤包括: 步骤I :构造报文,如果属于文件传输类报文则转步骤2,如果是设备管理类则转步骤3 ; 步骤2 :填充数据区以及文件区,计算文件CRC,转步骤3 ; 步骤3 :根据命令填充命令类型字段,计算报文CRC,转步骤4 ; 步骤4 :发送报文并等待网络设备回复报文,并设置监听timeout时间,转步骤5 ; 步骤5 :如果timeout到期,则认为未收到回复报文,此时转步骤7 ;否则转步骤6 ; 步骤6 :读取回复报文,根据回复报文中的命令执行结果判断命名是否成功,如果成功则转步骤8;否则转步骤7; 步骤7 :根据上次发送命令重新生成报文,准备重传报文,转步骤4 ; 步骤8 :清除上次报文及所有标志位,以准备下次发送报文转步骤I。 A method for generating a network packet, wherein the step comprises: Step I: configuration packet, if the packet belongs to the class file transfer go to Step 2, if the device management category go to Step 3; Step 2: padding data area and a file area, computing file the CRC, proceed to step 3; step 3: according to the command fill command type field, calculates packet the CRC, proceed to step 4; step 4: transmitting packet and waits for the network equipment response message, and arranged listen timeout time, proceed to step 5; step 5: If the timeout expires, it is considered not receive a response packet, then turn to step 7; otherwise, proceed to step 6; step 6: read reply packet, the reply packet according to the command execution results to determine whether the name is successful, and if successful then go to step 8; otherwise, go to step 7; step 7: Rebuild the message is sent according to the last command in preparation for retransmission of packets, go to step 4; step 8: Clear last packets and flags in preparation for the next transmission packet forwarding step I.
CN 201210282264 2012-08-09 2012-08-09 Method for managing network equipment CN102801561A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103501237A (en) * 2013-09-03 2014-01-08 小米科技有限责任公司 Device management method, management platform, device and system

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20060047800A1 (en) * 2004-08-24 2006-03-02 Panduit Corporation Systems and methods for network management
CN1815486A (en) * 2005-01-31 2006-08-09 索尼株式会社 Communication apparatus, communication method, and program
CN101426004A (en) * 2007-10-29 2009-05-06 华为技术有限公司 Three layer conversation access method, system and equipment
CN102300236A (en) * 2010-06-28 2011-12-28 电信科学技术研究院 A remote maintenance method for a remote radio apparatus, device and system

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20060047800A1 (en) * 2004-08-24 2006-03-02 Panduit Corporation Systems and methods for network management
CN1815486A (en) * 2005-01-31 2006-08-09 索尼株式会社 Communication apparatus, communication method, and program
CN101426004A (en) * 2007-10-29 2009-05-06 华为技术有限公司 Three layer conversation access method, system and equipment
CN102300236A (en) * 2010-06-28 2011-12-28 电信科学技术研究院 A remote maintenance method for a remote radio apparatus, device and system

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103501237A (en) * 2013-09-03 2014-01-08 小米科技有限责任公司 Device management method, management platform, device and system
CN103501237B (en) * 2013-09-03 2017-03-15 小米科技有限责任公司 Equipment management, management platform, equipment and systems

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