WO2018187998A1

WO2018187998A1 - Communication system for mobile noise monitor and communication management method therefor

Info

Publication number: WO2018187998A1
Application number: PCT/CN2017/080304
Authority: WO
Inventors: 李小伦; 周云峰; 涂寒; 易凤明
Original assignee: 深圳市瑞荣创电子科技有限公司
Priority date: 2017-04-12
Filing date: 2017-04-12
Publication date: 2018-10-18

Abstract

The present invention relates to an environment monitoring system, and in particular, to a communication system for a mobile noise monitor and a communication management method therefor. A spread spectrum wireless module, an RF903 communication module, and an NRF24L01 communication module are connected to a microprogram controller. The RF903 communication module is used for the mobile noise monitor to communicate with a linked monitor station in an RF903 wireless modulation communication mode. The spread spectrum wireless module is used by the mobile noise monitor to communicate with a linked monitor station in a spread spectrum wireless modulation communication mode. The NRF24L01 communication module is used by the mobile noise monitor to communicate with a noise monitoring center. The communication system for a mobile noise monitor and the communication management method therefor provided by the present invention can link noise monitoring devices within a certain area or on a whole road, and configure mobile noise monitors according to needs. The invention is more flexible, and can monitor noise sources in a large area, so as to learn the change regularity of noise sources.

Description

发明名称：移动噪声监测器的通讯系统及其通讯管理方法技术领域 Title of Invention: Communication System of Mobile Noise Monitor and Communication Management Method Therefor

[0001] 本发明涉及一种环境监测系统，尤其是移动噪声监测器的通讯系统及其通讯管理方法。 [0001] The present invention relates to an environmental monitoring system, and more particularly to a communication system of a mobile noise monitor and a communication management method thereof.

背景技术 Background technique

[0002] 移动噪声监测器，可以在线监测，具有测量范围大，功能强，稳定性好等优点，与分析软件和监控中心组成监测系统，可用于城市环境噪声自动监测、噪声污染源在线监测。 [0002] The mobile noise monitor can be monitored online, and has the advantages of large measuring range, strong function and good stability. It is composed of analysis software and monitoring center to form a monitoring system, which can be used for automatic monitoring of urban environmental noise and online monitoring of noise pollution sources.

技术问题 technical problem

[0003] 但是与其他联动的移动噪声监测器、其他种类的环境监测仪器之间不能进行信息的通讯。特别是一个区域内的噪声或者整条马路的噪声监测，难以相互联动，掌握噪声污染源的变化规律。 [0003] However, communication with other mobile noise monitors and other types of environmental monitoring instruments cannot be performed. In particular, the noise in one area or the noise monitoring of the entire road is difficult to interlock with each other and grasp the changing law of noise pollution sources.

问题的解决方案 Problem solution

技术解决方案 Technical solution

[0004] 为解决上述问题，本发明提供一种移动噪声监测器的通讯系统及其通讯管理方法，可以进行多种通讯模式进行通讯，与其他监控装置之间形成联动模式，便于大范围内环境监测。 [0004] In order to solve the above problems, the present invention provides a communication system for a mobile noise monitor and a communication management method thereof, which can perform communication in a plurality of communication modes, and form a linkage mode with other monitoring devices, thereby facilitating a wide-area environment. monitor.

[0005] 具体技术方案为： [0005] The specific technical solution is:

[0006] 移动噪声监测器的通讯系统，包括微程序控制器、扩频无线模块、 RF903通讯模块、 NRF24L01通讯模块； [0006] a communication system of a mobile noise monitor, including a microprogram controller, a spread spectrum wireless module, an RF903 communication module, and a NRF24L01 communication module;

[0007] 所述的扩频无线模块、 RF903通讯模块、 NRF24L01通讯模块分别与所述的微程序控制器连接； [0007] the spread spectrum wireless module, the RF903 communication module, and the NRF24L01 communication module are respectively connected to the microprogram controller;

[0008] 所述的 RF903通讯模块，用于所述的移动噪声监测器采用 RF903无线调制通讯模式与联动的监测站进行通讯； [0008] The RF903 communication module is configured to use the RF903 wireless modulation communication mode to communicate with the linked monitoring station by using the mobile noise monitor;

[0009] 所述的扩频无线模块，用于所述的移动噪声监测器采用扩频无线调试通讯模式与联动的监测站进行通讯； [0010] 所述的 NRF24L01通讯模块，用于所述的移动噪声监测器和噪声监控中心进行通讯。 [0009] The spread spectrum wireless module is configured to use the spread spectrum wireless debugging communication mode to communicate with the linked monitoring station by the mobile noise monitor; [0010] The NRF24L01 communication module is configured to communicate with the mobile noise monitor and the noise monitoring center.

[0011] 优选的，还包括调试串口模块，所述的调试串口模块与所述的微程序控制器连接。 [0011] Preferably, the debugging serial port module is further included, and the debugging serial port module is connected to the microprogram controller.

[0012] 进一步的，包括噪声监控中心管理器和多个所述的移动噪声监测器，所述的噪声监控中心管理器通过 NRF24L01通讯模块与所述的移动噪声监测器进行通讯。 [0012] Further, the noise monitoring center manager and the plurality of mobile noise monitors are configured, and the noise monitoring center manager communicates with the mobile noise monitor through the NRF24L01 communication module.

[0013] 还提供移动噪声监测器的通讯系统的通讯管理方法，包括：所述的噪声监控中心管理器通过 NRF24L01通讯模块向所述的移动噪声监测器发送指令； [0013] A communication management method for the communication system of the mobile noise monitor is further provided, comprising: the noise monitoring center manager transmitting an instruction to the mobile noise monitor through the NRF24L01 communication module;

[0014] 所述的移动噪声监测器对所述的指令进行解析、处理； [0014] the mobile noise monitor parses and processes the instructions;

[0015] 所述的移动噪声监测器将指令处理结果通过 NRF24L01通讯模块应答噪声监控中心管理器。 [0015] The mobile noise monitor passes the command processing result to the noise monitoring center manager through the NRF24L01 communication module.

[0016] 其中，所述的移动噪声监测器对所述的指令解析、处理的步骤包括以下过程： [0017] 如果所述的指令的目标为移动噪声监测器，则所述的移动噪声监测器按照指令执行； [0016] wherein the step of parsing and processing the instruction by the mobile noise monitor comprises the following process: [0017] if the target of the instruction is a mobile noise monitor, the mobile noise monitor Execute according to the instructions;

[0018] 如果所述的指令目标为联动的监测站，则根据所述的移动噪声监测器和该联动的监测站的通讯方式，将所述的指令重新编译后发送至联动的监测站并等待处理结果。 [0018] If the instruction target is a linked monitoring station, according to the communication mode of the mobile noise monitor and the linked monitoring station, the instruction is recompiled and sent to the linked monitoring station and waits process result.

[0019] 进一步的，所述的联动的监测站为其他的移动噪声监测器、其他环境监测器。 [0019] Further, the linked monitoring station is another mobile noise monitor and other environmental monitors.

[0020] 如果所述的移动噪声监测器没有在规定吋间内收到所述的联动的监测站返回的指令处理结果，则向所述的噪声监控中心管理器回复指令超吋。 And [0020] if the mobile noise monitor does not receive the command processing result returned by the linked monitoring station within the specified time interval, and then returns an instruction to the noise monitoring center manager.

[0021] 优选的，所述的噪声监控中心管理器通过所述的调试串口模块直接向所述的移动噪声监测器输入指令，査看指令运行的结果。 [0021] Preferably, the noise monitoring center manager directly inputs an instruction to the mobile noise monitor through the debug serial port module to view a result of the command operation.

发明的有益效果 Advantageous effects of the invention

有益效果 Beneficial effect

[0022] 与现有技术相比本发明具有以下有益效果： [0022] Compared with the prior art, the present invention has the following beneficial effects:

[0023] 本发明提供的移动噪声监测器的通讯系统及其通讯管理方法，可以将对一定区域内，或者整条马路上的噪声监控装置进行联动，并且根据需要设置移动的噪声监测器，更灵活机动，可以大范围的对噪声源进行监控，以掌握噪声源变化的规律。 [0023] The communication system and the communication management method of the mobile noise monitor provided by the invention can link the noise monitoring devices in a certain area or the entire road, and set the moving noise monitor as needed, Flexible and versatile, it can monitor noise sources in a wide range to grasp the noise source changes. The law.

本发明的实施方式 Embodiments of the invention

[0024] 现通过实施例作进一步说明。 [0024] This will now be further illustrated by the examples.

[0025] 实施例 1 Embodiment 1

[0026] 移动噪声监测器的通讯系统，包括微程序控制器、扩频无线模块、 RF903通讯模块、 NRF24L01通讯模块； [0026] a communication system of the mobile noise monitor, including a microprogram controller, a spread spectrum wireless module, an RF903 communication module, and a NRF24L01 communication module;

[0027] 所述的扩频无线模块、 RF903通讯模块、 NRF24L01通讯模块分别与所述的微程序控制器连接； [0027] the spread spectrum wireless module, the RF903 communication module, and the NRF24L01 communication module are respectively connected to the microprogram controller;

[0028] 所述的 RF903通讯模块，用于所述的移动噪声监测器采用 RF903无线调制通讯模式与联动的监测站进行通讯； [0028] The RF903 communication module is configured to communicate with the linked monitoring station by using the RF903 wireless modulation communication mode for the mobile noise monitor;

[0029] 所述的扩频无线模块用于所述的移动噪声监测器采用扩频无线调试通讯模式与联动的监测站进行通讯； [0029] the spread spectrum wireless module is used by the mobile noise monitor to communicate with a linked monitoring station by using a spread spectrum wireless debugging communication mode;

[0030] 所述的 NRF24L01通讯模块用于所述的移动噪声监测器和噪声监控中心进行通讯。 [0030] The NRF24L01 communication module is used for communication between the mobile noise monitor and the noise monitoring center.

[0031] 还包括调试串口模块，所述的调试串口模块与所述的微程序控制器连接。 [0031] The debugging serial port module is further included, and the debugging serial port module is connected to the micro program controller.

[0032] 实施例 2 Example 2

[0033] 在实施例的基础上，还包括噪声监控中心管理器和多个所述的移动噪声监测器，所述的噪声监控中心管理器通过 NRF24L01通讯模块与所述的移动噪声监测器进行通讯。 [0033] On the basis of the embodiment, a noise monitoring center manager and a plurality of the mobile noise monitors are further included, and the noise monitoring center manager communicates with the mobile noise monitor through a NRF24L01 communication module. .

[0034] 实施例 3 Embodiment 3

[0035] 提供移动噪声监测器的通讯系统的通讯管理方法，包括：所述的噪声监控中心管理器通过 NRF24L01通讯模块向所述的移动噪声监测器发送指令； [0035] A communication management method for a communication system providing a mobile noise monitor, comprising: the noise monitoring center manager transmitting an instruction to the mobile noise monitor through a NRF24L01 communication module;

[0036] 所述的移动噪声监测器对所述的指令进行解析、处理； [0036] the mobile noise monitor parses and processes the instructions;

[0037] 所述的移动噪声监测器将指令处理结果通过 NRF24L01通讯模块应答噪声监控中心管理器。 [0037] The mobile noise monitor passes the command processing result to the noise monitoring center manager through the NRF24L01 communication module.

[0038] 具体的，所述的移动噪声监测器对所述的指令解析、处理的步骤包括以下过程 [0039] 如果所述的指令的目标为移动噪声监测器，则所述的移动噪声监测器按照指令执行； [0038] Specifically, the step of parsing and processing the instruction by the mobile noise monitor includes the following process [0039] if the target of the instruction is a mobile noise monitor, the mobile noise monitor is executed in accordance with an instruction;

[0040] 如果所述的指令目标为联动的监测站，则根据所述的移动噪声监测器和该联动的监测站的通讯方式，将所述的指令重新编译后发送至联动的监测站并等待处理结果。 [0040] if the instruction target is a linked monitoring station, according to the communication mode of the mobile noise monitor and the linked monitoring station, the instruction is recompiled and sent to the linked monitoring station and waits process result.

[0041] 其中，所述的联动的监测站为其他的移动噪声监测器、其他环境监测器。 [0041] wherein, the linked monitoring stations are other mobile noise monitors and other environmental monitors.

[0042] 具体的，如果所述的移动噪声监测器没有在规定吋间内收到所述的联动的监测站返回的指令处理结果，则向所述的噪声监控中心管理器回复指令超吋。 [0042] Specifically, if the mobile noise monitor does not receive the command processing result returned by the linked monitoring station within the specified time interval, the instruction to the noise monitoring center manager is returned.

[0043] 另外，所述的噪声监控中心管理器通过所述的调试串口模块直接向所述的移动噪声监测器输入指令，査看指令运行的结果。 [0043] In addition, the noise monitoring center manager directly inputs an instruction to the mobile noise monitor through the debug serial port module to view a result of the command operation.

Claims

Claim

[Claim 1] A communication system for a mobile noise monitor, comprising: a microprogram controller, a spread spectrum wireless module, an RF903 communication module, and a NRF24L01 communication module; the spread spectrum wireless module, the RF903 communication module, and the NRF24L01 communication Modules are respectively connected to the microprogram controller;

The RF903 communication module is configured to communicate with the linked monitoring station by using the RF903 wireless modulation communication mode for the mobile noise monitor;

The spread spectrum wireless module is used by the mobile noise monitor to communicate with a linked monitoring station by using a spread spectrum wireless debugging communication mode;

The NRF24L01 communication module is used for communication between the mobile noise monitor and the noise monitoring center.

[Claim 2] The communication system of the mobile noise monitor according to claim 1, further comprising a debug serial port module, wherein the debug serial port module is connected to the microprogram controller

[Claim 3] The communication system of the mobile noise monitor according to claim 1, further comprising a noise monitoring center manager and a plurality of said mobile noise monitors, said noise monitoring center manager Communication with the mobile noise monitor is performed through the NRF24L01 communication module.

[Claim 4] The communication management method of the communication system of the mobile noise monitor, comprising: the noise monitoring center manager transmitting an instruction to the mobile noise monitor through the NRF24L01 communication module;

The mobile noise monitor parses and processes the instructions;

The mobile noise monitor replies the command processing result to the noise monitoring center manager through the NRF24L01 communication module.

[Claim 5] The communication management method of the communication system of the mobile noise monitor according to claim 4, wherein the step of analyzing and processing the instructions by the mobile noise monitor comprises the following process; Execute according to the instructions;

If the instruction target is a linked monitoring station, the instruction is recompiled according to the communication mode of the mobile noise monitor and the linked monitoring station, and then sent to the linked monitoring station and waits for the processing result.

[Claim 6] The communication management method of the communication system of the mobile noise monitor according to claim 5, wherein the linked monitoring station is another mobile noise monitor and other environmental monitoring.

[Claim 7] The communication management method of the communication system of the mobile noise monitor according to claim 6, wherein if the mobile noise monitor does not receive the linkage monitoring within a predetermined time interval If the result of the instruction returned by the station is returned to the noise monitoring center manager, the command is overwritten.

[Claim 8] The communication management method of the communication system of the mobile noise monitor according to any one of claims 4 to 7, wherein the noise monitoring center manager directly directly through the debug serial port module The mobile noise monitor inputs an instruction to view the result of the instruction operation