CN106856040A - Intelligent monitor system based on wireless senser - Google Patents
Intelligent monitor system based on wireless senser Download PDFInfo
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- CN106856040A CN106856040A CN201510909881.3A CN201510909881A CN106856040A CN 106856040 A CN106856040 A CN 106856040A CN 201510909881 A CN201510909881 A CN 201510909881A CN 106856040 A CN106856040 A CN 106856040A
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- G—PHYSICS
- G08—SIGNALLING
- G08C—TRANSMISSION SYSTEMS FOR MEASURED VALUES, CONTROL OR SIMILAR SIGNALS
- G08C17/00—Arrangements for transmitting signals characterised by the use of a wireless electrical link
- G08C17/02—Arrangements for transmitting signals characterised by the use of a wireless electrical link using a radio link
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W84/00—Network topologies
- H04W84/18—Self-organising networks, e.g. ad-hoc networks or sensor networks
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Abstract
The invention discloses the intelligent monitor system based on wireless senser, including multiple terminal nodes, routing node, coordinator node, irrigation equipment and Surveillance center, terminal node includes the module of processor 1, the module of data acquisition 1, the module of wireless receiving and dispatching 1 and the module of power supply 1, routing node includes the module of processor 2, the module of data acquisition 2, the module of wireless receiving and dispatching 2 and the module of power supply 2, coordinator node includes the module of processor 3, the module of wireless receiving and dispatching 3, serial communication module and the module of power supply 3, the module of wireless receiving and dispatching 1 sends data to the module of wireless receiving and dispatching 2 and the module of wireless receiving and dispatching 3 by Zigbee network, the module of wireless receiving and dispatching 1, the module of wireless receiving and dispatching 2 and the module of wireless receiving and dispatching 3 are each equipped with CC2520 and CC2591.The present invention can precisely hold the natural environment parameter such as soil temperature and humidity, intensity of illumination and rainfall, so, be easy to carry out remote monitor to the growth conditions of crops.
Description
Technical field
The present invention relates to internet of things field, more particularly, to the intelligent monitor system based on wireless senser.
Background technology
In agricultural is driven, labourer is to perceive the natural causes such as intensity of illumination, air humidity, rainfall by experience to be worked, and so, can not accurately hold the concrete numerical value of parameters, thus also it cannot be guaranteed that the good production yields of crops.To change this shape, at present, the country has been directed to the intelligence control system of agricultural planting, but they have the shortcomings that sensor network data redundancy, data monitoring precision be low, network energy consumption is high.
The content of the invention
The purpose of the present invention is the defect for overcoming above-mentioned prior art, intelligent monitor system based on wireless senser is provided, the natural environment parameter such as soil temperature and humidity, intensity of illumination and rainfall can precisely be held, so, it is easy to carry out the growth conditions of crops remote monitor, realization obtains larger production yields with the less energy and cost consumption.
The purpose of the present invention is achieved through the following technical solutions:
Intelligent monitor system based on wireless senser,Including multiple terminal nodes,Routing node,Coordinator node,Irrigation equipment and the Surveillance center for controlling irrigation equipment,Terminal node includes the module of processor 1,The module of data acquisition 1 being connected with the module of processor 1,The module of wireless receiving and dispatching 1 and the module of power supply 1,Routing node includes the module of processor 2,The module of data acquisition 2 being connected with the module of processor 2,The module of wireless receiving and dispatching 2 and the module of power supply 2,Coordinator node includes the module of processor 3,The module of wireless receiving and dispatching 3 being connected with the module of processor 3,Serial communication module and the module of power supply 3,The data that the module of wireless receiving and dispatching 1 gathers the module of data acquisition 1 send the module of wireless receiving and dispatching 2 and the module of wireless receiving and dispatching 3 to by Zigbee network,The module of wireless receiving and dispatching 2 sends the data that the module of data acquisition 2 is gathered to wireless receiving and dispatching 3 module by Zigbee network,Serial communication module sends the data that the module of wireless receiving and dispatching 3 is received to Surveillance center by GPRS network,The module of data acquisition 1 and the module of data acquisition 2 are each equipped with Temperature Humidity Sensor,Intensity of illumination sensor and rainfall amount sensor,The module of wireless receiving and dispatching 1,The module of wireless receiving and dispatching 2 and the module of wireless receiving and dispatching 3 are each equipped with radio frequency chip CC2520 and radio frequency amplifies front end CC2591.
When the present invention is applied, terminal node, routing node and coordinator node are deployed with each monitoring section, wherein, terminal node is mainly the various sensors of configuration, and it is mainly used in gathering various data messages, to obtain the natural environment parameter of crop growth;Routing node is mainly responsible for transfer and route data, sends the data that each sensor is gathered to coordinator node;Coordinator node mainly serves as the effect of controller, is responsible for starting network, and Configuration network address transfers data to Surveillance center.In terminal node, the module of data acquisition 1 is used for gathered data, and the communication algorithm of data is responsible for by the module of processor 1, and the control module of wireless receiving and dispatching 1 sends the data to wireless receiving and dispatching 2 module with Zigbee wireless communication modes.In routing node, the data are carried out by the module of processor 2 communicate algorithm and Processing Algorithm, the control module of wireless receiving and dispatching 2 sends the module of wireless receiving and dispatching 3 to Zigbee wireless communication modes.Simultaneously, also the module of wireless receiving and dispatching 3 equally, can be sent to by the module of wireless receiving and dispatching 2 by the modules acquiring data of data acquisition 2 in routing node, by processing 3 modules it is responsible for that these data are carried out to communicate algorithm and Processing Algorithm, control serial communication module sends Surveillance center to GPRS network.The information data that Surveillance center passes through to collect makes decisions, and controls the switch and irrigation volume of irrigation equipment.
Wherein, temperature sensor, humidity sensor, intensity of illumination sensor and rainfall amount sensor are respectively used to collecting temperature, humidity, intensity of illumination and rainfall information.Can the performance quality of radio receiving transmitting module will be directly connected to data and accurately be transmitted.In the present invention, from radio frequency chip CC2520 as the module of wireless receiving and dispatching 1, the module of wireless receiving and dispatching 2 and the module of wireless receiving and dispatching 3 main control chip, it has the advantages that, and high temperature resistant, sensitivity are high, performance coexists, and good and switching performance is good.And amplifying front end CC2591 for chip CC2520 increased radio frequency, both are supported the use can strengthen the transceiving range of data-signal, improve the data acquisition performance of system.
Further, the main control chip of the module of the processor 1, the module of the processor 2 and the module of the processor 3 is S3C2440A.Processor is the most crucial part of each node, is responsible for treatment, energy management, software communication agreement and other module work managements of data.In the present invention, from S3C2440A as processor main control chip, it has the advantages that low in energy consumption, data-handling capacity is strong and low cost.
Further, the temperature sensor and humidity sensor use TYX-CTWS1 type soil temperature-moisture sensors.TYX-CTWS1 is that soil moisture and soil temperature sensor are concentrated on into one, can so simplify instrument, the convenient measurement to soil information.Meanwhile, it also has the advantages that good stability, low in energy consumption, long service life.
Further, the intensity of illumination sensor is BH1750.BH1750 is built-in with analog-digital converter, without connecing outer member again by output digit signals, so greatly reducing power consumption and cost.
Further, the rainfall amount sensor is tipping-bucket rain-gauge.Tipping-bucket rain-gauge have the advantages that high precision, low cost, small volume, be easy to operation.
The invention has the advantages that:When the present invention is applied, terminal node and routing node are deployed with each monitoring section, wherein, terminal node is mainly the various sensors of configuration, and it is mainly used in gathering various data messages, to obtain the natural environment parameter of crop growth;Routing node is mainly responsible for transfer and route data, sends the data that each sensor is gathered to coordinator node.And coordinator node mainly serves as the effect of controller, it is responsible for starting network, Configuration network address transfers data to Surveillance center to control the operation of irrigation system.Wherein, temperature sensor, humidity sensor, intensity of illumination sensor and rainfall amount sensor are respectively used to the collection soil moisture, soil moisture, intensity of illumination and rainfall information, and remote monitor is carried out in order to the growth conditions to crops.The radio receiving transmitting module of each node is each equipped with radio frequency chip CC2520 and radio frequency amplifies front end CC2591, and they are supported the use the transceiving range that can strengthen data-signal, improves the data acquisition performance of system.
Brief description of the drawings
Fig. 1 is the structured flowchart of the intelligent monitor system based on wireless senser of the present invention;
Fig. 2 is the structured flowchart of the module of wireless receiving and dispatching 1 in the intelligent monitor system based on wireless senser of the present invention.
Specific embodiment
With reference to embodiment and accompanying drawing, the present invention is described in further detail, but embodiments of the present invention not limited to this.
Embodiment 1
As depicted in figs. 1 and 2,Intelligent monitor system based on wireless senser,Including multiple terminal nodes,Routing node,Coordinator node,Irrigation equipment and the Surveillance center for controlling irrigation equipment,Terminal node includes the module of processor 1,The module of data acquisition 1 being connected with the module of processor 1,The module of wireless receiving and dispatching 1 and the module of power supply 1,Routing node includes the module of processor 2,The module of data acquisition 2 being connected with the module of processor 2,The module of wireless receiving and dispatching 2 and the module of power supply 2,Coordinator node includes the module of processor 3,The module of wireless receiving and dispatching 3 being connected with the module of processor 3,Serial communication module and the module of power supply 3,The data that the module of wireless receiving and dispatching 1 gathers the module of data acquisition 1 send the module of wireless receiving and dispatching 2 and the module of wireless receiving and dispatching 3 to by Zigbee network,The module of wireless receiving and dispatching 2 sends the data that the module of data acquisition 2 is gathered to wireless receiving and dispatching 3 module by Zigbee network,Serial communication module sends the data that the module of wireless receiving and dispatching 3 is received to Surveillance center by GPRS network,The module of data acquisition 1 and the module of data acquisition 2 are each equipped with Temperature Humidity Sensor,Intensity of illumination sensor and rainfall amount sensor,The module of wireless receiving and dispatching 1,The module of wireless receiving and dispatching 2 and the module of wireless receiving and dispatching 3 are each equipped with radio frequency chip CC2520 and radio frequency amplifies front end CC2591.
When the present invention is applied, terminal node, routing node and coordinator node are deployed with each monitoring section, wherein, terminal node is mainly the various sensors of configuration, and it is mainly used in gathering various data messages, to obtain the natural environment parameter of crop growth;Routing node is mainly responsible for transfer and route data, sends the data that each sensor is gathered to coordinator node;Coordinator node mainly serves as the effect of controller, is responsible for starting network, and Configuration network address transfers data to Surveillance center.In terminal node, the module of data acquisition 1 is used for gathered data, and the communication algorithm of data is responsible for by the module of processor 1, and the control module of wireless receiving and dispatching 1 sends the data to wireless receiving and dispatching 2 module with Zigbee wireless communication modes.In routing node, the data are carried out by the module of processor 2 communicate algorithm and Processing Algorithm, the control module of wireless receiving and dispatching 2 sends the module of wireless receiving and dispatching 3 to Zigbee wireless communication modes.Simultaneously, also the module of wireless receiving and dispatching 3 equally, can be sent to by the module of wireless receiving and dispatching 2 by the modules acquiring data of data acquisition 2 in routing node, by processing 3 modules it is responsible for that these data are carried out to communicate algorithm and Processing Algorithm, control serial communication module sends Surveillance center to GPRS network.The information data that Surveillance center passes through to collect makes decisions, and controls the switch and irrigation volume of irrigation equipment.
Wherein, temperature sensor, humidity sensor, intensity of illumination sensor and rainfall amount sensor are respectively used to collecting temperature, humidity, intensity of illumination and rainfall information.Can the performance quality of radio receiving transmitting module will be directly connected to data and accurately be transmitted.In the present invention, from radio frequency chip CC2520 as the module of wireless receiving and dispatching 1, the module of wireless receiving and dispatching 2 and the module of wireless receiving and dispatching 3 main control chip, it has the advantages that, and high temperature resistant, sensitivity are high, performance coexists, and good and switching performance is good.And amplifying front end CC2591 for chip CC2520 increased radio frequency, both are supported the use can strengthen the transceiving range of data-signal, improve the data acquisition performance of system.
Preferably, the main control chip of the module of the processor 1, the module of the processor 2 and the module of the processor 3 is S3C2440A.Processor is the most crucial part of each node, is responsible for treatment, energy management, software communication agreement and other module work managements of data.In the present invention, from S3C2440A as processor main control chip, it has the advantages that low in energy consumption, data-handling capacity is strong and low cost.
Preferably, the temperature sensor and humidity sensor use TYX-CTWS1 type soil temperature-moisture sensors.TYX-CTWS1 is that soil moisture and soil temperature sensor are concentrated on into one, can so simplify instrument, the convenient measurement to soil information.Meanwhile, it also has the advantages that good stability, low in energy consumption, long service life.
Preferably, the intensity of illumination sensor is BH1750.BH1750 is built-in with analog-digital converter, without connecing outer member again by output digit signals, so greatly reducing power consumption and cost.
Preferably, the rainfall amount sensor is tipping-bucket rain-gauge.Tipping-bucket rain-gauge have the advantages that high precision, low cost, small volume, be easy to operation.
Above content is to combine the further description that specific preferred embodiment is made to the present invention, it is impossible to assert that specific embodiment of the invention is confined to these explanations.For general technical staff of the technical field of the invention, the other embodiment drawn in the case where technical scheme is not departed from should be included within the scope of the present invention.
Claims (5)
1. the intelligent monitor system of wireless senser is based on, it is characterised in that:Including multiple terminal nodes,Routing node,Coordinator node,Irrigation equipment and the Surveillance center for controlling irrigation equipment,Terminal node includes the module of processor 1,The module of data acquisition 1 being connected with the module of processor 1,The module of wireless receiving and dispatching 1 and the module of power supply 1,Routing node includes the module of processor 2,The module of data acquisition 2 being connected with the module of processor 2,The module of wireless receiving and dispatching 2 and the module of power supply 2,Coordinator node includes the module of processor 3,The module of wireless receiving and dispatching 3 being connected with the module of processor 3,Serial communication module and the module of power supply 3,The data that the module of wireless receiving and dispatching 1 gathers the module of data acquisition 1 send the module of wireless receiving and dispatching 2 and the module of wireless receiving and dispatching 3 to by Zigbee network,The module of wireless receiving and dispatching 2 sends the data that the module of data acquisition 2 is gathered to wireless receiving and dispatching 3 module by Zigbee network,Serial communication module sends the data that the module of wireless receiving and dispatching 3 is received to Surveillance center by GPRS network,The module of data acquisition 1 and the module of data acquisition 2 are each equipped with Temperature Humidity Sensor,Intensity of illumination sensor and rainfall amount sensor,The module of wireless receiving and dispatching 1,The module of wireless receiving and dispatching 2 and the module of wireless receiving and dispatching 3 are each equipped with radio frequency chip CC2520 and radio frequency amplifies front end CC2591.
2. the intelligent monitor system based on wireless senser according to claim 1, it is characterised in that:The main control chip of the module of the processor 1, the module of the processor 2 and the module of the processor 3 is S3C2440A.
3. the intelligent monitor system based on wireless senser according to any one in claim 1 ~ 2, it is characterised in that:The Temperature Humidity Sensor is TYX-CTWS1 type soil temperature-moisture sensors.
4. the intelligent monitor system based on wireless senser according to claim 3, it is characterised in that:The intensity of illumination sensor is BH1750.
5. the intelligent monitor system based on wireless senser according to claim 4, it is characterised in that:The rainfall amount sensor is tipping-bucket rain-gauge.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109845626A (en) * | 2019-01-28 | 2019-06-07 | 中国电建集团西北勘测设计研究院有限公司 | A kind of irrigation control system |
CN111784998A (en) * | 2020-07-14 | 2020-10-16 | 福建碧霞环保科技有限公司 | High-precision intelligent dynamic control data acquisition instrument and monitoring method |
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- 2015-12-09 CN CN201510909881.3A patent/CN106856040A/en active Pending
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109845626A (en) * | 2019-01-28 | 2019-06-07 | 中国电建集团西北勘测设计研究院有限公司 | A kind of irrigation control system |
CN111784998A (en) * | 2020-07-14 | 2020-10-16 | 福建碧霞环保科技有限公司 | High-precision intelligent dynamic control data acquisition instrument and monitoring method |
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