CN203721023U - Wireless sensing monitoring network mobile node in water environment - Google Patents

Wireless sensing monitoring network mobile node in water environment Download PDF

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Publication number
CN203721023U
CN203721023U CN201420127923.9U CN201420127923U CN203721023U CN 203721023 U CN203721023 U CN 203721023U CN 201420127923 U CN201420127923 U CN 201420127923U CN 203721023 U CN203721023 U CN 203721023U
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China
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module
water environment
wireless sensing
sensing monitoring
mobile node
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Expired - Fee Related
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CN201420127923.9U
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Chinese (zh)
Inventor
林志贵
刘英平
赵可
杨子原
王旭阳
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Tianjin Polytechnic University
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Tianjin Polytechnic University
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Abstract

The utility model relates to a wireless sensing monitoring network mobile node in a water environment, which is stable and has high efficiency for overcoming a defect that the variation tendency of the water environment cannot be comprehensively reflected in the prior art. The wireless sensing monitoring network mobile node comprises a processor module, a sensor module, a mobile module, a Zigbee wireless communication module and a power supply module, wherein the processor module adopts a microcontroller MC13211 for controlling, analyzing and processing water environment parameter data and controlling the working states of the Zigbee wireless communication module and the sensor module; the processor module is connected with the sensor module by an A/D conversion module integrated in the MC13211, and is connected with the Zigbee wireless communication module by an SPI (Serial Peripheral Interface) integrated inside, and is internally integrated with a memorizer for storing water environment parameter data; the power supply module adopts a lithium battery and a solar cell for supplying power to the processor module, the sensor module, the Zigbee wireless communication module and the mobile module; due to the mobile module, the wireless sensing monitoring network node in the water environment has a mobile function, so as to improve the flexibility and the motility of the whole monitoring network. The wireless sensing monitoring network mobile node has the characteristics of large monitoring range, flexibility in configuration, low power consumption, slight natural environment influence and low cost, and can achieve remote multi-point multi-parameter real-time online monitoring on the water environment and can timely find sudden water quality pollution accident.

Description

Water environment wireless sensing monitoring net mobile node
Technical field
The utility model relates to a kind of water environment wireless sensing monitoring net mobile node.Belong to radio communication and embedded system technology field.
Background technology
Domestic about water quality parameter, collection adopts the Water Test Kits of single parameter more, the problem such as its price is low, simple to operate, but can not monitor continuously water quality, and labour intensity is large, and maneuverability is poor, and acquisition speed is slow.Cannot meet water field of big area, the demand of complex-terrain water area water-quality parameter monitoring.Therefore we need to look for a kind of new technology, solve large area, many waters and complex-terrain water environment water quality parameter monitoring management.
Wireless sensor network is as an emerging technology, by being deployed in, cheap Nodes a large amount of in monitored area forms, by communication, form the ad-hoc network of a multi-hop, the perceptive object information in acquisition and processing monitored area collaboratively, and send to observer.Its appearance has produced a kind of brand-new Information acquisi-tion mode, in conjunction with the sensor of different types, in various fields such as environmental monitoring, military inspection, Smart Home, intelligent transportation, Industry Control, has broad application prospects.Water environment real-time monitoring system based on wireless sensor network is that wireless bed has been done network in the typical case's application in environmental monitoring field.Compare with existing water environment automatic monitoring system, that the water environment real-time monitoring system based on wireless sensor network has is little to eco-environmental impact, monitored density is high and in extensive range, the advantage such as system cost is low.
Water environment wireless sensing monitoring net is that a large amount of sensor nodes (quantity is from hundreds of to several thousand) are shed to waters interested, and node forms a wireless network fast by self-organization.Node is collection and the person of sending of information, also serves as the route person of information, and the data of collection arrive gateway by multi-hop route.Gateway is a special joint, can communicate by letter by Internet, mobile communications network, satellite Deng Yu Surveillance center.Conventionally node is affected by water environment, network route, energy etc. to lose function, cause this node institute overlay area to monitor.Therefore, provide the mobile node that can operate control, avoid causing monitoring blind spot generation because ordinary node loses efficacy.
Utility model content
The purpose of this utility model is to solve the deficiency that prior art exists, and a kind of water environment wireless sensing monitoring net mobile node is provided.It is large that this monitoring node has monitoring range; flexible configuration; feature low in energy consumption, little to natural environment influence, with low cost; can realize the multi-point remote multiparameter real time on-line monitoring to water environment; find in time paroxysmal water pollution accident, so that relevant departments can take measures in time, search and pollute source; reduce to pollute the impact on agricultural water, animal husbandry water and people's domestic water, monitoring and environmental protection that water environment is changed have great development prospect and realistic meaning.
The technical matters that the utility model solves can realize by the following technical solutions:
A water environment wireless sensing monitoring net mobile node, comprises processor module, sensor assembly, power module, mobile module and Zigbee wireless communication module.All modules are all passed through water-proofing treatment, and power module is processor module and sensor assembly, Zigbee wireless communication module and mobile module power supply.
Specifically, in described sensor assembly, sensor circuit connects pH sensor, salinity sensor and temperature sensor under water, can gather pH value, salinity value and the temperature in waters to be monitored, then the pH signal of collection, salinity signal and water temperature signal are converted to the voltage signal of 0~5V and deliver to processor module.
Further, the voltage signal that described processor module receiving sensor sends, processes and stores pH signal, salinity signal and water temperature signal, then by Zigbee wireless communication module, is sent to base station.It is core that processor module be take the MC13211 chip that Freescale company produces, and MC13211 has write the relative program of monitoring node, communicating by letter and serial communication between the monitoring collection, node networking, node that comprises water quality parameter and base station.Thereby realize the function of monitoring node.
Further, described power module comprise two parts power supply :+3.3V and+5V.Wherein a part of export after voltage stabilizing+5V of lithium battery output+12V DC voltage, gives sensor assembly, mobile module and memory module power supply.Another part by be converted to+3.3V of voltage stabilizing DC-voltage supply to processor module MC13211 and Zigbee wireless communication module.In order fully ensureing, to adopt lithium battery and solar cell Double-battery powered mode by the unmanned of monitoring node work, under existence conditions, to have improved to greatest extent the flying power of battery, guaranteed the life cycle of node.
Further, described Zigbee wireless communication module design.Between each monitoring node, pass through the networking of Zigbee communication protocol, and be connected with base station, by order, be subject to base station to control uploading data.Reticulate texture network based on IEEE802.15.4/zighee agreement is a kind of topological structure of multi-hop, can realize the point-to-point transmission between each node of network, and this structure is interconnected to form netted, and network is healthy and strong, and fault-tolerant ability is strong.
Further, described mobile module adopts H bridge circuit to drive the basic structure of servomotor to realize node motion.The rotation speed governing of motor is controlled by the adjustable waveform of microcontroller MC13211 output PWM dutycycle.H bridge circuit drives chip to adopt the MC33886 small power DC motor H bridge of Freescale company to drive chip.The inner integrated one group of full bridge driving circuit of MC33886 and corresponding control module, the maximum controlling current of output is 5A, and output frequency is less than the PWM waveform of 10KHz.Drive motor adopts DC servo motor, selects the servomotor of RS-380SH model, and it directly drags load running, simultaneously it again the direct control of suspension control signal carry out rotational speed regulation.
Advantage of the present utility model and effect: compared with prior art, that the water environment wireless sensing monitoring net mobile node that the utility model provides has is removable, dual power supply, programmable configuration, low in energy consumption, processor module outputs to mobile module by the integrated PWM in inside, and the object that has of controlling node moves.Power module adopts lithium battery and sun power dual power supply pattern, and when electric quantity of lithium battery exhausts, solar cell is its charging.In design, make full use of the internal resource of microprocessor MC13211, as the interfaces such as PWM, A/D conversion, SCI connect respectively mobile module, sensor assembly and Zigbee wireless communication module, simplify circuit design, improved stability, the reliability of system.By software, corresponding parameter is set, reaches configurability, make to be suitable for different monitoring water environment needs to node.
Accompanying drawing explanation
Fig. 1 is the system architecture schematic diagram of the utility model water environment wireless sensing monitoring net node;
Fig. 2 is the signal conditioning circuit principle connection layout of temperature sensor;
Fig. 3 is the signal conditioning circuit principle connection layout of PH sensor;
Fig. 4 is the signal conditioning circuit principle connection layout of salinity sensor;
Fig. 5 is the minimum system reference circuit principle connection layout of microcontroller MC13211;
Fig. 6 is emitting antenna and power amplifier modulate circuit principle connection layout;
Fig. 7 is power module circuitry principle connection layout;
Fig. 8 is mobile module motor-drive circuit principle connection layout.
Specific embodiments
Below in conjunction with embodiment, the utility model is described in further detail, but embodiment of the present utility model is not limited to this.
Fig. 1 is the system architecture schematic diagram of the water environment monitoring node of the utility model based on wireless sensor network.This node device comprises processor module, sensor assembly, power module, mobile module and Zigbee wireless communication module
(1) sensor assembly comprises sensor and modulate circuit two parts.
Sensor is responsible for gathering pH value, salinity value and the water temperature in waters to be monitored.Monitoring node is provided with pH sensor, salinity sensor and temperature sensor, can gather pH value, salinity value and the water temperature of water body, and modulate circuit is done the processing such as linearization, temperature compensation to the data that gather.
The modulate circuit principle connection layout of sensor as shown in Figure 2,3, 4, they are connected with the minimum system circuit of the MC13211 of microcontroller shown in Fig. 5 respectively.
(2) processor module comprises microcontroller MC13211, storer and A/D converter.
Microcontroller MC13211 is the control core of node, and as shown in Figure 5, it is responsible for controlling the functions such as collection, storage and forwarding of data.Water quality parameter after collecting and processing, is not to upload to immediately base station, therefore need to be temporarily stored according to certain storage organization node this locality.Water quality parameter can adopt the mode of regularly uploading, also can the instruction of passive reception host computer after, according to the requirement of host computer, upload corresponding water quality parameter historical data.
(3) Zigbee wireless communication module comprises emitting antenna and power amplifier modulate circuit.
Monitoring network is set up the radio communication based on Zigbee communication.Between node, by Zigbee wireless communication technology, carrying out the transmission of data, adopt the transmission of multi-hop formula that the water quality parameter of collection is pooled to base station, is communicated by letter the parameter converging is transferred to remote data center by GPRS in base station.The effect of emissive power amplifying circuit is that wireless transceiver power input is amplified to reach desired output power.Because digital received and sent is all realized by same antenna circuit, in antenna end, add the Transmit enable that a radio frequency single-pole double-throw switch (SPDT) is realized data.
Emitting antenna and power amplifier modulate circuit principle connection layout as shown in Figure 6, it is connected with the minimum system circuit of the MC13211 of microcontroller shown in Fig. 5.
(4) power module comprises energy supply and energy management.
Consider that monitoring node need to be deployed in water for a long time, often change battery and be not easy to realize, and manually change also extra labor intensive material resources of battery, increase monitoring cost, be also unfavorable for the continuation of monitoring.So add energy management module in the design of monitoring node, Real-Time Monitoring battery remaining power, by the dump energy of acquisition node, each module of node is carried out to necessary energy distribution, to reach the object that extends node life cycle and uninterruptedly monitor continuously waters.
Power module circuitry principle connection layout as shown in Figure 7, its can Real-Time Monitoring electric quantity of lithium battery, and can realize lithium battery and starve charging/discharging function.
(5) motor of mobile module drives.
In order to improve dirigibility and the maneuverability of whole monitoring network, the node that is thought of as the node of key position, the node that is positioned at monitored area core position and the more communication tasks of carrying installs mobile module additional, make node can on the water surface, move some distances, change the original position of terminal node self.Future can be in conjunction with Mobile routing agreement and node locating algorithm, reasonably change topology of networks and routed path, object is the consumption of balancing network energy, improve the dirigibility of network, flatly there is water monitoring data abnormal, can transfer the interdependent node that is equipped with mobile unit and again monitor water quality data parameter near the region of data exception, guarantee that data are reliable, avoid malfunction to report to the police, improve the stability of whole monitoring net.
As Fig. 8 mobile module motor-drive circuit principle connection layout, it drives the basic structure of servomotor to realize node motion by H bridge circuit.The rotation speed governing of motor is controlled by the adjustable waveform of microcontroller output PWM dutycycle.

Claims (8)

1. a water environment wireless sensing monitoring net mobile node, it is characterized in that: comprise processor module, sensor assembly, mobile module, Zigbee wireless communication module and power module, it is processor module, sensor assembly, Zigbee wireless communication module and mobile module power supply that power module adopts lithium battery and solar cell dual power supply.
2. water environment wireless sensing monitoring net mobile node according to claim 1, is characterized in that: described sensor assembly comprises sensor and modulate circuit.
3. water environment wireless sensing monitoring net mobile node according to claim 1, is characterized in that: described Zigbee wireless communication module adopts the inner integrated transceiver wireless interface of MC13211 to send data.
4. water environment wireless sensing monitoring net mobile node according to claim 1, is characterized in that: described mobile module adopts H bridge circuit to drive servomotor, by PWM interface, is connected with processor module.
5. water environment wireless sensing monitoring net mobile node according to claim 1, is characterized in that: described processor module comprises microcontroller, A/D conversion and storer.
6. water environment wireless sensing monitoring net mobile node according to claim 5, is characterized in that: described processor module is connected with sensor assembly by inner integrated A/D translation interface.
7. water environment wireless sensing monitoring net mobile node according to claim 5, is characterized in that: described processor module is connected with mobile module by inner integrated PWM interface.
8. water environment wireless sensing monitoring net mobile node according to claim 5, is characterized in that: described storer is that processor is inner integrated, for storage of water environmental monitoring data.
CN201420127923.9U 2014-03-17 2014-03-17 Wireless sensing monitoring network mobile node in water environment Expired - Fee Related CN203721023U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113624933A (en) * 2021-08-13 2021-11-09 辽宁科技学院 Distributed nitrogen and phosphorus monitoring system and use method thereof

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113624933A (en) * 2021-08-13 2021-11-09 辽宁科技学院 Distributed nitrogen and phosphorus monitoring system and use method thereof

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CF01 Termination of patent right due to non-payment of annual fee

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