CN104123823A - Water resource monitoring system of wireless ad hoc network - Google Patents
Water resource monitoring system of wireless ad hoc network Download PDFInfo
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- CN104123823A CN104123823A CN201310144955.XA CN201310144955A CN104123823A CN 104123823 A CN104123823 A CN 104123823A CN 201310144955 A CN201310144955 A CN 201310144955A CN 104123823 A CN104123823 A CN 104123823A
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Abstract
The invention discloses a water resource monitoring system of a wireless ad hoc network. The system includes a gathering device, node devices, relay devices, a concentrator and water level displays, the gathering device is connected with the node devices, the node devices are connected with the water level displays respectively, and the gathering device is also connected with the concentrator; each of the relay devices is connected with a plurality of the node devices, bat least two node devices are connected between convergence device and each of the relay devices, each of the node devices can be connected with one more of the node devices, and each of the node devices is provided with a water level sensor. The system adopts the above structure, and allows the node devices to be provided with the water level displays respectively, and the water level displays are used for observing the water level condition of the positions of nodes, and allow water level information to be transmitted and gathered through a positioner and data analysis to be carried out in order to realize the real-time monitoring of the water resource.
Description
Technical field
The present invention relates to super low consumption wireless self-networking, be specifically related to the water resource monitoring system of the wireless self-networking in super low consumption wireless self-networking.
Background technology
For power department, traditional manual metering mode not only needs to drop into a large amount of manpower and materials and financial resources, and because customer volume is too large and position disperses, bring great inconvenience to staff, such defect more and more becomes the bottleneck place of restriction power department marketing development.The fundamental way that solves this series of problems be exactly adopt advanced reading technique be means, and be mainly by formations such as background system main website, concentrator, collector and intelligent electric meters now, main website is connected with the network of checking meter by concentrator, has high input, and efficiency is low.In traditional wireless network, data are all to carry out route according to the link setting, once there be node to break down, its all interdependent node all can be paralysed thereupon, and reliability is not good.In addition, in existing wireless network, also lack corresponding water source monitoring device, grasp in time the external environment condition situation of node present position, realize power load statistics, line loss analyzing, abnormal monitoring and the Long-distance Control of node are realized to best data transmission.
Summary of the invention
The present invention has overcome the deficiencies in the prior art, the water resource monitoring system of wireless self-networking is provided, on each node of system, be provided with water level display, for the water level situation of observer nodes present position, water level information can also be transmitted to gather by locating device and carry out data analysis, realize the real-time monitoring to water resource simultaneously.
For solving above-mentioned technical matters, the present invention is by the following technical solutions: a kind of water resource monitoring system of wireless self-networking, comprise convergence device, node device, trunking, concentrator and water level display, described convergence device is connected with multiple node devices, on each node device, be all connected with water level display, convergence device is also connected with concentrator simultaneously; On described trunking, can connect multiple node devices, between convergence device and trunking, be at least connected with two node devices, described node device can be connected with one or more node device, and level sensor is all set on each node device.
Further, the corresponding ports on described concentrator is connected with locating device.
Further, the communication protocol using on described concentrator is DL/T 645 (1997,2007) and DL/T 698 (2008), simultaneously the communication protocol of compatible DL/T 645-97 and DL/T 645-07.
Further, on described concentrator, be distributed with many channels.
Further, between described concentrator and convergence device, connect by network communication link.
Further, between described concentrator and locating device, connect by network communication link.
Compared with prior art, the invention has the beneficial effects as follows:
1, the present invention is provided with corresponding water level display on node device, can show in time the SEA LEVEL VARIATION that node device middle water level sensor sensing arrives, and this information is passed to convergence device, concentrator and locating device successively, locating device is located and is realized gathering of this information via satellite, be convenient to the analysis in later stage, realize the real-time monitoring to water resource.
2, the concentrator of using in the present invention uses wireless self-networking protocol stack, guarantee that networking flexibility, network are more reliable, communication efficiency is higher, user arranges still less, be easy to install, support automatic centralized reading, group to copy and point such as copies at the multiple mode of copying and accepting simultaneously, use more convenient.
Brief description of the drawings
Fig. 1 is structural representation of the present invention.
Embodiment
Below in conjunction with accompanying drawing, the present invention is further elaborated, and embodiments of the invention are not limited to this.
Embodiment:
As shown in Figure 1, the present invention includes convergence device, node device, trunking, concentrator and water level display, the corresponding ports on concentrator is connected with locating device.The communication protocol using on concentrator is wherein DL/T 645 (1997,2007) and DL/T 698 (2008), simultaneously the communication protocol of compatible DL/T 645-97 and DL/T 645-07.On concentrator, be distributed with in addition many channels.Between concentrator and convergence device, connect by network communication link.Between concentrator and locating device, connect by network communication link.The convergence device of the present embodiment is connected with multiple node devices, is all connected with water level display on each node device, and convergence device is also connected with concentrator simultaneously.On the trunking of the present embodiment, can connect multiple node devices, between convergence device and trunking, at least be connected with two node devices.Node device wherein can be connected with one or more node device, and level sensor is all set on each node device.Wherein preferred node device is THeNet-TM1123 node device, and convergence device is THeNet-TM1233 convergent point equipment, and trunking is that THeNet-TE1303 trunking and concentrator are THeNet_TE2223II type concentrator.
The course of work of the present invention is as follows: each node device co-operation is simultaneously along circuit passback data message, comprise water level information, be delivered on convergence device through trunking and node device, convergence device is crossed concentrator by information exchange again and is passed to locating device, these information are aggregated into via satellite control center by locating device, then just can analyze these information, when transmitting electric power data message, realize the real-time monitoring to water resource.Also observed stage information at any time on the water level display being simultaneously connected with node device, easy to use.
Just can realize as mentioned above this invention.
Claims (6)
1. the water resource monitoring system of a wireless self-networking, it is characterized in that: comprise convergence device, node device, trunking, concentrator and water level display, described convergence device is connected with multiple node devices, on each node device, be all connected with water level display, convergence device is also connected with concentrator simultaneously; On described trunking, can connect multiple node devices, between convergence device and trunking, be at least connected with two node devices, described node device can be connected with one or more node device, and level sensor is all set on each node device.
2. the water resource monitoring system of wireless self-networking according to claim 1, is characterized in that: the corresponding ports on described concentrator is connected with locating device.
3. the water resource monitoring system of wireless self-networking according to claim 1 and 2, it is characterized in that: the communication protocol using on described concentrator is DL/T 645 (1997,2007) and DL/T 698 (2008), the communication protocol of compatible DL/T 645-97 and DL/T 645-07 simultaneously.
4. the water resource monitoring system of wireless self-networking according to claim 1 and 2, is characterized in that: on described concentrator, be distributed with many channels.
5. the water resource monitoring system of wireless self-networking according to claim 1, is characterized in that: between described concentrator and convergence device, connect by network communication link.
6. the water resource monitoring system of wireless self-networking according to claim 1, is characterized in that: between described concentrator and locating device, connect by network communication link.
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CN201310144955.XA CN104123823A (en) | 2013-04-25 | 2013-04-25 | Water resource monitoring system of wireless ad hoc network |
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JP4122646B2 (en) * | 1999-09-07 | 2008-07-23 | オムロン株式会社 | Meter reading transmission method, meter reading transmission system and meter reading transmitter |
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Application publication date: 20141029 |