Hydrologic monitoring wireless sensor node apparatus based on real-time embedded CPS

A wireless sensor and hydrological monitoring technology, applied in measurement devices, open-air water source surveys, instruments, etc., can solve problems such as poor versatility, poor reliability, and low efficiency

Active Publication Date: 2016-10-12
KUNMING UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The technical problem to be solved by the present invention is: the present invention provides a hydrological monitoring wireless sensor node device based on real-time embedded CPS, which fills the gaps in the existing hydrological monitoring

Method used

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  • Hydrologic monitoring wireless sensor node apparatus based on real-time embedded CPS
  • Hydrologic monitoring wireless sensor node apparatus based on real-time embedded CPS
  • Hydrologic monitoring wireless sensor node apparatus based on real-time embedded CPS

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Experimental program
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Embodiment 1

[0038] Embodiment 1: as Figure 1-10 As shown, the wireless sensor node device for hydrological monitoring based on real-time embedded CPS includes data acquisition module 1, control module 2, wireless communication module 3, power supply module 4, antenna I5, antenna II6, resin sealant layer I10, resin sealant Layer II11, resin sealing layer III12, polysulfone mold layer I13, polysulfone mold layer II14, solar panel 15; the data acquisition module 1 includes a liquid level sensor 7, a rainfall sensor 8, and a digital temperature and humidity sensor 9; data acquisition Module 1 is connected to control module 2, control module 2 is connected to wireless communication module 3, power supply module 4 is respectively connected to data acquisition module 1, control module 2, and wireless communication module 3; antenna I5 is fixed on the surface layer through resin sealant layer III12 On the polysulfone mold layer I13, the antenna II6 is fixed on the surface polysulfone mold layer ...

Embodiment 2

[0042] Embodiment 2: as Figure 1-10 As shown, the hydrological monitoring wireless sensor node device based on real-time embedded CPS, this embodiment is the same as Embodiment 1, wherein:

[0043]Preferably, the rain sensor 8 includes an arched glass plate 16, a diffractive optical element I17, a focused infrared beam transmitter 18, an RC ring oscillation circuit I19, a polycarbonate transparent shell 20, an optical receiver 21, and a gain amplifier circuit I22 wherein the straight edge of the arched glass plate 16 is seamlessly connected with the diffractive optical element I17 through polycarbonate and silica gel, the beam sending end of the focused infrared beam transmitter 18 is embedded in the diffractive optical element I17, and the focused infrared beam transmitter 18 is not embedded The other parts of the diffractive optical element I17 are sealed by opaque light-shielding materials to prevent a part of the emitted infrared light beam from being directly received by...

Embodiment 3

[0044] Embodiment 3: as Figure 1-10 As shown, the wireless sensor node device for hydrological monitoring based on real-time embedded CPS, this embodiment is the same as Embodiment 2, wherein:

[0045] Preferably, the digital temperature and humidity sensor 9 is an improved intelligent temperature sensor DS18B20, whose maximum resolution can reach 0.0625 degrees Celsius. DS18B20 can directly read the measured temperature value, the temperature measurement range is -55~+125°C, with an increment of 0.5°C, and it uses a wire system to connect with the microcontroller. The unique single-wire interface only needs one port pin for communication, without external devices The external hardware circuit is reduced, and the cost is low and the use is convenient.

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Abstract

The invention relates to a hydrologic monitoring wireless sensor node apparatus based on a real-time embedded CPS, and belongs to the field of a hydrologic monitoring device. The hydrologic monitoring wireless sensor node apparatus comprises a data acquisition module, a control module, a wireless communication module and a power supply module, wherein the data acquisition module is connected with the control module, the control module is connected with the wireless communication module, and the power supply module is respectively connected with the data acquisition module, the control module and the wireless communication module. The hydrologic monitoring wireless sensor node apparatus is simple in structure, low in cost and convenient to operate; by utilizing the micro wireless sensor with the sensing capacity, calculation capacity and wireless communication capacity as well as the characteristics of nodes such as low cost, low power consumption, multiple functions, wide monitoring area coverage range, scattered address locations and the like, the hydrologic variation of a field geographic environment is monitored in real time by virtue of the wireless sensor node. The power supply module adopts a double-power-supply mode, namely a chargeable battery and a solar panel, so that not only is the energy consumption reduced, but also the manpower cost is saved, the secondary pollution of a lead storage battery is avoided, and an energy-saving environment-friendly effect is realized.

Description

technical field [0001] The invention relates to a hydrological monitoring wireless sensor node device based on a real-time embedded CPS, and belongs to the technical field of hydrological monitoring equipment. Background technique [0002] Due to the uneven distribution of water resources in my country, complex topography, diverse climates, and unbalanced economic development, frequent floods and droughts have occurred in my country, which have brought huge losses to human life and economic development. Hydrological work is the foundation of water conservancy work, and hydrological survey is an important index to measure water conservancy work. The accuracy and real-time performance of hydrological information detected by the hydrological monitoring system directly affects personal and property safety, reservoir flood control safety, and agricultural irrigation. [0003] In order to prevent floods and reduce economic losses caused by floods and droughts, our country has inve...

Claims

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Application Information

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IPC IPC(8): G01C13/00
CPCG01C13/00
Inventor 张晶马晨李英娜吴晟江虹范洪博贾连印李润鑫容会
Owner KUNMING UNIV OF SCI & TECH
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