Low power consumption water level telemetry system based on artificial intelligence cloud recognition water gauge
A technology of artificial intelligence and telemetry system, applied in character and pattern recognition, level indicators of level members, instruments, etc., can solve the problems of complex algorithms, high cost of hardware equipment, poor scalability, etc., and achieve strong environmental adaptability, The effect of simple structure and easy purchase
Inactive Publication Date: 2021-11-23
淮河水利委员会水文局(信息中心)
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Problems solved by technology
No matter which type of water level measurement sensor needs to rely on the site conditions for infrastructure construction, for example, the use of float water level gauges requires logging construction, which is costly, and logging needs to be dredged every year; pressure water level gauges need to prevent silting when they are used on site , to prevent naked leakage when the water recedes, and to avoid lightning strikes; radar and ultrasonic water level gauges need to build poles along the river, and poles that are too long or too high will lead to difficulties in maintenance and repair; all of the above measurement methods require regular visits On-site manual observation for data calibration
[0003] The central station can only read the data but cannot check the on-site conditions. When the data is abnormal, there is no traceability
[0004] At present, some products on the market, such as water gauge reading smart domes, use image recognition water gauge to read water level data, which has the disadvantages of needing AC power supply, high power consumption, and high cost, and is not suitable for remote applications without AC power. It is difficult to popularize in a large area; at the same time, although the built-in firmware of the camera claims to comply with the SL651-2014 "Hydrological Monitoring Data Communication Protocol", in actual applications, the communication protocols used in each province, city, and region have their own emphasis, and the communication function codes are different. Therefore, it cannot meet the practical application of various scenarios, and the scalability is poor
[0005] Traditional non-artificial intelligence image detection and recognition is usually based on grayscale, features and relationships. This technology relies on certain algorithms and specific scene optimization methods, resulting in weak generalization capabilities, complex algorithms, and long time-consuming. It is difficult to achieve real-time and universal Adaptability, no breakthrough development, low water gauge detection accuracy and recognition rate, and productization and other factors failed to meet the actual requirements. Practical degree
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[0061] In order to make the object, technical solution and advantages of the present invention clearer, the present invention will be further described in detail below in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described here are only used to explain the present invention, not to limit the present invention.
[0062] Such as figure 1 As shown, the low-power water level telemetry system based on artificial intelligence cloud recognition water gauge includes a telemetry station, a central station server, and a cloud server. The central station server communicates with a client computer through a local area network or the Internet, and the telemetry station includes A network camera aimed at the water gauge, a telemetry terminal, a battery for power supply, and a solar panel for charging the battery, the network camera is aligned with the water gauge to collect images, save the images, and send the images t...
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The invention relates to a low-power water level telemetry system based on artificial intelligence cloud recognition water gauge, including a telemetry station, a central station server, and a cloud server. The central station server communicates with a client computer through a local area network or the Internet. The telemetry station includes an alignment The network camera of the water gauge, the telemetry terminal, the storage battery for power supply, and the solar panel for charging the storage battery. The network camera collects images facing the water gauge, saves the images, and sends the images to the cloud server. The cloud server recognizes the images, The water level data is transmitted back to the telemetry station, and the telemetry station processes the water level data and sends it to the central station server. The system has low power consumption, low cost, and strong environmental adaptability; not only can the quasi-water level data be measured, but also the images taken on site can be seen clearly. Through image comparison, it is no longer necessary to manually go to the site for data calibration, and the implementation effect is good. .
Description
technical field [0001] The invention relates to a low-power consumption water level remote measurement system based on artificial intelligence cloud recognition water gauge, and belongs to the technical field of hydrological automatic measurement and report. Background technique [0002] At present, the water level measurement sensors of the hydrological automatic measurement and reporting system can be divided into two categories: contact type and non-contact type. Contact type water level gauges include float water level gauges, pressure water level gauges, electronic water gauges, etc. Non-contact water level gauges include radar water level gauges , Ultrasonic water level gauge, etc. No matter which type of water level measurement sensor needs to rely on the site conditions for infrastructure construction, for example, the use of float water level gauges requires logging construction, which is costly, and logging needs to be dredged every year; pressure water level gauge...
Claims
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IPC IPC(8): G06K9/00G06K9/34G06K9/62G01F23/04G06N3/04G06N3/08
CPCG01F23/04G06N3/08G06V20/20G06V10/26G06V2201/02G06N3/045G06F18/214
Inventor 熊启龙陈宏立吴恒清郑建良刘进喜孙中星贾学松孙冶
Owner 淮河水利委员会水文局(信息中心)
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