Remote inclination angle measurement system and method based on 5G mobile communication

A mobile communication and measurement system technology, applied in the field of 5G mobile communication, can solve the problems of inability to achieve remote deployment and real-time monitoring, high installation accuracy requirements, and low measurement frequency, achieving strong robustness and real-time performance, reducing The effect of installation cost and strong anti-interference ability

Pending Publication Date: 2021-05-28
SHANGHAI UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Most of the existing inclination measurement devices are handheld terminals, which require manual operation, and cannot be remotely deployed and monitored in real time. A small number of remote inclination measurement devices based on the Internet of Things have problems such as long delay, low measurement frequency, and susceptibility to interference.
At the same time, most of the existing inclination measuring equipment needs to be parallel or perpendicular to the rotation axis of the measured object, which requires high installation accuracy

Method used

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  • Remote inclination angle measurement system and method based on 5G mobile communication
  • Remote inclination angle measurement system and method based on 5G mobile communication
  • Remote inclination angle measurement system and method based on 5G mobile communication

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0031] see figure 1 , the remote inclination measurement system based on 5G mobile communication, including: an angle measurement module 2, a 5G communication module 3 and a power supply module 1; it is characterized in that: the angle measurement module 2 is used to measure the plane inclination angle and the rotation axis; The 5G communication module 3 is used to send the measurement results of the angle measurement module 2 to the cloud server through the 5G mobile communication network and receive control instructions; the angle measurement module 2 and the 5G communication module 3 are connected by a USB cable; the power module 1 It is used to supply power to the angle measurement module 2 and the 5G communication module 3.

[0032] This embodiment is based on the remote inclination measurement system of 5G mobile communication, and remotely measures the inclination angle of planes such as the control surface of the aircraft through the 5G mobile communication network and...

Embodiment 2

[0034] This embodiment is basically the same as Embodiment 1, especially in that:

[0035] see Figure 1-Figure 5 , the angle measurement module 2 includes a 6-axis inertial sensor 2-1 and a microprocessor 2-2; the 6-axis inertial sensor includes a 3-axis accelerometer and a three-axis gyroscope; the inertial sensor 2-1 is used for Acquire the acceleration and angular velocity of the X, Y, and Z axes; the microprocessor 2-2 is used to process the inertial sensor data in real time to obtain the tilt angle and rotation axis of the side, and simultaneously send the measurement to the 5G communication module 3 through the USB cable Data frame, receiving control instruction frame.

[0036] The inertial sensor 2-1 in the angle measurement module 2 communicates with the microprocessor 2-2 using the SPI protocol, and the microprocessor 2-2 communicates with the 5G communication module 3 using the USB2.0 protocol.

[0037] The microprocessor 2-2 in the angle measurement module 2 uses...

Embodiment 3

[0054] This embodiment is basically the same as the above-mentioned embodiment, and the special features are:

[0055] A remote inclination measurement system based on 5G mobile communication, including an angle measurement module 2, a 5G communication module 3 and a power module 1. For angle measurement module 2, ADIS16465 is used as inertial sensor 2-1 to provide raw data of three-axis angular velocity and three-axis acceleration, and STM32F103C8T6 is selected as microcontroller 2-2; for 5G communication module 3, RK3328 chip is used as microcomputer 3-1 , Huawei MH5000 module is used as 5G mobile data terminal 3-2, and mobile 5G SIM card is used. The power module 1 stabilizes the voltage of the lithium battery at 5V to supply power to the 5G communication module 3, and stabilizes the voltage at 3.3V to supply power to the angle measurement module 2.

[0056] The angle measurement module 2 is connected to the microcomputer in the 5G communication module 3 using a USB2.0 cab...

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Abstract

The invention provides a remote inclination angle measurement system and method based on 5G mobile communication. The system comprises an angle measurement module, a 5G communication module and a power supply module. The angle measurement module is used for measuring a plane inclination angle and a rotation axis. The 5G communication module is used for sending a measurement result of the angle measurement module to a cloud server through a 5G mobile communication network and receiving a control instruction. The power supply module is used for supplying power to the angle measurement module and the 5G communication module. According to the invention, the plane rotation axis and the rotation angle can be measured, the installation difficulty is reduced, the angle measurement result can be remotely monitored in real time by using the 5G mobile communication network, the time delay is greatly reduced, and the anti-interference capability is enhanced.

Description

technical field [0001] The invention relates to the technical field of 5G mobile communication, in particular to a remote inclination measurement system and method based on 5G mobile communication. Background technique [0002] In June 2019, the Ministry of Industry and Information Technology issued 5G licenses to four companies including China Mobile, China Telecom, China Unicom and China Radio and Television. China officially entered the first year of 5G commercial use. It features high bandwidth, low latency, and wide connections. Most of the existing inclination measurement devices are handheld terminals, which require manual operation, and cannot be remotely deployed and monitored in real time. A small number of remote inclination measurement devices based on the Internet of Things have problems such as large delay, low measurement frequency, and susceptibility to interference. . At the same time, most of the existing inclination measuring equipment needs to be parall...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01C9/00G08C17/02
CPCG01C9/00G08C17/02
Inventor 杨庆华陈奇屠晓伟
Owner SHANGHAI UNIV
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