Balance car indoor positioning and navigation system based on single-line laser radar

A technology of lidar and self-balancing vehicle, which is used in surveying, mapping and navigation, radio wave measurement system, and re-radiation of electromagnetic waves, etc. It can solve problems such as inability to move laterally, inability to decompose speed, and high road requirements.

Active Publication Date: 2020-06-19
ZHEJIANG UNIV OF TECH
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  • Summary
  • Abstract
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  • Claims
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AI Technical Summary

Problems solved by technology

Liao Lunjia proposed an indoor navigation vehicle based on laser SLAM (Liao Lunjia. An indoor navigation vehicle based on laser SLAM [P]. Chinese patent: CN110207705A, 2019-09-06) uses the mecanum wheel as the car chassis, but due to Due to terrain restriction

Method used

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  • Balance car indoor positioning and navigation system based on single-line laser radar
  • Balance car indoor positioning and navigation system based on single-line laser radar
  • Balance car indoor positioning and navigation system based on single-line laser radar

Examples

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Embodiment Construction

[0063] Below in conjunction with accompanying drawing, the example of the present invention is described in further detail:

[0064] An indoor positioning and navigation system for a balance car based on single-line laser radar includes: a server, a host computer, a sensor, a motion controller and a motion actuator.

[0065] Wherein, the server can obtain the real-time position and status information of the two-dimensional map and the balance vehicle through Socket communication, and display the information on the screen for the operator to observe. Then the operator can input the target position of the balance car into the server, and the server can send the coordinates of the target point to the host computer through Socket communication.

[0066] The host computer first uses the serial port to read sensor information and encoder data such as IMU and lidar, and then uses the two-dimensional laser SLAM algorithm to calculate the information to obtain a two-dimensional map and...

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Abstract

The invention discloses a balance car indoor positioning and navigation itinerant system based on a single-line laser radar. The balance car indoor positioning and navigation itinerant system comprises a server, an upper computer, a sensor, a motion controller and a motion actuator. Firstly, an operator inputs coordinates of a target point in the server; the server sends the coordinates of the target point to the upper computer, the upper computer uses sensor information to complete self-positioning and path planning of the balance car, and the upper computer sends the expected angular velocity and the expected linear velocity planned by the path to the motion controller; the motion controller receives information sent by the upper computer, collects sensor information at the same time, calculates a PWM wave duty ratio required by the motion actuator by using the information in combination with an active disturbance rejection control method, and then sends the PWM wave to the motion actuator; after the motion actuator receives the PWM waves, the balance car is driven to run to a target point while self-balancing of the balance car is completed; finally, the operator can see the real-time position and state information of the map and the balance car on the server.

Description

technical field [0001] The invention relates to a service and logistics scene system of an indoor mobile robot, in particular to a positioning and navigation system of a balance car based on a single-line laser radar. Background technique [0002] In recent years, with the rapid development of robot technology, robots have been able to replace people in many dangerous workplaces to complete work, and can also help people complete many repetitive tasks. For example, in current medical, firefighting, logistics and other application scenarios, the robot is often guided to its destination by setting the robot's track in advance (placement of markers such as magnetic guide leads, QR codes, etc.). Although this is the most simple, effective and low-cost method, this method ignores the problems that often occur in practice, such as obstacles on the pre-set track and the inability to fully utilize the robot resources. Therefore, the sensor carried by the robot is used to perceive i...

Claims

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Application Information

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IPC IPC(8): G01S17/66G01S17/58G01S17/93G01C22/00
CPCG01C22/00G01S17/58G01S17/66G01S17/93
Inventor 禹鑫燚钱学成董辉欧林林崔朱帆吴祥童涛
Owner ZHEJIANG UNIV OF TECH
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