Design of Automatic Cruise Car Based on UWB Positioning
Authors: 
Pengcheng Xu, Yuanming Gong, and Jinyu PanAuthors Info & Claims
Pengcheng Xu, Yuanming Gong, and Jinyu PanAuthors Info & ClaimsSeptember 2019
Pages 579 - 583
Abstract
Aiming at the problems of traditional tracking, such as difficulty in deployment, low flexibility and high cost, this paper proposes and designs an automatic cruising car based on UWB positioning technology. The car adopts the Raspberry Pi 3B module as the core control unit, obtains the position through the UWB module, acquires the azimuth of the vehicle through the MPU9250 module, detects the obstacles in front through the ultrasonic sensor, and uses the incremental PID control algorithm to track the specified path. Different from the traditional way of laying magnetic needles and printing guide lines, position coordinate information is introduced in this design, and a series of coordinate points are used as the guiding path of the trolley. Tests show that the designed car can complete the function of automatic cruising according to the specified path, which has certain practical application value.
References
[1]
Yanlong Zhang (2014). Key technologies for indoor positioning. University of Science and Technology of China.
[2]
Lei Chen (2015). Research and implementation of RFID-based automatic cruise car positioning system. Zhejiang Agriculture and Forestry University.
[3]
Guizhen Zeng, Ping Wang, Yuming Zhang et al (2019). Intelligent Handling Car Based on UWB. Journal of Hubei Nationalities College, 37(2), 223--227.
[4]
[Xinke Li, Chao Gao, Yongcai Guo et al (2011). Self-tracking intelligent car design based on speech recognition and infrared photoelectric sensor. Sensors and Microsystems, 30(12), 105--108.
[5]
Pengbo Li (2012). Design and implementation of automatic cruise smart car based on video. Journal of Hebei University of Engineering, 29(4), 74--77.
[6]
Example detailed application of PID control algorithm, https://blog.csdn.net/lin5103151/article/details/89893380
Index Terms
- Design of Automatic Cruise Car Based on UWB Positioning
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Published In
September 2019
803 pages
ISBN:9781450372985
DOI:10.1145/3366194
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Association for Computing Machinery
New York, NY, United States
Publication History
Published: 20 September 2019
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- Research-article
- Research
- Refereed limited
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RICAI 2019
RICAI 2019: 2019 International Conference on Robotics, Intelligent Control and Artificial Intelligence
September 20 - 22, 2019
Shanghai, China
Acceptance Rates
RICAI '19 Paper Acceptance Rate 140 of 294 submissions, 48%;
Overall Acceptance Rate 140 of 294 submissions, 48%
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