Volume 7, Issue 2, June 2019, Page: 23-27
Seashore GPS Positioning Intelligent Monitoring System
Hu Yingkun, Guangdong Polytechnic of Industry & Commerce, Guangzhou, China
Zhong Yuling, Guangdong Polytechnic of Industry & Commerce, Guangzhou, China
Guan Taian, Guangdong Polytechnic of Industry & Commerce, Guangzhou, China
Received: Aug. 6, 2019;       Accepted: Aug. 28, 2019;       Published: Sep. 12, 2019
DOI: 10.11648/j.ijssn.20190702.12      View  736      Downloads  175
In some large scenic spots, such as seashore tourists, there may be accidents such as loss. In addition, in order to facilitate the management and monitoring of tourists, the project designed a system for seashore tourists positioning. Firstly, this paper introduces the overall design scheme of the system, in which the positioning tag uses MC13224 chip as the main processor, transmits GPS information to the positioning gateway through ZigBee communication mode, and receives information from the server side. Then, the hardware design block diagram and software design flow of the gateway and the base station are analyzed respectively. The validation shows that the location tag can send the location information to the server and receive the information from the server. It realizes that tourists can receive the information from the server. The client can monitor the location of tourists and alarm information. Finally, the application value of the system is analyzed.
GPS Positioning, LABEL, Gateway, Base Station
To cite this article
Hu Yingkun, Zhong Yuling, Guan Taian, Seashore GPS Positioning Intelligent Monitoring System, International Journal of Sensors and Sensor Networks. Vol. 7, No. 2, 2019, pp. 23-27. doi: 10.11648/j.ijssn.20190702.12
Copyright © 2019 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Li Yuanmao, Liu Guixiong, and Zeng Chenggang. Design of outdoor radioactive source information monitoring system based on GPS [J]. Journal of Electronic Measurement and Instruments, 2016, 33 (6): 1244-1253.
Chen Zhiyuan, Zhu Yecheng, and Zhou Zhuoquan. A smart home control system based on STM32 [J]. Application of electronic technology, 2012, 38 (9): 138-140.
Chen Qi, Han Bing, Qin Weijun, and Huang Fuwei. Design and implementation of Internet of Things gateway system based on Zigbee/GPRS [J]. Foreign electronic measurement technology, 2011, 48 (9): 367-372.
Yang Liu, and Mu Hao-miao. An orchard locomotive anti-collision and anti-dumping early warning system based on ZigBee wireless transmission [J]. Journal of Agricultural Engineering, 2014, 30 (21): 25-31.
Wu Wenping, and Wang Ruifeng. Application of GPS-ZigBee integrated positioning in modern tram positioning [J]. Urban Rail Transit Research, 2016, 19 (5): 133-136.
Kongxuehua. Design of an intelligent infusion control system [J]. Foreign electronic measurement technology, 2014, 33 (6): 73-77.
Yao Yunping. Design of intelligent infusion device control system based on single chip computer [J]. Journal of Shaanxi University of Science and Technology, 2010, 28 (4): 83-87.
Sun Shuying. Development and Application of a New Generation Embedded Microprocessor STM32F103 [J]. Microcomputer Applications, 2010, 20 (5): 43-47.
Lu Li, and Zhang Bo. High-speed network data acquisition system based on embedded TCP/IP protocol [J]. Journal of Instruments and Instruments, 2009, 30 (2): 405-409.
Xuhang. Embedded multi-channel high-speed data acquisition system [J]. Automation and instrumentation, 2013 (1): 148-150.
Chen Hong et al. Development of multi-channel weak voltage signal synchronous acquisition system [J]. Application of electronic technology, 2014 (40): 79-84.
Zhong Wentao. Field Information Detection and Recording System Based on Single Chip Microcomputer [J]. Electromechanical Engineering Technology, 2013, 42 (5): 26-30.
Ding Fan, and Zhou Yongming. Design of wireless multi-channel temperature data acquisition system based on ZigBee [J]. Instrument technology and sensors, 2013 (8): 72-78.
Pan Lingjiao, Zhang Zijia, and Fan Yanhu, etc. Design of 16-channel embedded synchronous data acquisition system [J]. Instrument technology and sensors, 2013 (11): 91-94.
Chen Tao, Guo Deke, Luo Xueshan, and Chen Honghui. A wireless sensor network data collection method based on mobile base station [J]. Journal of National Defense University of Science and Technology, 2011, 33 (2): 49-53.
Browse journals by subject