Design of Mobile Video Acquisition and Communication System Based on Embedded Technology

Feng Liu; Xin Kun Zhang; Can Yu; Jun Xiang Gao

doi:10.4028/www.scientific.net/AMR.694-697.2634

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 694-697Design of Mobile Video Acquisition and...

Design of Mobile Video Acquisition and Communication System Based on Embedded Technology

Abstract:

In recent years, video data acquisition and wireless communication are increasingly applied in the field of intelligent transportation and environmental monitoring due to its promising capability. A design of data acquisition and communication system based on embedded technology is proposed in this paper. The architecture is discussed, and the detailed design of the system is given including hardware and software solution. Chip S3C6410 and DM642 were considered as the core of information acquisition and processing. Acquired data was sent to database server on control center with integrating wireless mobile network (CDMA). Through the main page of the website based on LAMP technology, it can realize the remote access of sensor monitoring data and control the devices on the vehicle. It also supports the query of the historical records and download of the acquisition data to the client according to requests. Experiment results show that the working performance of the system is quite stable and can reach the design requirements in real-time data acquisition and remote control. Furthermore, the system has the characteristics of good expansibility, networking flexibility and low cost. The design gives a new way to collect the video data of environment instead of the traditional way using wires or manually.

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Periodical:

Advanced Materials Research (Volumes 694-697)

Pages:

2634-2637

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.694-697.2634

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Online since:

May 2013

Authors:

Feng Liu, Xin Kun Zhang, Can Yu, Jun Xiang Gao

Keywords:

Intelligent Transportation System (ITS), Internet of Things (IOT), Video Monitoring

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References

[1] Fernback. J. Sousveillance: Communities of resistance to the surveillance environment. Telematics and Information, 2013, 30(1): 11-21.

DOI: 10.1016/j.tele.2012.03.003

Google Scholar

[2] Semertzidis. T., Dimitropoulos. K., Koutsia. A. Video sensor network for real-time traffic monitoring and surveillance. Intelligent Transport Systems, 2010, 4(2):103-112.

DOI: 10.1049/iet-its.2008.0092

Google Scholar

[3] Akyildiz. I.F., Melodia. T., Chowdury. K.R. Wireless multimedia sensor networks: A survey, IEEE Wireless Communications, 2007, 14(6): 32-39.

DOI: 10.1109/mwc.2007.4407225

Google Scholar

[4] Qu. Q., Li. B., Chen. Y. Research on high speed video transmission over Ethernet based on embedded Linux system, Measurement & Control Technology, 2012, 31(5): 110-117.

Google Scholar

[5] Chen. H., Shen. X., Mei. F. Embedded remote video surveillance system based on ARM, Control Engineering and Applied Informatics, 2011, 13(3): 51-57.

Google Scholar

[6] Zhang. X. A design of embedded video process circuit, Modern Radar, 2012, 34(4): 79-81.

Google Scholar

[7] Meng-Shiuan Pan, Lun-Wu Yeh, Yen-Ann Chen, et al. A WSN-Based Intelligent Light Control System Considering User Activities and Profiles, IEEE Sensors Journal, 2008, 8(10): 1710-1721.

DOI: 10.1109/jsen.2008.2004294

Google Scholar

[8] Lu. S, Huang. X., Cui. L. Design and implementation of an ASIC-based sensor device for WSN applications, IEEE Transactions on Consumer Electronics, 2009, 55(4):1959-1967.

DOI: 10.1109/tce.2009.5373756

Google Scholar

[9] Alippi. C., Camplani. R., Galperti. C. A Robust, Adaptive, Solar-Powered WSN Framework for Aquatic Environmental Monitoring, IEEE Sensors Journal, 2011, 11(1):45-55.

DOI: 10.1109/jsen.2010.2051539

Google Scholar