TY - GEN
T1 - The communication system constructing image together with data supervising
AU - Chang, Shyang Lih
AU - Cho, Yu An
AU - Tsai, Cheng Pei
AU - Chen, Sei Wan
PY - 2010
Y1 - 2010
N2 - This paper proposes the communication system which is constructed image monitoring together with data examined. This system is mainly applied to detect and pre-warm the hillside calamity. Firstly, set up various inducting installations on the monitored hillside. After the examined data are digital coded, these installations will reveal these data by the way of highly brightened LED lights. On the other hand, remote receiver will focus on this monitored hillside with HD CCD camera. Thus, not only the situation of the target hillside will be fetched well via the LED lights, but also the result inspected will be fully comprehended when the data is decoded. The method and device that this research institute offers will replace recent measure equipments installed in slippery district, either wired or wireless communicator will be no need any more. This communication system gathers the data surveyed in target region and passes the image figures, which are light-arranged already, to distant device. The function of Monitoring & Communication is thus finished. Is equal to this system improves the function of video camera from a simply image monitoring to materials transmitting and communicating. It will be more convenient to build the hillside measure equipment, and simplify the monitoring system, that can save more expenditure. To enable this system operating rapidly, FPGA in hardware circuit is chosen and to decode the LED light symbol to make the data among images be understood quickly.
AB - This paper proposes the communication system which is constructed image monitoring together with data examined. This system is mainly applied to detect and pre-warm the hillside calamity. Firstly, set up various inducting installations on the monitored hillside. After the examined data are digital coded, these installations will reveal these data by the way of highly brightened LED lights. On the other hand, remote receiver will focus on this monitored hillside with HD CCD camera. Thus, not only the situation of the target hillside will be fetched well via the LED lights, but also the result inspected will be fully comprehended when the data is decoded. The method and device that this research institute offers will replace recent measure equipments installed in slippery district, either wired or wireless communicator will be no need any more. This communication system gathers the data surveyed in target region and passes the image figures, which are light-arranged already, to distant device. The function of Monitoring & Communication is thus finished. Is equal to this system improves the function of video camera from a simply image monitoring to materials transmitting and communicating. It will be more convenient to build the hillside measure equipment, and simplify the monitoring system, that can save more expenditure. To enable this system operating rapidly, FPGA in hardware circuit is chosen and to decode the LED light symbol to make the data among images be understood quickly.
KW - Distant control
KW - Image recognition
KW - Slippery district detects
UR - http://www.scopus.com/inward/record.url?scp=77958130756&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=77958130756&partnerID=8YFLogxK
U2 - 10.1109/ITAPP.2010.5566360
DO - 10.1109/ITAPP.2010.5566360
M3 - Conference contribution
AN - SCOPUS:77958130756
SN - 9781424451432
T3 - International Conference on Internet Technology and Applications, ITAP 2010 - Proceedings
BT - International Conference on Internet Technology and Applications, ITAP 2010 - Proceedings
T2 - International Conference on Internet Technology and Applications, ITAP 2010
Y2 - 21 August 2010 through 23 August 2010
ER -