TY - GEN
T1 - Driver face tracking using semantics-based feature of eyes on single FPGA
AU - Yu, Ying-Hao
AU - Chen, Ji-An
AU - Ting, Yi-Siang
AU - Kwok, Ngaiming
PY - 2017
Y1 - 2017
N2 - Tracking driver's face is one of the essentialities for driving safety control. This kind of system is usually designed with complicated algorithms to recognize driver's face by means of powerful computers. The design problem is not only about detecting rate but also from parts damages under rigorous environments by vibration, heat, and humidity. A feasible strategy to counteract these damages is to integrate entire system into a single chip in order to achieve minimum installation dimension, weight, power consumption, and exposure to air. Meanwhile, an extraordinary methodology is also indispensable to overcome the dilemma of low-computing capability and real-Time performance on a low-end chip. In this paper, a novel driver face tracking system is proposed by employing semantics-based vague image representation (SVIR) for minimum hardware resource usages on a FPGA, and the real-Time performance is also guaranteed at the same time. Our experimental results have indicated that the proposed face tracking system is viable and promising for the smart car design in the future.
AB - Tracking driver's face is one of the essentialities for driving safety control. This kind of system is usually designed with complicated algorithms to recognize driver's face by means of powerful computers. The design problem is not only about detecting rate but also from parts damages under rigorous environments by vibration, heat, and humidity. A feasible strategy to counteract these damages is to integrate entire system into a single chip in order to achieve minimum installation dimension, weight, power consumption, and exposure to air. Meanwhile, an extraordinary methodology is also indispensable to overcome the dilemma of low-computing capability and real-Time performance on a low-end chip. In this paper, a novel driver face tracking system is proposed by employing semantics-based vague image representation (SVIR) for minimum hardware resource usages on a FPGA, and the real-Time performance is also guaranteed at the same time. Our experimental results have indicated that the proposed face tracking system is viable and promising for the smart car design in the future.
UR - https://hdl.handle.net/1959.7/uws:67450
U2 - 10.1117/12.2280295
DO - 10.1117/12.2280295
M3 - Conference Paper
SN - 9781510613508
BT - Proceedings of SPIE : Second International Workshop on Pattern Recognition, 1-3 May, 2017, Singapore
PB - SPIE
T2 - International Workshop on Pattern Recognition
Y2 - 1 May 2017
ER -
