TY - GEN
T1 - FPGA design for multi-filtering techniques using flag-bit and flicker clock
AU - Salih, Muataz H.
AU - Arshad, M. R.
PY - 2010
Y1 - 2010
N2 - Real time systems typically suffer from delay in data processing. This delay is caused by many reasons such as computational power, processor unit architecture, and synchronization signals in these systems. In order to increase the processing power, a new architecture and clocking technique is carried out in this paper hence the performance. This new architecture design called Embedded Parallel Systolic Filters (EPSF) would process data gathered from sensors and landmarks using a high density FPGA chip. The results show that EPSF architecture and bit-flag with a flicker clock perform significantly better in multiple input sensors signals under both continuous and interrupted conditions. Unlike the usual processing units in previous tracking and navigation systems used in robots, this system allows autonomous control of the robot through multiple techniques of filtering and processing strategy. Furthermore, it also offer a speedy performance that minimizing the delay about 50%.
AB - Real time systems typically suffer from delay in data processing. This delay is caused by many reasons such as computational power, processor unit architecture, and synchronization signals in these systems. In order to increase the processing power, a new architecture and clocking technique is carried out in this paper hence the performance. This new architecture design called Embedded Parallel Systolic Filters (EPSF) would process data gathered from sensors and landmarks using a high density FPGA chip. The results show that EPSF architecture and bit-flag with a flicker clock perform significantly better in multiple input sensors signals under both continuous and interrupted conditions. Unlike the usual processing units in previous tracking and navigation systems used in robots, this system allows autonomous control of the robot through multiple techniques of filtering and processing strategy. Furthermore, it also offer a speedy performance that minimizing the delay about 50%.
KW - Embedded system design
KW - FPGA system design
KW - Parallel processing
KW - Underwater detection
UR - http://www.scopus.com/inward/record.url?scp=77955295114&partnerID=8YFLogxK
U2 - 10.1109/ICEDSA.2010.5503077
DO - 10.1109/ICEDSA.2010.5503077
M3 - Conference Proceeding
AN - SCOPUS:77955295114
SN - 9781424466320
T3 - 2010 International Conference on Electronic Devices, Systems and Applications, ICEDSA 2010 - Proceedings
SP - 187
EP - 191
BT - 2010 International Conference on Electronic Devices, Systems and Applications, ICEDSA 2010 - Proceedings
T2 - 2010 International Conference on Electronic Devices, Systems and Applications, ICEDSA2010
Y2 - 12 April 2010 through 13 April 2010
ER -