Title :
Fully pipelined VLSI architecture of a real-time block-based object detector for intelligent video surveillance systems
Author :
Min-Chun Tuan ; Shih-Lun Chen
fDate :
June 28 2015-July 1 2015
Abstract :
This paper presents a VLSI architecture of real-time object detection design for the intelligent video surveillance systems. In order to achieve the targets of high performance, low cost, and high accuracy, an efficient block-based background subtraction (BBS) algorithm had been created for VLSI implementation. It included a background model, a luminance generator, and a block difference model. The warning signals in the intelligent video surveillance systems will be triggered once more than a threshold number of blocks are marked as object discovered blocks. The VLSI architecture of this work contained 4.6-K gate counts and consumed 2.05 mW when it operated at 100 MHz processing rate by using a TSMC 0.18 um CMOS process. Compared with previous low-complexity designs, this work had the benefits of lower cost, higher performance and higher accuracy.
Keywords :
CMOS integrated circuits; VLSI; artificial intelligence; brightness; pipeline processing; video surveillance; CMOS process; background model; block difference model; block threshold number; block-based background subtraction algorithm; fully pipelined VLSI architecture; intelligent video surveillance systems; luminance generator; object discovered blocks; real-time block-based object detector; real-time object detection design; warning signals; Algorithm design and analysis; Artificial intelligence; Frequency division multiplexing; Generators; Object detection; Testing; Very large scale integration; Image processing; intelligent surveillance system; object detection; pipeline; very large-scale integration (VLSI); video;
Conference_Titel :
Computer and Information Science (ICIS), 2015 IEEE/ACIS 14th International Conference on
Conference_Location :
Las Vegas, NV
DOI :
10.1109/ICIS.2015.7166585
