VLSI architectures for high-speed range estimation

Author

Sastry, R. ; Ranganathan, Nagarajan ; Jain, R.C.

Author_Institution

HAL Comput. Syst. Inc., Campbell, CA

Volume

17

Issue

9

fYear

1995

fDate

9/1/1995 12:00:00 AM

Firstpage

894

Lastpage

899

Abstract

Depth recovery from gray-scale images is an important topic in the field of computer and robot vision. Intensity gradient analysis (IGA) is a robust technique for inferring depth information from a sequence of images acquired by a sensor undergoing translational motion. IGA obviates the need for explicitly solving the correspondence problem and hence is an efficient technique for range estimation. Many applications require real time processing at very high frame rates. The design of special purpose hardware could significantly speed up the computations in IGA. In this paper, we propose two VLSI architectures for high-speed range estimation based on IGA. The architectures fully utilize the principles of pipelining and parallelism in order to obtain high speed and throughput. The designs are conceptually simple and suitable for implementation in VLSI

Keywords

VLSI; computer vision; distance measurement; image sequences; parallel architectures; pipeline processing; VLSI architectures; computer vision; depth information inference; depth recovery; gray-scale images; high-speed range estimation; image sequence; intensity gradient analysis; parallelism; pipelining; real-time processing; robot vision; robust technique; translational motion; Computer architecture; Computer vision; Gray-scale; Image analysis; Image motion analysis; Image sequence analysis; Information analysis; Robot sensing systems; Robot vision systems; Very large scale integration;

fLanguage

English

Journal_Title

Pattern Analysis and Machine Intelligence, IEEE Transactions on

Publisher

ieee

ISSN

0162-8828

Type

jour

DOI

10.1109/34.406655

Filename

406655