A new microcomputer based imaging system with C/sup 3/ technique

@article{Liou1990ANM,
  title={A new microcomputer based imaging system with C/sup 3/ technique},
  author={D. M. Liou and Y. Huang and N. Reynolds},
  journal={IEEE TENCON'90: 1990 IEEE Region 10 Conference on Computer and Communication Systems. Conference Proceedings},
  year={1990},
  pages={555-559 vol.2}
}
  • D. Liou, Y. Huang, N. Reynolds
  • Published 24 September 1990
  • Computer Science
  • IEEE TENCON'90: 1990 IEEE Region 10 Conference on Computer and Communication Systems. Conference Proceedings
To address the needs of a variety of image processing applications, a new microcomputer-based imaging system using color cell compression (C/sup 3/) and C/sup 3/-virtual techniques is presented. It is a primary object of the new imaging system to provide an improved digital color imaging system which produces excellent quality images and a high degree of versatility while using an extremely small amount of encoded data. These new imaging systems apply a digital signal processor (DSP) to speed… 
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References

SHOWING 1-2 OF 2 REFERENCES
Kiver, "Television Electronics, Theory and Service," pp. 184189
  • 1983
Digital Video Bandwidth Compression Using Block Truncation Coding,
  • IEEE Trans. Comm., vol. COM-29,
  • 1981