TEXAC/PICTOL

Subscribe (Full Service)


	Search: The ACM Digital Library The Guide

	Feedback

TEXAC/PICTOL: A Texture Analysis Computer and its special purpose language

Full text

Pdf (747 KB)

Source

ACM Annual Conference/Annual Meeting archive
Proceedings of the 1978 annual conference - Volume 2 table of contents

Pages: 698 - 703

Year of Publication: 1978

ISBN:0-89791-000-1

Authors

Robert S. Ledley
Yeshwant G. Kulkarni
Chan M. Park
Menfai R. Shiu
Louis S. Rotolo

Sponsor

ACM: Association for Computing Machinery

Publisher

ACM New York, NY, USA

Bibliometrics

Downloads (6 Weeks): 0, Downloads (12 Months): 3, Citation Count: 0

Additional Information:

abstract references index terms collaborative colleagues peer to peer

Tools and Actions:	Request Permissions Review this Article Save this Article to a Binder Display Formats: BibTeX EndNote ACM Ref

DOI Bookmark:	Use this link to bookmark this Article: http://doi.acm.org/10.1145/800178.810112 What is a DOI?

ABSTRACT

Computer-assisted pattern recognition holds much promise for important applications in clinical medicine. In many instances successful automatic pattern recognition requires an analysis of the texture of a picture by a conventional digital computer, but this procedure involves a type of computing that is presently too time-consuming and expensive for practical application. In response to this situation, we have designed and developed an auxiliary computer called TEXAC (TEXture Analysis Computer). TEXAC can perform most whole picture operations at a rapid television rate of 1/30th of a second, and display the results continuously on color and black and white video monitors. Here we present the architecture of the TEXAC, both the hardware and software systems, and discuss potential biomedical applications and several interesting whole picture operations accomplished by the new computer.

REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

	1	Ledley, R.S., Texture Problems in Biomedical Pattern Recognition, Proc. IEEE Conference on Decision and Control, (1972).
	2	Park, C.M. and Rosenfeld, A., Noise Cleaning in Digital Pictures, Electronic and Aerospace Systems Convention Record 1969, pp. 264-273.
	3	Ledley, R.S., Lubs, H.A., and Ruddle, F.H., Introduction to Chromosome Analysis, Computers in Biology and Medicine, 2(2):107-128, (1972).
	4	Carlucci, L., A Format System for Texture Languages, Pattern Recognition, 4(1): 53-27 (1972).
	5	Read, J.S., Jayaramamurthy, S.N., Automatic Generation of Texture Feature Detectors, IEEE Trans. Comput., Vol. C-21, 7, 803-812 (1972).
	6	Rosenfeld, A., and Troy E.B., Visual Texture Analysis, Proc. UMR, J.J. Kelley Common. Conf., pp. 10-1-1 to 10-1-6, Oct. 5-7 (1970).
	7	Sutton R. N. and Hall E.L., Texture Measures for Automatic Classification of Pulmonary Disease, IEEE Trans. Comput., C-21, 7, pp. 667-676, (1972).
	8	Ledley, R.S., Huang, H.K., and Rotolo, L.S., A Texture Analysis Method in Classification of Coal Workers' Pneumoconiosis, Computers in Biology and Medicine, 5(1/2): 53-67, June, (1975).
	9	Ledley R.S., Kulkarni, Y.G., Rotolo, L.S., Golab, T.J., and Wilson J.B., TEXAC, A Special Purpose Picture Processing Texture Analysis Computer, Proceedings of the Fifteenth IEEE Computer Society International Conference, pp. 66-71, Washington, D.C., Sept. 6-9, (1977).