VISION-LIST Digest Volume 10 Issue 25

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VISION-LIST Digest    Thu May 30 11:36:50 PDT 91     Volume 10 : Issue 25 

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Today's Topics: 

 Khoros 1.0 (short announcement) 
 Info. needed about DATACUBE 
 Industrial Robot/Vision Systems 
 Low-level image processing with an Artificial neural network 
 Discrete relaxation 
 Available Research Position 
 An International Standard for Image Processing and Interchange (long) 
 Travel, Registration and Hotel Info: Geometric Methods in CV Conf. 
 Vision Interface '91 - Final Program 

---------------------------------------------------------------------- 

Date: 29 May 91 02:57:12 GMT 
From: rasure@pprg.unm.edu (John Rasure) 
Organization: University of New Mexico, Albuquerque 
Subject: Khoros 1.0 (short announcement) 

		SHORT ANNOUNCEMENT OF KHOROS 1.0 

     Khoros is an integrated software development environ- 
ment for information processing and visualization, based on 
X11R4.  Khoros components include a visual programming 
language, code generators for extending the visual language 
and adding new application packages to the system, an 
interactive user interface editor, an interactive image 
display package, an extensive library of image processing, 
numerical analysis and signal processing routines, and 2D/3D 
plotting packages. 

Khoros is available via anonymous ftp from pprg.unm.edu (129.24.13.10).   

If you have questions, comments or problems of a general nature,  
mail the Khoros mailing list, khoros@chama.unm.edu.  To subscribe 
to the mailing list, mail to khoros-request@chama.unm.edu.   
Once you have the system and want to report bugs, mail to  
khoros-bugs@chama.unm.edu. 

For a more detailed announcement, mail to rasure@chama.unm.edu or 
see comp.windows.x.announce or comp.newprod. 

Dr. John Rasure                    rasure@chama.unm.edu 
Department of EECE 
University of New Mexico           Albuquerque,    NM 87131 

------------------------------ 

Date: Tue, 28 May 91 11:47:32 EDT 
From: nar@cs.wayne.edu 
Subject: Info. needed about DATACUBE 

Hi Vision Experts, 

We recently got some money from NSF to buy some equipment  
for our Vision and Neural Network Lab including a DATACUBE machine.  
Since we have  had no experience in that domain, I would appreciate 
if  any users of the machine out there  can give me some advice.   
I will summerize the information to the net at a later date.   

In addition to general information pertaining to the DATACUBE 
machine, I would like to know users experience with a suitable 
front end for the processor.  It would also help if you can describe 
the Computing  facilities you have at your end.  

Does a Sparc 2 do any good?.  
Should we go for a a different work station?. 
How about OS-9 as an operating system?. 

Thank you all in advance, 

Nagarajan Ramesh                !   internet- nar@cs.wayne.edu 
Vision & Neural Network Lab.    !   uucp    - ..!umich!wsu-cs!nar 
Dept. of Computer Science,      !   Phone: (313)-577-2477  
Wayne State University,         !   Fax  : (313)-577-6868 
Detroit MI 48202                !    

------------------------------ 

From: Wayne Sincarsin <dynacon@utcs.utoronto.ca> 
Date: 	Fri, 24 May 1991 12:14:32 -0400 
Subject: Industrial Robot/Vision Systems 

Dear Fellow Netters: 

I am conducting a survey of industrial robot/vision systems.  Such a 
system would consist of an industrial manipulator that uses a `smart' 
vision sensor to assist in trajectory planning.  This survey is 
related to Space Station robotics technology development.  Helpful 
information would include: 
      i)   name of robot/vision system; 
      ii)  brief description of system (where possible); 
      iii) name of manufacturers/distributers; 
      iv)  follow-up contacts.  

Please e-mail to me directly [and post to the Vision List.     phil...]. 

Thank you in advance. 

Frank Naccarato 
dynacon@gpu.utcs.utoronto.ca 

------------------------------ 

Date: Tue, 28 May 91 09:44:39 +0200 
From: guedalia@bimacs.cs.biu.ac.il (David Guedalia) 
Comments: Internet address: bimacs.cs.biu.ac.il. Bitnet address: bimacs.bitnet. 
	 Old internet address (bimacs.biu.ac.il) is available only temporarily. 
Subject: Low-level image processing with an Artificial neural network 

  Hi, 
I recently came across an article by Atam P. Dhawan and Thmas Dufresne titled  
"Low level image processing and edge enhancement using a self organizing neural 
network" in ijcnn 1990 vol I pp503-510. 
  I was wondereing if any one else is doing low level image processing with an  
ANN?  If so can they please mail me refrences? 
  thank you 
    david 

------------------------------ 

Date: Mon, 27 May 91 12:50:50 +0200 
From: mohr@rhea.imag.fr (Roger Mohr) 
Subject: discrete relaxation 

Dear Eric, 

in article 201 you asked for references for discrete relaxation. 
Here are references two of them from my personnal work. If you have some  
dificulties to get the second one, I can make a copy for you. 

@ARTICLE{mohr86a, 
        AUTHOR = {R. Mohr and T.C. Henderson}, 
        TITLE = {{Arc and Path Consistency Revisited}}, 
        KEYWORDS = {ac4, contraintes discr\`{e}tes, \'{e}tiquetage, complexit\'{ 
e}}, 
        YEAR = {1986}, 
        JOURNAL = {Artificial Intelligence}, 
        PAGES = {225--233}, 
        VOLUME = {28}, 
} 
%========= Optimal arc consistency algorithm (simple and effective, buy it!) 

@INPROCEEDINGS{mohr88a, 
        DATE = {}, 
        AUTHOR = {R. Mohr and G. Masini}, 
        TITLE = {{Good Old Discrete Relaxation}}, 
        KEYWORDS = {gac4, ac4, relaxation discrete, contrainte, erreur, relaxati 
on, etiquetage}, 
        YEAR = {1988}, 
        ADDRESS = {Munich}, 
        BOOKTITLE = {Proc. of the European Conference on Artificial Intelligence}, 
        PAGES = {651--656} 
} 
%=== provide an extension of the optimal algorithm to n-ary constraints ==== 

 
and here a refrence of our work with short description to a vision application: 

@INPROCEEDINGS{mohr88b, 
        DATE = {Tue Aug 29 1989}, 
        AUTHOR = {R. Mohr and G. Masini}, 
        TITLE = {{Running efficiently arc consistency}}, 
        KEYWORDS = {consistence d'arc, complexite,}, 
        YEAR = {1988}, 
        EDITOR = {A. Sanfeliu, Th. Pavlidis}, 
        PUBLISHER = {Springer Verlag, NATO-ASI series}, 
        BOOKTITLE = {Syntactic and Structural Pattern Recognition}, 
        PAGES = {217--231} 
} 

	Roger 

Roger MOHR  Imag-Lifia, 46 av. Felix Viallet, 38031 Grenoble  FRANCE 
  tel: (33) 76 57 46 53 -- fax : 76 57 46 02   email : mohr@rhea.imag.fr 
         secretariat : Daniele Herzog : 76 57 48 06 

------------------------------ 

Date: Wed, 29 May 91 16:46:47 EDT 
From: Bjorn Jawerth <bj@maxwell.math.scarolina.edu> 
Subject: Available Research Position 

A full-time (permanent) or Postdoc position is available immediately 
within the Industrial Mathematics Initiative (IMI) at The University 
of South Carolina, Columbia, SC. 

Required Skills: 
         (1) Solid foundation in mathematics. 
         (2) Highly competent programming in "C". 
         (3) Familiarity with X-Windows programming  environment. 
Experience in the areas of: 
	 (1) Signal processing  or 
         (2) Computer vision 

Research areas include the application of wavelets for image 
compression, fast PDE solvers and computer-aided design (CAD). 

Title:  Senior Research Associate  

Qualifications: 
        A Ph.D. degree is desired but candidates with an 
        M.S. degree and three to five years of relevant 
        experience are encouraged to apply. 

Salary: Highly competitive. 

Please submit resume and names of three references to: 

                 Professor Bjorn Jawerth 
		 Department of Mathematics 
                 LeConte, Rm 307 
                 University of South Carolina 
		 Columbia, SC  29208 

                 Phone:  (803) 777-6218 
	         E-mail: BJ@LOKI.MATH.SCAROLINA.EDU 

------------------------------ 

Date: Fri, 24 May 91 09:39:07 BST 
From: Adrian F Clark <alien@essex.ac.uk> 
Subject: An International Standard for Image Processing and Interchange (long) 

The following is an article I wrote for the v14n2 of the IAPR 
Newsletter.  I thought people might be interested in hearing what's 
going on on the standards front. 

How many readers have been given a tapeful of images for some 
important work, only to find that no information has been supplied 
about the tape format?  In such cases, the effort involved in ensuring 
that the tape has been read correctly and converted into one's own 
file format is usually at least as great as the effort involved in 
processing it.  Equally irritating, how many times have you received a 
program from someone, only to find it uses an image processing library 
which you do not have?  You might be surprised -- and hopefuly pleased --  
to learn that many of these problems could disappear in the near 
future due to work on an international standard for Image Processing 
and Interchange (IPI). 

Initial work has been proceeding for over two years now, but the 
project really started in earnest at a recent International Standards 
Organisation (ISO) meeting in Norwich, UK.  The standardisation effort 
is to take place under the aegis of ISO SC24 (`Computer Graphics and 
Computer Imaging') and will be the first standard in this area to 
cover both an Application Programmer's Interface (API) and an Image 
Interchange Format (IIF).  Both the API and the IIF will be based on a 
Common Imaging Architecture (CIA).  The time is not yet opportune to 
discuss the content of the standard in detail, but an outline of some 
aspects is appropriate.  (However, the reader should be aware that 
even these may change as the standard develops.) 

Part I, the CIA, will describe a general model for the processing of 
imagery (an `architectural' model), including aspects such as the 
effects of regions in both source and destination images.  The CIA 
will also define models for image data-types and several non-image 
data-types such as histograms.  It will also indicate the 
`specialisations' necessary to tie down the other parts of the 
standard.  For example, an image will be presented as an N-dimensional 
object, but the current API will only support images of up to five 
dimensions (three spatial, time and spectral). 

Part II, the API, is based on the Programmer's Imaging Kernel (PIK) 
being developed in the USA.  This API will support most common 
operations on images, of both the image-to-image (e.g., FFT) and the 
image-to-non-image (e.g., histogram) varieties.  Some facilities for 
manipulating non-image data-types will also be included.  Both image 
and non-image data-types may be based on several basic representations 
-- integer, floating-point, complex, etc.  The API is designed to 
support operations on pixel data, and explicitly excludes `image 
understanding' operations, which typically involve non-pixel 
representations. 

There are likely to be several levels of conformance to the standard, 
and the API in particular, but the mechanism for achieving this has 
not yet been discussed.  It is worth noting that a number of PIK and 
PIK-like image processing packages are now available; these give a 
reasonable idea of the functionality that the API will offer, though 
the packages themselves will probably require significant modification 
to conform to the standard. 

The final part of the standard will describe the IIF.  There are many 
widely-used image formats already in existance, some of which are de 
facto standards in particular applications areas (e.g., FITS in the 
astronomical community) or are already standardised (there is an ANSI 
image tape format standard for electronic pre-press).  Of course, 
recent standards from JPEG and MPEG, among others, involve some 
compression, and the IIF is likely to incorporate their 
recommendations. 

At the abovementioned Norwich meeting, editors for the various parts 
of the standard were appointed: 

   Adrian F. Clark, University of Essex, UK 
   William K. Pratt, Sun Microsystems, USA 
   Rainer Hofmann, Fraunhofer Group, Germany 

and a timetable for the development of the standard was laid out. 
Most of the standard will be written, distributed for comment, and 
edited in 1991; trial implementations and further editiing will take 
place during 1992-3.  The final International Standard is timetabled 
for early 1994.  (Be warned, however, that such timetables almost 
invariably slip somewhat.) 

What will the impact of the standard be?  Its effect will obviusly be 
greater in some areas of interest to the IAPR than others: for 
example, greater functionality is likely to be available to support 
image restoration and reconstruction than computational vision, simply 
because the former includes a larger proportion of pixel manipulation. 
However, be assured of one thing: the standard will affect you, 
particularly as add-on hardware which interfaces to the programmer via 
the API becomes available.  Hence, it is important to have as wide a 
consideration of the drafts of the standard as possible.  If you would 
like to be involved, contact your national standards body or, if they 
are unable to help you, the author of this article. 

 Dr Adrian F. Clark                                   JANET: alien@uk.ac.essex 
 INTERNET: alien%uk.ac.essex@nsfnet-relay.ac.uk          FAX: (+44) 206-872900 
 BITNET: alien%uk.ac.essex@ac.uk              PHONE: (+44) 206-872432 (direct) 
 Dept ESE, University of Essex, Wivenhoe Park, Colchester, Essex, C04 3SQ, UK. 

------------------------------ 

Date: Fri, 24 May 91 12:49:47 -0400 
From: "Baba Vemuri" <vemuri@scuba.cis.ufl.edu> 
Subject: Travel, Registration and Hotel Info: Geometric Methods in CV Conf. 

                 Travel, Registration and Hotel Information 
				    for  
            GEOMETRIC METHODS IN COMPUTER VISION CONFERENCE (SPIE'91) 
				July 25-26, 1991 
				 
              Location: Convention Center, Harbor Drive, San Diego, CA 

The `Geometric Methods in Computer Vision,'' is going to be held in 
San Diego at the convention center next to the Marriot on Harbor 
drive on 25th and 26th of July 1991.  

Room cost at the Marriot: 
		Single			Double 
City View	$120 			$140 
Bay View	$130			$150 

There are other hotels around the vicinity. You may receive more 
information on the same from SPIE directly by calling 206/676-3290 
(ask for Marilyn Gorsuch who is the technical program coordinator) and 
asking for the pre-registration and hotel information forms. 

For travel arrangements:  
The official airlines are:  
USAIR 
United Airlines 

For reservations, call SPIE's official travel company, Conventions in 
America for all discounted rates and lowest fares on all carriers. 

Call 1-800-535-1492, and use the Group ID No. 493. 

or call USAIR or United Airlines Directly and use the group ID number. 

Registration fee: 

		Member  	Nonmember	Student		Student 
						Member		Nonmember 
Advance:	$305		$355		$40		$50 
On Site:	$325		$375		$60		$70 

For, advance registration material, please contact SPIE at 
206/676-3290 (Pacific Time), Telex 46-7053, Telefax: 206/647-1445, 
in Europe, Telephone 49-30-883 9507, Telefax: 49-30-882 2028. 

------------------------------ 

Date: Thu, 23 May 1991 17:23:51 GMT 
From: samackay@watcgl.waterloo.edu (Stephen MacKay) 
Organization: National Research Council, Canada 
Subject: Vision Interface '91 - Final Program 

V I S I O N  I N T E R F A C E   '9 1       F I N A L  P R O G R A M 

University of Calgary 
Calgary, Alberta, Canada 
June 5-7, 1991 

For Registration Information Please Contact: 
University of Calgary Conference Office: (403) 220-4987 

Direct questions regarding this program to Colin Archibald 
(archibald@iit.nrc.ca) - do not reply to the poster. 

June 5, 1991 
Session 1     3-D Vision 

Inferring Volumetric Descriptions from Slice Data 
	Emanuele Trucco, Dept. of Artificial Intelligence, University of 
	Edinburgh, Scotland 

3-D Object Model Synthesis in a Monocular Imaging System 
	Mark Earnshaw and Andrew K. C. Wong, Dept. of Systems Design, 
	University of Waterloo 

A Survey of 3-D Thinning Algorithms 
	Paul C. Kwok and Vishwa Ranjan, Dept. of Computer Science, University 
	of Calgary 

 
Session 2     Robotics 

Behaviour Based Assembly Experiments using Vision Sensing 
	Prabhas Chongstitvatana and Alistair Conkie, Dept. of Artificial 
	Intelligence, University of Edinburgh, Scotland 

Robot Localization by Sensor Data Fusion 
	Goksin Bakir and Hong Zhang, Dept. of Computing Science, University of 
	Alberta 

Evolving Speed Control in Mobile Robots: From Blindness to Kinetic Vision 
	J. G. Donnett and B. O. McGonigle, Dept. of Artificial Intelligence, 
	University of Edinburgh, Scotland 

 
Invited Speaker 

Real-time Systems for Tracking Articulated 3-D Objects 
	David Lowe, Dept. of Computer Science, University of British Columbia 

 
Session 3    Model-based Scene Analysis 

Delaying Committment in Dynamic Stereo Vision 
	John D. Lewis and Ian H. Witten, Dept. of Computer Science, University 
	of Calgary 

Automatic Configuration of Medium-level Vision Routines Using Domain 
Knowledge 
	Tilo Messer and Michael Schubert,  FORWISS, FG Cognitive Systems, 
	Munchen, Germany 

Experiments in Parallel Scene Labeling 
	Monroe Thomas and Xiaobo Li, Dept. of Computing Science, University of 
	Alberta 

On Circles Recognition 
	Anca Tamas, Territorial Computing Center, Clug-Napoca, Romania 

 
June 6, 1991 

Session 4     Feature Extraction 

Perceptual Grouping and Directionality Determination Using an 
Electromagnetic Model 
	Thierry Pun, Michel Regamey, Philippe Narbel and Juan Mosig, Computer 
	Science Center, University of Geneva, Switzerland 

Roof Edge Detection by Mathematical Morphology 
	Jin-Chang Cheng and Hon-Son Don,Dept. of Electrical Engineering, State 
	University of New York, Stoney Brook, NY, U.S.A. 

Phase-Based Edge and Bar Detection 
	Zhengyan Wang and Michael Jenkin, Dept. of Computer Science, York 
	University 

Random Sampling for Pose Determination and Refinement 
	Gerhard Roth and Martin Levine, Institute for Information Technology, 
	National Research Council 

 
Invited Speaker 

Robust High Breakdown Estimation and Consensus 
	Peter Meer, Dept. of Electrical and Computer Engineering, Rutgers 
	University 

 
Session 5    Perception and Image Processing Architectures 

Visuo-Tactual Coarseness Estimation Tasks 1. Experiments 2. Modeling 
	Isidore Rigoutsos, Robotics Lab. New York University, New York, NY, 
	U.S.A. 

A Data Flow Digital Image Processing System and Its Real-Time Morphological 
Algorithms 
	Ning Xu and Xiaoqing Ding, Dept. of Electronic Engineering, Tsinghua 
	University, Bejing, China 

Architecture parallele basee sur des TMS320C30 pour la comparaison de 
signaux 
	Pierre Frechette, Laboratoire Scribens et Les systemes electroniques 
	Matrox Ltee., Quebec, and Rejean Plamondon, Laboratoire Scribens et 
	ecole Polytechnique de Montreal 

 
Session 6    Neural Networks For Image Analysis 

ARisTotle: A Neural Net Architecture for the Auto-classification, Grouping 
and Recognition of Partially Distorted Binary Images 
	D. Boulanger and D. Poussart, Laboratoire de Vision et Systemes 
	Numeriques, Department de genie electrique, Universite Laval 

Multi-font Alpha-numeric Recognition using Multi-layer Neural Networks with 
a Rejection Function 
	Keiji Yamada, C&C Information Technology Research Laboratories, NEC 
	Corporation, Kawasaki, Japan 

 
June 7, 1991 

Session 7    Biomedical Image Processing 

Supervised Mitotic Index Scoring as a Tool in Cytotoxicity Studies 
	Maria Garza-Jinich,  Claudia Rodriguez-Carranza, Gabriel Corkidi, 
	Ricardo Toledo, Regina Montero, Patricia Ostrosky-Wegman, Instituto de 
	Investigaciones en Matematicas Aplicadas y en Sistemas, UNAM, Mexico 

Homology Mapping between an Atlas and a Biological Section 
	Sheng-Yih Guan and Bruce H. McCormick, Scientific Visualization Lab., 
	Dept. of Computer Science, Texas A & M University, U.S.A. 

Analysis of Retinal Images Using Mathematical Morphology 
	Piotr Jasiobedzki and Chris J. Taylor, Wolfson Image Analysis Unit, 
	Dept. of Medical Biophysics, University of Manchester, United Kingdom 

 
Session 8     Texture and Image Analysis 

Visual Textural Properties Based on Feature Frequency Matrices 
	H. C. Shen and C. Y. C. Bie, Dept. of Systems Design Engineering, 
	University of Waterloo 

An Adaptive Convex Projection Method for Resolution Enhancement of 
Tomographic Images 
	Shyh-shiaw Kuo and Richard J. Mammone, Dept. of Electrical and 
	Computer Engineering, Rutgers University, U.S.A. 

Image Restoration by Using Adaptive Row Action Projection Method 
	Shyh-shiaw Kuo and Richard J. Mammone, Dept. of Electrical and 
	Computer Engineering, Rutgers University, U.S.A. 

 
Invited Speaker 

An Overview of Industrial Machine Vision in Canada 
    Laval Trembely, Matrox Ltd., Dorval, Quebec 

 
Session 9    Applications 

A Multi-Operator Approach for the Segmentation of 3-D Images of Dental 
Imprints 
	Jean Cote, Denis Laurendeau and Denis Poussart, Computer Vision and 
	Digital Systems, Department of Electrical Engineering, Laval 
	University 

Curvature Analysis for Recognition and Structural Verification of 
Industrial Objects 
	Q. M. Wu and M. G. Rodd, Dept. of Electrical and Electronic Eng., 
	University College of Swansea, United Kingdom 

The Chirplet Transform: A Generalization of Gabor's Logon Transform 
	Steve Mann and Simon Haykin, Communications Research Lab., Dept. of 
	Electrical Engineering, McMaster University 

A Multi-Surface Model of Sonar Range Sensing 
	David Wilkes, Greg Dudek, Michael Jenkin, and Evangelos Milios, Dept. 
	of Computer Science, University of Toronto 

------------------------------ 

End of VISION-LIST digest 10.25 
************************