Copy Link
Add to Bookmark
Report
VISION-LIST Digest Volume 12 Issue 49
VISION-LIST Digest Wed Oct 27 11:26:53 PDT 93 Volume 12 : Issue 49
- ***** The Vision List host is TELEOS.COM *****
- Send submissions to Vision-List@TELEOS.COM
- Vision List Digest available via COMP.AI.VISION newsgroup
- If you don't have access to COMP.AI.VISION, request list
membership to Vision-List-Request@TELEOS.COM
- Access Vision List Archives via anonymous ftp to FTP.TELEOS.COM
Today's Topics:
Re: Constrained Delaunay triangulation
Re: Saliency maps
Very high image acquisition rate.
Machine Vision
Structural Saliency Networks
e-mail address of "Bo Nordin", Uppsala
Assistant_Professor_Job
CFP: Visual Communications and Image Processing '94
CFP: Mathematical Morphology and its Applications to Signal Processing II
----------------------------------------------------------------------
Date: Sat, 23 Oct 93 10:05:22 CDT
From: noran!iowa!kburton@uunet.uu.net (Kevin Burton)
Subject: Re: Constrained Delaunay triangulation
Vitor> Do you have any public domain software for computing the 3D
Vitor> constrained Delaunay triangulation of the endpoints of the
Vitor> 3D segments ,i.e., the 3D segements are Delaunay edges? or
Vitor> Do you know where I can find/get it?
There is a program that generates a Voronoi diagram on netlib. This
may be helpful. If you put the line 'send index from voronoi' you get back:
netlib> #!/bin/sh
netlib> # Caveat receptor. Jack Dongarra - dongarra@cs.utk.edu,
netlib> # Eric Grosse - ehg@research.att.com
netlib> # 5/6/93
netlib> #
netlib> # We are running a new version of netlib which allows
netlib> # setting of chunk size used for reply. Try: send index
netlib> # for a list of new features.
netlib> #
netlib> # There is an improved system called Xnetlib for people
netlib> # connected to the Internet and have access via an X-interface.
netlib> # To receive a copy, send email to netlib@ornl.gov and in the
netlib> # message type: send xnetlib.shar from xnetlib
netlib> #
netlib> # Netlib files are also available via anonymous rcp (from most UNIX boxes).
netlib> # For more information, finger anon@netlib2.cs.utk.edu.
netlib> #
netlib> # For a request returned in multiple mail messages, remove the
netlib> # mail header and "sh" resulting files in any order.
netlib> # to unpack, sh this message
netlib> PATH=/bin:/usr/bin
netlib> cat > index <<'CUT HERE............'
netlib> file voronoi/sweep2
netlib> for 2-dimensional Voronoi diagram, Delaunay triangulation
netlib> alg sweepline
netlib> by Steve Fortune
netlib> CUT HERE............
netlib> #define END
I would be interested in any other responses you receive.
Kevin Burton
Noran Instruments voice: (608) 831-6511 x317
2551 West Beltline Highway, Room 532 FAX: (608) 836-7224
Middleton, WI 53562 email: kburton@noran.com
Opinions expressed herein apparently spontaneously organized themselves.
------------------------------
Date: Tue, 26 Oct 1993 15:10:35 +0100
From: Ruggero Milanese <milanese@cui.unige.ch>
Subject: Re: Saliency maps
Extracting salient regions from an image in a bottom--up way is precisely
the topic of my Ph.D. work, which I am going to finish by the beginning of 1994.
If you want, I can send you a copy of the thesis, as soon as it is available.
A few models of visual attention have been developed in the last years,
which perform this task. Most of them are inspired by some psychological
and neurobiological studies. Examples are Mozer (1988), Sandon (1990),
Ahmad (1991), Culhane and Tsotsos (1992), Giefing et al. (1992),
Milanese et al. (1992), Olshausen et al. (1993). You will find more examples,
(including a new model on my own) and a comprehensive description in the
forthcoming thesis.
If you are interested in the biological literature on the topic, let me
warn you: it is huge, and you may get trapped into some theories which only
account for a few aspects of the problem. I would suggest that you
start with some classical ones, such as Treisman and Gelade (1980), Moran
and Desimone (1985), Crick (1984), Anderson and VanEssen (1987),
and that you proceed with some more recent ones, such as Wolfe and Cave,
Posner and Petersen (1990), LaBerge (1990), LaBerge et al. (1992).
If you want, I can send you a report which I wrote a few years ago,
containing a survey of most of the related literature (Milanese, 1990).
By the way, one chapter of the thesis also reports about these theories,
including the most recent ones.
Best regards,
Ruggero Milanese
Dept. of Computer Science E-mail: milanese@cui.unige.ch
University of Geneva Phone: +41.22.7057631
24, rue du General Dufour Fax: +41.22.3202927
CH - 1211 Geneva 4
Switzerland
S. Ahmad,
{\em VISIT: An Efficient Computational Model of Human Visual Attention}.
Ph.D. Thesis, University of Illinois at Urbana-Champaign.
Also as Technical Report TR-91-049, International Computer Science Institute,
Berkeley, CA, 1991.
C.H. Anderson and D.C. Van Essen,
{\em Shifter Circuits: A Computational
Strategy for Dynamic Aspects of Visual Processing}.
Proc. of National Academy of Sciences USA, Vol.~84, 1987, pp.~6297-6301.
F. Crick,
{\em Function of the Thalamic Reticular Complex: the Searchlight Hypothesis}.
Proc. of the National Academy of Sciences, 1984, 81:4586-4590.
Also in Anderson and Rosenfeld (eds), {\em Neurocomputing}.
MIT Press, 1988, pp.~569-575.
S. M. Culhane and J.K. Tsotsos,
{\em An Attentional Prototype for Early Vision}.
2nd Europ. Conf. on Comp. Vision, 1992,
G. Sandini (edt), Lecture Notes in Computer Science,
Vol.~588, Springer Verlag, pp.~551-560.
G.-J. Giefing, H. Janssen and H. Mallot,
{\em Saccadic Object Recognition with an Active Vision System}.
10th European Conference on Artificial Intelligence,
Vienna, August 3-7, 1992, John Wiley and Sons, pp.~803-805.
D. LaBerge,
{\em Thalamic and Cortical Mechanisms of Attention Suggested by Recent
Positron Emission Tomography Experiments}.
Journal of Computational Neuroscience, Vol.~2, No.~4, 1990, pp.~358-372.
D. LaBerge, M. Carter, and V. Brown,
{\em A Network Simulation of Thalamic Circuit Operations in
Selective Attention}.
Neural Computation, Vol.~4, 1992, pp.~318-331.
R. Milanese,
{\em Focus of Attention in Human Vision: A Survey}.
University of Geneva, Computer Science Center, A.I. and Vision Group,
Technical Report~90-03, 1990.
R. Milanese, J.-M. Bost and T. Pun,
{\em A Bottom--up Attention System for Active Vision}.
10th European Conference on Artificial Intelligence.
Vienna, August 3--7, John Wiley and Sons, 1992, pp.~808-810.
R. Milanese, J.-M. Bost, and T. Pun,
{\em A Relaxation Network for a Feature--Driven Visual Attention System}.
SPIE Conf. on Neural and Stochastic Methods in Image and Signal
Processing, Vol.~1766, San Diego, 1992, pp.~542-552.
J. Moran and R. Desimone,
{\em Selective Attention Gates Visual Processing in the Extrastriate Cortex}.
Science 229, 1985, pp.~782-784.
M.C. Mozer,
{\em A Connectionist Model of Selective Attention in Visual Perception}. University of Toronto, Technical Report \mbox{CRG-Tr-88-4}, 1988.
B. Olshausen, C. Anderson, and D. Van Essen,
{\em A Neural Model of Visual Attention and Invariant Pattern Recognition}.
California Institute of Technology, Computational and Neural System
Program, CNS Memo 18, August 1992.
M.I. Posner and S.E. Petersen,
{\em The Attention System of the Human Brain}.
Annual Reviews or Neuroscience, Vol.~13, 1990, pp.~25-42.
P. A. Sandon,
{\em Simulating Visual Attention}.
Journal of Cognitive Neuroscience, Vol.~2, No.~3, 1990, pp.~213-231.
A.M. Treisman and G. Gelade,
{\em A feature-integration theory of attention}.
Cognitive Psychology, 12, 1980, pp.~97-136
------------------------------
Date: Mon, 25 Oct 1993 22:35:11 +0200 (IST)
From: Andrei Borenstein <andrei@ramon.openu.ac.il>
Subject: Very high image acquisition rate.
Hello Computer Vision fellows,
I'm going to develop an application requiring very fast (1000
frames/sec) image acquisition.
The required resolution is 128x128x8 pixels.
The system will be based on PC/486 , EISA bus.
While I know about existing CCD cameras able to do this work , I
don't know about frame grabbers able to digitize and to transfer the
image to PC/Host memory at such a rate.
Thanks for any help.
Please answer to my e-mail address as I'm not subscribed to this group.
If there are LISTSERVesrs / newsgroups more suitable to questions
about Image Processing software/hardware , please let me know.
Thanks ,
|Andrei Borenstein andrei@ramon.openu.ac.il|
| Tel. (972)6-935715 , Fax (972)6-935913 |
| Korazim , ISRAEL 12391 |
|\ APL is the best encryption method I know. /|
------------------------------
Date: 26 Oct 1993 19:04:11 GMT
From: love@athena.mit.edu (love)
Organization: Massachusetts Institute of Technology
Subject: Machine Vision
I am taking a VLSI digital design class and need to
design a chip.I'm thinking of implementing on a VLSI
chip, some set of preprocessing algorithms for character
recognition. Some possible operations would be
thinning, calculating Euler's number, scaling...
I'm thinking that computations that can be done
locally on a set of pixels would be faster/easier
for VLSI implementations.
Could anyone suggest a host of preprocessing
operations thatwould be useful for character
recognition and that could be reasonably implemented
on a chip? There are area constraints
- 1800 microns by 1800 microns - and pin
constraints -4 pins for power and ground, and
36 for input/output.
I'm not sure whether implementing a host of simple
preprocessingoperations or maybe just one major
algorithm for edge detection,moment generation or
some transformation (into shift invariant, etc. form)
would be better/more feasible.
So, the basic setup of this chip would be
something that takes as input a matrix of 1's and 0's
corresponding to binary image characters (the matrix
would probably have to be inputted serially),
and outputs a new matrix or even a set of matrices
that correspond to a transformed image.
Any feedback anyone could give me would be
greatly appreciated - specifically names of
algorithms/transformations or sets of morphological
operations that would be feasible/useful given the
area and pin constraints.
References or names of people who have done this kind of thing
would be nice too.
Please email : love@athena.mit.edu
thanks in advance,
john
------------------------------
Date: Wed, 27 Oct 93 09:31 PDT
From: wilbur@constitution.ucr.edu (Wilhelm Burger)
Subject: Structural Saliency Networks
Has anyone an implementation (C, Lisp, Khoros, KBV,...) of
"structural saliency networks" - such as the one proposed by
Shashua & Ullman - that he/she would be willing to share?
Help appreciated.
W. Burger
University of California at Riverside
(wilbur@constitution.ucr.edu)
------------------------------
Date: Wed, 27 Oct 1993 16:28:41 +1000 (EST)
From: "Tim Brabin Cooper" <timc@orthanc.cs.su.OZ.AU>
Subject: e-mail address of "Bo Nordin", Uppsala
I am looking for the e-mail address of "Bo Gustaf Nordin",
of the Image Analysis Laboratory in Uppsala Sweden.
Can anyone help me?
Tim Cooper, Sydney
------------------------------
Date: Mon, 25 Oct 1993 16:37:04 -0400
From: Hermel Dube <dube@ai.polymtl.ca>
Subject: Assistant_Professor_Job
ECOLE POLYTECHNIQUE DE MONTREAL
DEPARTMENT OF ELECTRICAL AND COMPUTER ENGINEERING
The department of Electrical Engineering and Computer Engineering of Ecole
Polytechnique is seeking a candidate to fill a position of assistant professor
in computer vision. The position has been created as part of the development
of a team for front-line research in intelligent robotics under the joint
university-industry program of the Natural Sciences and Engineering Research
Council of Canada (NSERC). The basic duties attendant upon the position are:
- to teach Computer Engineering at all student levels and
participate in laboratory activities;
- to direct and supervise graduate students;
- to initiate and complete individual research projects in computer
vision and participate in group projects;
- to develop and maintain applied research activities in cooperation
with industry.
REQUIREMENTS:
- hold a doctorate degree in electrical engineering, computer engineering or
another relevant discipline;
- have proven skills in research in computer vision;
- be a member of the Ordre des ingenieurs du Quebec, or be eligible
for membership;
- and be skilled in both writing and speaking French. Post-doctoral
experience in industry or in a university would be an asset.
Starting date of appointment: February 1, 1994.
Renumeration: Salary and benefits will be determined according to the collective
agreement at Ecole Polytechnique de Montreal.
Applications: Candidates should address their application to:
Professor Bernard Lanctot
Head
Department of Electrical and Computer Engineeering
Ecole Polytechnique
P.O. Box 6079, Station "A"
Montreal (Quebec) H3C 3A7 CANADA
Applications should be accompanied by the candidates' resume (in French), copies
of degree certificates, the names of three referees, and no more than three
reprints of their most important recent publications, and must arrive by
January 1, 1994. In accordance with Canadian immigration regulations, priority
will be given to Canadian citizens, and permanent residents. Ecole Polytechnique
is an equal-opportunity employer.
------------------------------
Date: Mon, 25 Oct 1993 12:34:22 -0500
From: Aggelos Katsaggelos <aggk@delta.eecs.nwu.edu>
Subject: CFP: Visual Communications and Image Processing '94
**ANNOUNCEMENT AND CALL FOR PAPERS**
Visual Communications and Image Processing '94 (VCIP '94)
September 25-28, 1994
Bismark Hotel
Chicago, IL, USA
Cooperating Organizations:
IEEE Circuits and Systems Society
European Association for Signal Processing (EURASIP)
Conference Chair:
Aggelos K. Katsaggelos, Northwestern Univ.
Technical Committee:
Ali N. Akansu, New Jersey Institute of Technology
Dimitris Anastassiou, Columbia Univ.
Rashid Ansari, Bell Communications Research
Michel Barlaud, Univ. of Nice/Sophia Antipolis (France)
Jan Biemond, Delft Univ. of Technology (The Netherlands)
Alan C. Bovik, Univ. of Texas/Austin
Rama Chellappa, Univ. of Maryland/College Park
Eric Dubois, INRS-Telecommunications (Canada)
Nikolas P. Galatsanos, Illinois Institute of Technology
Allen Gersho, Univ. of California/Santa Barbara
John I. Goutsias, Johns Hopkins Univ.
Hsueh-Ming Hang, National Chiao Tung Univ. (Taiwan China)
Homer H. Chen, AT&T Bell Labs.
T. Russell Hsing, Bell Communications Research
Thomas S. Huang, Univ. of Illinois/Urbana-Champaign
Jae-Kyoon Kim, Korea Advanced Institute of Science and Technology
(Korea)
Toshio Koga, NEC Corp. (Japan)
Murat Kunt, Swiss Federal Institute of Technology (Switzerland)
Jae S. Lim, Massachusetts Institute of Technology
Xinggang Lin, Tsinghua Univ. (China)
Petros Maragos, Georgia Institute of Technology
Nasser M. Nasrabadi, SUNY/Buffalo
Takashi Okagaki, Univ. of Minnesota Medical School
Michael Orchard, Univ. of Illinois/Urbana-Champaign
William A. Pearlman, Rensselaer Polytechnic Institute
Eli Peli, Schepens Eye Research Institute
Peter Pirsch, Univ. Hannover (Germany)
Sarah A. Rajala, North Carolina State Univ.
Ronald W. Schafer, Georgia Institute of Technology
Mark J. T. Smith, Georgia Institute of Technology
Michael Strintzis, Aristotelian Univ. of Thessaloniki (Greece)
Andrew G. Tescher, Lockheed Palo Alto Research Lab.
Kou-Hu Tzou, COMSAT Labs.
John W. Woods, Rensselaer Polytechnic Institute
Lance T. Wu, Industrial Technology Research Institute (Taiwan China)
Yehoshua Y. Zeevi, Technion--Israel Institute of Technology (Israel)
Europe Liaison:
Prof. Jan Biemond
Delft Univ. of Technology
Department of Electrical Engineering
Mekelweg 4, P.O. Box 5031
Phone: 031-15-784-695
Fax: 031-15-783-622
e-mail: Biemond@et.tudelft.nl
Asia Liaison:
Dr. Toshi Koga
NEC Corp.
Second Transmission Division
1753, Shimonumabe, Nakahara-ku, Kawasaki, Japan 211.
Phone : +81 44 435 5535
Fax : +81 44 435 5662
e-mail: koga@trdv1.trd.tmg.nec.co.jp
Visual communications and image processing have become engineering
areas that attract interdisciplinary research interest and lead to
significant developments for technology and science. This conference
is designed as a forum for presenting important research results in
these fields. Original and unpublished material of novel techniques and
new developments is solicited on the following and related topics:
A. Visual Communications
1. still image coding
2. video sequence coding
3. model-based image coding
4. very low bit rate coding
5. motion estimation for video coding
6. TV, HDTV and super HDTV
7. packet video
8. picture archiving and communications systems
9. parallel processing hardware
10. special topics
B. Image Processing and Analysis
1. image filtering, enhancement, and restoration
2. feature extraction
3. image segmentation
4. object recognition
5. biomedical image processing
6. VLSI implementation and system architectures
7. morphological image processing
8. fractals and wavelets
9. special topics
C. Image Sequence Analysis
1. motion analysis
2. filtering, restoration, interpolation
3. multiscale image sequence analysis
4. computer vision topics in image sequence analysis
5. special topics
Best Student Paper Awards
At this meeting, two awards will be presented to the best papers
submitted by students. To qualify for these awards, each consisting of
a cash prize and a plaque, the candidate must be the principal author.
A letter from the student's adviser stating that the major work was
done by the student must accompany the final manuscript in order to be
considered by the award committee.
SPIE gratefully acknowledges Lockheed Corp. and NEC Corp. for
their generous sponsorship of these awards.
Young Investigator Award
An award will be given for the best paper submitted by a young
researcher who has graduated within five years from the date of the
meeting. A letter from the researcher requesting that his/her paper be
considered must be submitted with the final manuscript, certifying
he/she meets the qualifications for the award.
SPIE gratefully acknowledges Industrial Technology Research Institute
(ITRI) for generously sponsoring this award.
**********************************************************
SUBMISSION OF SUMMARIES:
Summary Due Date: 24 January 1994* Manuscript Due Date: 20June 1994+
*Late submissions may be considered, subject to program time
availability and chairs' approval. However, due to the significant
number of submissions, chairs and committee will give first preference
to summaries sent by the due date.
+Proceedings of this conference will be published before the meeting
and available at the symposium. Manuscript due date must be strictly
observed.
Your summary should include the following:
1. SUMMARY TITLE
2. AUTHOR LISTING (principal author first)
Full names and affiliations as they will appear in the program.
3. CORRESPONDENCE FOR EACH AUTHOR
Mailing address, telephone, telefax, e-mail address.
4. SUBMIT TO:
Visual Communications and Image Processing '94
5. INDICATE: Letter of topic (A, B, or C)
Number of subtopic (1-10)
6. PRESENTATION
Please indicate your preference for either "Oral Presentation" or
"Poster Presentation".
7. SUMMARY TEXT
500 words.
8. BRIEF BIOGRAPHY (principal author only)
50 to 100 words.
To be considered for acceptance, you may either:
* send summary via electronic mail to Internet abstracts@mom.spie.org
(ASCII format);
* or fax one copy to SPIE at 206/647-1445;
* or mail four copies to SPIE to:
Visual Communications and Image Processing '94
SPIE, P.O. Box 10, Bellingham, WA 98227-0010
Shipping address: SPIE, 1000 20th Street, Bellingham, WA 98225
SPIE contact: Rosa Cays, Coordinator, Technical Programs and Education
Phone: 206/676-3290; Telex 46-7053
------------------------------
Date: Mon, 25 Oct 93 13:57:41 GMT
From: Pierre Soille <soille@malte.ensmp.fr>
Subject: CFP: Mathematical Morphology and its Applications to Signal Processing II
ISMM'94
ANNOUNCEMENT and FIRST CALL FOR PAPERS
Mathematical Morphology and its Applications to Signal Processing II
Fontainebleau, France
5-9 September 1994
Course and Technical Workshop
5-6 September 1994 7-9 September 1994
General Chairman: J. Serra (EMP)
The success of the 1993 meeting of the International Society for
Mathematical Morphology (ISMM), held in Barcelona, indicates a strong
interest for morphological approaches in image processing. This year,
we propose a 2-day course followed by a 3-day single-track meeting. A
detailed description of the course and a call for papers follow.
-----------------------------------------------------
COURSE on MODELS AND SIMULATIONS OF RANDOM STRUCTURES
5-6 September 1994
-----------------------------------------------------
Coordinator: D. Jeulin (EMP)
This course is an introduction to the methods developed in
Geostatistics and Mathematical Morphology in order to model and
simulate random functions (scalar or multivariate) and random sets.
Physical situations that are relevant of these models will be
presented, as for instance: Fracture statistics of materials,
Scanning or transmission electron microscope images, including
multispectral images, Rough surfaces, porous or multiphase
media.
After an introduction to the Theory of Random Sets, various types
of models will be detailed. For each of them, theoretical and
practical aspects will be stressed:
- construction and properties of the models
- model validation, parameter estimation, and simulations
- examples of applications
Demonstrations of the simulation techniques on computer
workstations will provide illustrations.
This course requires only a basic knowledge in applied probability.
It is oriented towards the needs of scientists and engineers who want
to relate the physical behaviour and the texture of heterogeneous
media. They could be statisticians, physicists, experimentalists,
earth scientists, and also users of image analysis and synthesis for
all its domains of application (materials, biology, artificial vision,
CAD, remote sensing, geophysics, biometry, image coding, ...)
Provisional Organization of the Course
0) General introduction (D. Jeulin)
1) Basic Random sets and tools
- From Random points to Random sets (Ch. Lantuejoul, EMP)
- Random tessellations and basic measurements (J. Serra)
- Morphological analysis of discrete-space binary random fields
(J. Goutsias, J. Hopkins University)
2) From Random sets to Random functions
- Introduction to random functions; the mosaic model (D. Jeulin)
- Random Boolean sets and functions (J. Serra)
- Dead leaves models: from the tessellation to random functions
(D. Jeulin)
- Examples of applications of random structures to materials
(D. Jeulin)
- Substitution random functions (Ch. Lantuejoul)
3) Fractals! (G. Matheron, EMP)
4) Simulations
- Lattice gas models (R. Bremond, EMP)
- Conditional simulations: the Gaussian case (Ch. Lantuejoul)
(Attendees will be provided with a comprehensive set of lecture notes)
------------------
TECHNICAL WORKSHOP
7-9 September 1994
------------------
Coordinator: P. Soille (EMP)
This workshop will give the opportunity to people involved with MM to
discuss its latest theoretical and practical developments. Original
contributions are sought on any novel research or application
involving MM. The Proceedings will be distributed to participants at
the conference, and a selection of the best papers will be published
separately in a special issue of the EURASIP journal "Signal
Processing" (ed. M. Kunt).
Topics include:
* Random sets and Functions * Filtering and Segmentation
- texture simulation - watersheds
- texture interpolation - multiscale analysis
- statistical inference - 3-D and motion analysis
- noise reduction - color and multispectral analysis
* Theory * Applications
- differential equations - automatic control
- lattices and topology - biological and material sciences
- graph and discrete morphology - document processing
- non-increasing mappings - stereo vision and remote sensing
3 copies of an extended abstract (approx. 1000 words) should be
submitted for review by the international technical committee to:
Pierre Soille
Ecole des Mines de Paris
Centre de Morphologie Math`ematique
35 rue Saint-Honor`e
F-77305 Fontainebleau Cedex
France
Tel.: int+ 33 1 64 69 47 06
Fax.: int+ 33 1 64 69 47 07
Email: ismm@cmm.ensmp.fr
---------
DEADLINES
---------
Deadline for Extended Abstract Submission: 1 Feb 1994
Notification of Acceptance: 15 Mar 1994
Deadline for Camera-Ready Copy (max. 6 pages): 15 Jun 1994
--------------------------------
Technical Committee (provisional)
--------------------------------
C. Arcelli (Istituto di Cibernetica, Napoli, Italy)
J. Astola (Tampere University, Finland)
E. Dougherty (Rochester Institute of Technology, U.S.A.)
J.-M. Chassery (Universit'e Joseph Fourier, Grenoble, France)
R. Haralick (University of Washington, U.S.A.)
H. Heijmans (CWI, The Netherlands)
M. Kunt (Ecole Polytechnique F'ed'erale de Lausanne, Switzerland)
G. Matheron (Ecole des Mines de Paris, France)
P. Maragos (Harvard University, U.S.A.)
L. Vincent (Xerox Imaging Systems, U.S.A.)
Ph. Salembier (Universitat Politecnica de Catalunya, Spain)
R. Schafer (Georgia Institute of Technology, U.S.A.)
M. Schmitt (Thomson C.S.F., France)
J.-J. Villanueva (Universitat Autonoma de Barcelona, Spain)
I. Pitas (University of Thessaloniki, Greece)
L. Torres (Universitat Politecnica de Catalunya, Spain)
---------------------
Practical information
---------------------
- Sponsored by EMP, EURASIP and UPC.
- Fees:
.course and workshop: FRF 3000
.course: FRF 2500
.workshop: FRF 1750
(Ph.D. students: 50% rebate)
- English will be the official language of the meeting.
- A registration form together with an advanced program will be posted
later on.
------------------------------
End of VISION-LIST digest 12.49
************************