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Sponsored by the
Industrial Electronics Society of
theInstitute of Electrical and Electronics Engineers, Inc. +,
CONFERENCE SCHEDULE
Monday, 9:00 am - 3:00 pm
3:00pm - 5:00pm
& 6:00pm - 8:00pm
SESSIONS I & 2
Tuesday, 9:00 am - 11:30 am
SESSION 3 & 4
2:00pm - 4:30pm
SESSIONS 5 & 6
Wednesday, 8:30 am - 10:00 am
Special Session/NETWORKS
10:15 am - 11:45 am
KE YNO TE ADDRESS and Luncheon
11:45 am - 2:00pm
Special Session/ VLSI
2:00pm - 3:30pm
EXHIBITS
3:45 - 6:00pm
SESSIONS 7 & 8
Thursday, 9:00 am - 11:30pm
SESSIONS 9 & 10
2:00pm - 4:30pm
TUTORIAL II
Friday, 9:00am - 5:00 pm
TUTORIAL I
WORKSHOP
TECHNICAL SESSIONS
Session 1: COMPUTER
CONTROL I
Chair: Y.K. Wo, Ph.D.
Bell Laboratories
1. Design of Hardware for an IEEE-488
Bus-CP/NET
Benson C. Cheng and W. C. Lin
University of California, Davis
2. Software Design for an IEEE-488
CP/NET
Raymond L. Cheng and W. C. Lin
University of California, Davis
3. A Microcomputer-Based Elevator
Control System
K. Rajaraman, S. U. Sahik, S. K.
Nagaraja
Best Crompton
4. Computer Control System for
Aluminum Ingot Soaking Pits
K. K. Sundareswaran
Kaiser Aluminum and Chemical
Corporation
Tutorial I
MICROPROCESSOR
INTERFACES FOR
PROCESS CONTROL
VI
&.A
Professor Alfred C. Weaver
University of Virginia
For Whom Intended
Scientists, engineers, and engineering
managers who want to use microprocessor technology to control physical
processes and devices.
Course objective
To illustrate how contemporary
microprocessor components may be
combined with software to produce
intelligent control systems.
Course Outline
* digital vs. analog control
* hardware vs. software control
* expressing process control algorithms
in software
* choosing a microprocessor
* input/output and communications
* analog/digital conversion
* structured system design
* application examples
Tutorial II
ANALOG/DIGITAL
INSTRUMENTATION
Professor Richard C. Jaeger
Auburn University
For Whom Intended
The course is structured at the
undergraduate level for engineers,
scientists and other technical people
having a basic understanding of
electronics and some knowledge of
micro or mini computers.
Course Objective
To provide a foundation for
understanding the characteristics of data
acquisition system components and an
aid in selecting instrumentation from the
current hardware offering.
Course Outline
* basic data acquisition system concepts
* digital 1/0
* analog output
* analog input
* microprocessor interfacing and 1/0
control techniques
* standard buses
WORKSHOP ON MICROCOMPUTER REALITIES
James R. Story, Ph.D., Florida International University, Miami
For Whom Intended: Engineers and students, with some knowledge of
microcomputers, who are interested in solutions to real world problems in
microcomputer-based systems. Bring your problems to the panel of experts.
Workshop objective: To overview techniques, rarely found in textbooks,
that are used in industry to ensure a reliable, low noise, working microcomputerbased system.
Topics
* why your microcomputer system doesn't work all the time
* power failures and memory protection
* hardware solutions to lost data and CPU "runaway"
* software solutions to glitches
* data coding techniques for noisy environments
5. Microcomputer Control Measurement
System for the Power System Simulator
R. MacDonald, M. M. Gavrilovic, V.
Q. Do
Institut de Recherche d'Hydro-Quebec
Session 2: SOFTWARE
TECHNIQUES
Chair: Y. Matsumoto,
Ph.D.
Toshiba Corp.
1. Solar Cell Array Simulation Using a
Microprocessor-Based Controller
M. A. Slonim, E. K. Stanek, A. Imece,
D. Troyer
Michigan Technological University
2. Fault Detection and Location Tools for
Microprocessor-Based Systems
R. Grondin
Hydro-Quebec Research Institute
3. A Thryistor Model for Computer-Aided
Power Electronics Circuits Design
Novica A. Losic, Canadian G.E.
E. G. Verbrugge
Canada Systems Group
4. A Technique for Complex Sequencing in
a Hybrid Electric Vehicle Controller
H. A. Sutherland, B. K. Bose, C. B.
Somuah
General Electric Company
5. Real-Time Simulation Sub-sonic
Aircraft Flight Using a Microcomputer
Prof. Dale Rummer
University of Kansas Space Technology
Center
Session 3: COMPUTER
CONTROL II
Chair: R. C. Born, Ph.D
Cutler-Hammer
Corporation
1. Design Aspects of an Experimental
Microcomputer Network for Real-Time
Control
A. I. Noor, G. S. Hope, 0. P. Malik
The University of Calgary
2. Microcomputer-Based Distributed Data
System
J. 0. Schroeder
Battelle, Pacific Northwest Laboratories
3. An Adaptive Control System for
Presetting a Printing Press
Y. Z. Brovman, R. R. Murray
Harris Corporation
4. Implementation of an Interactive ManMachine Interface Utilizing a
Programmable Controller-Based
Macroprocessor
R. B. Rovner
Chevrolet, Tonawanda Metal Casting
Plant
5. Microcomputers in Instrumentation and
Control
A. Hupperthal, W. F. Wurzbach
Computer Lab
Session 4: MOTOR
CONTROL
Chair: V. R. Stefanovic,
Ph.D
General Electric Co.
1. Microprocessor-Based Overload
Protection for Motor Drives
H. Naitoh, T. Hasegawa
Toshiba Corporation
2. Robust State Observer and Variable
Sampling Technique for Performance
Improvement of a Motor Drive System
F. Harashima, S. Kondo
University of Tokyo
3. A Microprocessor Controlled Thryistor
Current Source for Electric Motor Drives
Hoang Le-Huy
Universite du Quebec a Trois-Rivieres
D. Roy, R. Perret
Institute National Polytechnique de
Grenoble
4. Acceleration-Deceleration Capabilities of
V. R. Types Steppers and their High
Performance Control Strategies on a
Microprocessor-Based CNC Controller
M. F. Rahman
National University of Singapore
A. Pragad
BBC
R. Bell
Loughborough University of Technology
Session 5: MICROPROCESSOR
CONTROLLED
POWER
CONVERTERS
Chair: Dr. V. Rajagopalan,
Universit6 duQuebec
A Trois-Rivieres
1. A Microprocessor-Based Controller for
a Balanced Three Phase to Single Phase
Load Matching Converter
Paul Harmon, J. D. Laveis
University of Toronto
2. Microprocessor Control of a Thyristor
Converter Using Minimum Hardware
and Software
Hoang Le-Huy
Universite du Quebec a Trois-Rivieres
D. Roye, R. Perret
Institut National Polytechnique de
Grenoble
3. A Microprocessor-Based
Synchronization Scheme for DigitallyControlled Three-Phase Thyristor Power
Converters
G. H. Pfischer
Center de Recherche en Automatique de
Nancy
Session 6: AUTOMATED
MANUFACTURING
Chair: (to be named)
1. Application Of Least-Squares Parameter
Identification with Fixed-Length Data
Window to the Steel Bending Process
G. Cook, G. D. Beale,
Vanderbilt University
2. Application of CAD/CAM to Form
Coil Manufacturing
C. A. Millick
General Electric Company
3. Translator Design for Automated
Integrated Manufacturing
L. B. Gardner
Consulting Manufacturing Engineer,
Computerized Systems
Session 7: INSTRUMENTATION AND
INTERFACING
Chair: C. W. Einolf, Ph.D.
Westinghouse Electric
1. A Microcomputer Seismic Processing
System for Engineering Applications
J. J. Hill, R. P. Young, R. Haigh
University of Hull
2. Microcomputer-Based Instrument
Combining Frequency Synthesizer,
Sweep Generator and Pulse Generator
Abd el-Samie Mostafa
Beirut Arab University
A. K. Taha, M. Beshay, E. Garras
Higher Technical College, Cairo
3. Hardware Design of a Bit-Slice
Microprocessor Development System
with CP/M Operating System
W. C. Chu, W. C. Lin
University of California, Davis
4. Software Support and Interface Design
for a CP/M Based Bit-Slice
Microprogrammable Development
System
T. Q. Nguyen, W. C. Lin
University of California, Davis
5. A UNIX* System Supported
Microcomputer Development System for
BELLMAC-4 Microcomputer
Y. K. Wo, J. W. Farrell, R. H.
Dunphy, R. J. Peirce, Bell Laboratories
Session 8: AUTOMATED
TESTING
Chair: T. Hasegawa,
Toshiba Corp.
1. Semiconductor Yield Enhancement
Through the Use of MicrocomputerBased Automated Test Systems
Chris Rook, Cromemco, Inc.
Bill Dopson, Lomac Corporation
2. A Non-Contact Profile Sensing System
for Visual Inspection
G. B. Porter III, J. L. Mundy
General Electric Corporate Research and
Development Center
'UNIX is
a
trademark of Bell Laboratories
3. Computer Testing: Key to Product
Quality
A. B. Grubbs, Jr., R. E. Puckett
Texas A&M University
Bill Hebron
Texas Instruments, Inc.
4. Production Test System for High
Volume Microcomputer-Based Products
P. M. Johnston, G. M. Belich, P. J.
Mobus
Westinghouse Electric Corporation
5. A Distributed Data Acquisition and
Control System for a Fuel Cell Test
Facility
Donna A. Herbert
Westinghouse Electric Corporation
Session 9: ENERGY AND
POWER SYSTEMS
Chair: F. Harashima,
Ph.D.
Tokyo University
1. Microprocessor Control of a
Developmental 25W Lithium-Hydrogen
Peroxide Power Cell System
J. P. Thompson
Lockheed Missiles and Space Co., Inc.
2. Microprocessor Control of a 400 Hz AC
Power Supply
J. Chen, Huazhong Institute of
Technology
R. Bonert
University of Toronto
3. A Microprocessor-Based AC Drive
G. Barbagallo, E. Bassi, F. Benzo,
G. Petrecca
University of Pavia
4. Inverse-Time Overcurrent Relay
G. W. Swift, R. C. Small
University of Manitoba
5. Load Flow Calculations Incorporating
System Control Effects and Consumer
Self-Regulation Characteristics without
Swing Bus
Dr. Ahmed Farag
University of Southern California
Ali M. Alli, A. Al-Ghandi, Y. Abdel-
Magid
University of Petroleum and Minerals
Session 10: ROBOTICS
Chair: J. C. Harshaw
Bell Laboratories
1. Microcomputer Control of an Arc
Welding Robot with Visual Sensor
N. Kodaira, T. Bamba, H. Maruyama,
E. Ohno
Mitsubishi Electric Corporation
2. High Level Language Digital Drive
Controller
G. A. Tendulkar
Siemens AG
3. Developing a High-Level Robotics
Language Using Off-the-Shelf
Microcomputer Components and
System Software
Chris Rook
Cromemco,Inc
4. Robot Networking
G. Messina
Ingegneria Universita' di Catania
5. Robots with Vision Paint Food Liners
Paul A. Misegades
General Electric Company
CONFERENCE REGISTRATION:
(7:00-9:00 pm Sunday. 8:00 am each morning, except 7:30 am Tuesday.)
IECON
O82
Mail to: LeRoy Bushart
Registration Chairman
c/o ESD Corp.
600 Meridian
San Jose, CA 95126
(print or type)
name
company
Conference November 15-19
Hyatt Rickeys, Palo Alto, CA
Late
Advance
Registration
Registration
(At door)
(received by)
(October 31)
IEEE MEMBER
$100
O $90
NONMEMBER
$120
O $105
STUDENT
$ 60
O $ 60
ONE DAY REGIS- $ 75
O $ 65
TRATION
$
Total Enclosed
zip code
mailing address
/(mandatory for IEEE rate)
IEEE Member No.
Checks must be in US dollars on US bank, payable to IECON '82. No credit cards or purchase orders accepted.
TUTORIAL REGISTRATION
Mail to: LeRoy Bushart
Registration Chairman
c/o ESD Corp.
IECON
[O $90 TUTORIAL I Monday
November 15
Microprocessor Interfaces for
'82
Process Control
[O $90 TUTORIAL 11 Friday
November 19
600 Meridian
San Jose, CA 95126
Analog/Digital
Instrumentation
IO $150 BOTH TUTORIALS
] $55 WORKSHOP Monday
(printsi type)
name
November 15
company
zip code
mailing address
Total Enclosed
$_
Checks must be in US dollars on US bank, payable to IECON '82. No credit cards or purchase orders accepted. Registration by October 31 will guarantee tutorial
materials during attendance. Coffee break refreshments included.
HOTEL REGISTRATION * IECON '82 t November 15-19, 1982
ARRIVAL date/time
DEPARTURE date/time
C Single (one person) $58
Mail to: Reservations Manager
HYATT RICKEYS
- 4219 El Camino Real
P-alo Alto, CA 94306
r-I
name
address
state
city
fl,-,,,hl. (It-,,
k-
U Twin (two persons-two beds) $70
U Triple (three persons-two beds) $85
U Suite (one or two bedrooms)
zip code
additional persons sharing room
3.
Reservations must be made by October 15. Check in time is 3 pm. Rooms held
until 4 pm without deposit or guarantee.
The Institute of Electrical and Electronics
445 Hoes Lane
Plscataway, NJ 08854
$110-$250
GUARANTEE: U Check Enclosed
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