IEEE International Conference on Systems Engineering September 17 - 19, 1992
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| 111 | 2 | |a International Conference on Systems Engineering |n 4 |d 1992 |c Kōbe |j Verfasser |0 (DE-588)5076800-1 |4 aut | |
| 245 | 1 | 0 | |a IEEE International Conference on Systems Engineering |b September 17 - 19, 1992 |
| 246 | 1 | 3 | |a Proceedings of the IEEE International Conference on Systems Engineering |
| 264 | 1 | |a Kobe |b Internat. Conference Center |c 1992 | |
| 300 | |a XXII, 643 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 650 | 0 | 7 | |a Systemtechnik |0 (DE-588)4140901-2 |2 gnd |9 rswk-swf |
| 655 | 7 | |0 (DE-588)1071861417 |a Konferenzschrift |y 1992 |z Kobe |2 gnd-content | |
| 689 | 0 | 0 | |a Systemtechnik |0 (DE-588)4140901-2 |D s |
| 689 | 0 | |5 DE-604 | |
| 856 | 4 | 2 | |m Digitalisierung TU Muenchen |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=006300368&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
| 943 | 1 | |a oai:aleph.bib-bvb.de:BVB01-006300368 | |
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| DE-BY-TUM_call_number | 0001 94 B 408 |
|---|---|
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| DE-BY-TUM_location | Mag |
| DE-BY-TUM_media_number | 040001879512 |
| _version_ | 1820800226227650560 |
| adam_text | Table
of Contents
ΤΗΡΜ-Ι
Thursday,
September
17
1 -.00-3:40
pm
Room
401
Special
Session:
Organizer:
Chair:
THPM-1.1
THPM-1.2
THPM-1.3
THPM-1.4
THPM-1.5
THPM-1.6
Nonlinear Signal Processing
Irek
Def
ее,
Tampere University of
Technology, Tampere, Finland
Yrjo Neuvo, Tampere University of
Technology, Tampere, Finland
Analysis and Implementation of Linear
Combination of Weighted Order
Statistic Filters
Jongkwan Song and Yong
Hoon Lee,
Korea
Advanced Institute of Science and
Technology, Taejun, Korea
Quadratic Filters for Signal
Processing: Principles and
Applications
Giovanni L. Sicuranza, University of Trieste,
Trieste, Italy
Haemodynamic Trend Detection Using
the Median Filter
A. Mäkivirta,
Technical Research Centre of
Finland, Tampere, Finland and E.
Koski,
Kuopio University Hospital, Kuopio, Finland
Q-L Transformations for Adaptive
Generalized Order Statistic Filtering
Gonzalo
R.
Arce, Mu
Tian
and Shoupu Chen,
University of Delaware, Newark, Delaware,
USA
Weighted Vector Median Operation for
Filtering Multispectral Data
Kai Öistämö, Qin
Liu,
Mika
Grundström
and
Yrjö
Neuvo, Tampere University of
Technology, Tampere, Finland
Nonlinear Filtering Without Aliasing
Errors
I. Defée, R.
Soininen and Y. Neuvo, Tampere
University of Technology, Tampere, Finland
THPM-2
Thursday,
September
17
1
:00-3:40 pm
Room
403
Regular
Session:
Chair:
THPM-2.1
THPM-2.2
12
16
20
Neural Networks I
Fathi M.
A. Salam,
Michigan State
University, East Lansing, Michigan, USA
Unsupervised Learning of
3D
Objects
Conserving Global Topological Order
Jinhui
Chao,
Chuo University, Tokyo, Japan;
Kenji
Minowa
and Shigeo Tsujii, Tokyo
Institute of Technology, Tokyo, Japan
A Neural Network-Based Variable
Structure Robot Controller
T. P. Leung, Hong Kong Polytechnic, Hong
Kong; Hai-Long Pei and Qi-Jie Zhou, South
China University of Technology, Guangzhou,
P. R. China
24
THPM-2.3 A Recurrent Dynamic Network for
28
Associative Recall
Jiansheng
Hou
and Fathi M.
A. Salam,
Michigan State University, East Lansing,
Michigan, USA
THPM-2.4 A Probabilistic Neural Network for
32
Spatiotemporal
Pattern Recognition
Quen-Zong Wu, Ron-Yi Liu, Bor-Shenn Jeng,
Yuang-Chang Tsai and Su-Shun Huang,
Telecommunication Laboratories,
M.O.C.
,
Taiwan,
R.O.C.
THPM-2.5 Fault Tolerance in Neural Networks
36
Hamed Elsimary and
Samia Mashally,
Electronic Research Institute, Cairo, Egypt;
and Samir Shahine, Cairo University, Cairo,
Egypt
THPM-2.6 A Composition of the Neural Network
40
Using Switched-Capacitor Circuit
M. Sasaki, F. Ueno, T. Inoue and
N.
Haraguti,
Kumamoto University, Kurokami, Japan
THPM-2.7 Neural Strategies for Nonlinear
44
Optimal Filtering
A. Alessandri,
T.
Parisini,
M. Sanguineti and
R. Zoppoli,
University of Genoa,
Genova,
Italy
ТНРМ-3
Thursday,
September
17
1:00-3:40
pm
Room
404
Regular
Session:
Chair:
THPM-3.1
Adaptive Control
Model Reference Adaptive Control for
50
Multivariabie Nonminimum-Phase
Systems Using a Periodic Scheme
Nariyasu Minamide,
Mie
University, Tsu city,
Japan
THPM-3.2 Pole Assignment Control of
54
Nonminimum
Phase Systems: A
Combined Adaptive Control-Variable
Structure Approach
G. Bartolini and
A. Ferrara,
University of
Genova, Genova,
Italy
THPM-3.3 Maximal Error Evaluation Typed
59
Stable Model Reference Adaptive
Control for Periodically Linear Time-
Varying Systems
K. Itamiya, University of Tsukuba,
¡baraki,
Japan; S. Shin, University of Tokyo, Tokyo,
Japan; and K.
Ando,
University of Tsukuba,
Ibaraki, Japan
THPM-3.4 Cascaded Adaptive Position Control
63
of a DC Motor
T.
W. S.
Chow and
Y. F.
Yam, City
Polytechnic of Hong Kong, Kowloon, Hong
Kong
THPM-3.5 Adaptive Controller Using Unknown
67
Model Order
Ghassan
Ai-Saddiki, King Abdulaziz
University, Jeddah, Saudi Arabia
*
Paper not received in time for inclusion in proceedings.
IX
ТНРМ-3.6 А
New Model Reference Adaptive
71
Control Law
Saleh A. Saleh and Peng-Yung Woo, Northern
Illinois University,
DeKalb,
Illinois, USA
THPM-3.7 On L2-Sensitivity Minimization of
75
Linear State-Space Systems
Weiyong Yan and John B. Moore, The
Australian National University, Canberra, ACT,
Australia
THPWM
Thursday,
September
17
1:00-3
:40 pm
Room
405
Special
Session:
Organizers:
Chairs:
Optimization and Automation in
Systems
Harriet H. Kagiwada, California State
University, Fullerton, California, USA;
Masanori Sugisaka, Ohita University,
Ohita, Japan; and Sueo Ueno, Kyushu
University, Fukuoka, Japan
M. Sugisaka and S. Kitamura, Kobe
University, Kobe, Japan
THPM-4.1 System Identification Using Neural
79
Networks
S. Sugimoto, M. Matsumoto and M. Kabe,
Ritsumeikan University, Kyoto, Japan
THPM-4.2 On Some Fuzzy Adaptive Control
83
Processes
Tosio Odanaka, Tokyo Metropolitan Institute
of Technology. Tokyo, Japan
THPM-4.3 A State Estimation Method of Acoustic
System Contaminated by the Wind
Noise with Use of Digital Filter
K. Hatakeyama, Hiroshima University Higashi-
Hiroshima, Japan and M. Ohta, Kinki
University. Japan
THPM-4.4 Computer Assisted Training for
*
Telecommunications Engineers
Y. Terashita. Kanazawa Institute of
Technology. Ishikawa. Japan
THPM-4.5 Automatic Measurement of Ship s
87
Attitude by the Use of Servo-type
Aecelerometers
Shogo Tanaka. Yamaguchi University. Ube.
Japan
THPM-4.6 Designs of New Smoothers for
91
Stationary Systems and Their
implementations to Third Order
Electric Circuit
M. Sugisaka. M. Kumashiro. and T. Matsuo,
Oita University, Oita. Japan
THPM-4.7 Adaptive Identification and Control
94
Based on Riccati Equation
Takami Matsuo and Masanori Sugisaka. Oita
University. Oita, Japan
THPM-5
Thursday,
September
17
1:00-3:40
pm
Room
406
Special
Session: New Technology for Communications
Organizer: Naoki Suehiro, Tokyo Engineering
University, Tokyo, Japan
Chair: Shojiro
Sakata,
Tqyohashi University of
Technology, Aichi, Japan
THPM-5.1 An Efficient Algorithm for Minimal
97
Partial Realization of Matrix
Sequences
Shojiro
Sakata,
Toyohashi University of
Technology, Toyohashi, Japan
THPM-5.2 Golay Complementary Sequences are
101
Superior to PN Sequences
Srdjan
Budiéin,
Institute of Microwave
Techniques and Electronics,
Novi Beograd,
Yugoslavia
THPM-5.3 Convolutional Code and Hybrid ARQ
105
Takeshi Hashimoto, University of Electro-
Communications, Tokyo, Japan
THPM-5.4 Low Complexity Decoding for
Ю9
Convolutional Codes
Han Vinck, University of Essen, Essen,
Germany
THPM-5.5 Adaptive Combination of Equalization
113
and Decoding of Error-Correcting
Codes
Ryuji Kohno, Yokohama National University,
Yokohama, Japan
THPM-5.6 Asynchronous SSMA System Using
119
Secret Polyphase Orthogonal
Sequences with Elimination Filter for
Co-Channel Interference
Naoki Suehiro, Tokyo Engineering University,
Tokyo, Japan
THEV-1
Thursday,
Septembers
6:00-9:00
pm
Room
401
Regular
Session: Robotics
Chair:
THEV-1.
1
Formulation of Planning of Vision and
Motion for a Mobile Robot Under
Uncertainty
Jun
Miura and Yoshiaki Shirai, Osaka
University, Osaka, Japan
THEV-1
.2
A Robust Tracking Control Scheme
for Robotic Manipulators with
Uncertain Dynamics
Man Znihong and M. Palaniswami, The
University of Melbourne, Parkville, Victoria,
Australia
THEV-1
.3
Data Integration in Multi-Sensor Based
Robotic Workstations
Qin Chen and J. Y. S.
Luh, Clemson
University, Clemson, South Carolina, USA
*
Paper not recehed in time for inclusion in proceedings.
123
127
THEV-1.4
Sensor-Based
Reactive
Planning
and
135
Execution for Robotic Assembly
Tasks
Carlos Ramos and
Eugênio Oliveira.
Oporto
University, Porto, Portugal
THEV-1.5 A Watchdog for the Overturn Stability
139
Supervision of Platforms
Rolf Truninger, Swiss Federal Institute of
Technology,
Zürich,
Switzerland
THEV-1.6 Control Architecture for a Robot with
143
Visual and Tactile Capabilities Skilled
in Sorting Dishes
Dieter Vischer, Swiss Federal Institute of
Technology,
Zürich,
Switzerland
THEV-1.7 A Distributed Blackboards
147
Methodology for Designing Robotic
Control Softwares
Michel Occello and Marie-Claude Thomas,
Université de
Nice, Sophia
Antipolis.
Valbonne, France
THEV-1.8 Grinding Robot System with Master
151
Slave Control
Hirofumi Matsuo. Fujio Kurokawa. Katsuhiko
Onta,
Ken
Imamura
and Mutsuyoshi
Asano,
Nagasaki University, Nagasaki, Japan
THEV-2
Thursday,
September
17
6:00-9:00
pm
Room
403
Special
Session:
Organizer
and Chair:
THEV-2.1
THEV-2.2
THEV-2.3
THEV-2.4
THEV-2.5
THEV-2.6
Fuzzy Neural Networks
M. M.
Gupta, University of
Saskatchewan, Saskatoon,
Saskatchewan, Canada
Co-Chair: T. Yamakawa, Kyushu Institute
of Technology, Fukuoka, Japan
Calculus of Fuzzy If and Then Rules
*
and Its Applications
Lotfi A. Zadeh, University of California,
Berkeley, California, USA
A Fusion of Fuzzy Logic Chips and
*
Neurosciences: A
Fuzzy Neuron Chip
and Its Application to a Pattern
Recognition
Takeshi Yamakawa, Kyushu Institute of
Technology, Fukuoka. Japan
Fuzzy Logic and Neural Networks
635
Madan Gupta, University of Saskatchewan.
Saskatoon Saskatchewan, Canada
Fuzzy Associative Inference System
155
and Its Features
Sozo Yamamoto,
Toru
Yamaguchi and
Tomohiro Takagi, Laboratory for International
Fuzzy Engineering Research, Yokohama.
Japan
A Paradigm of Intelligent Fuzzy
159
Networks
Hiroshi Kawamura and Akinori
Tani.
Kobe
University, Kobe, Japan
Fuzzy Optimal Controller Design
165
Based on Neural Network for
Nonlinear Systems
Atsushi Ishigame, Shunji Kawamoto and
Tsuneo Taniguchi, University of Osaka
Prefecture, Sakai. Japan
THEV-3
Thursday,
September
17
6:00-9:00
pm
Room
404
Special
Session:
Organizer
and Chair:
THEV-3.1
THEV-3.2
THEV-3.3
ТНЕУ-З^
THEV-3.5
Adaptive Systems
Eberhard Hansler, Technische
Hochschule Darmstadt,
Darmstadt,
Germany
169
173
Optimal Estimation of Impulse
Response and Adaptive Equalization
for Mobile Radio Channel
Takayuki
Nakano
and Tsuyoshi Takebe.
Kanazawa University. Kanazawa. Japan
Linear Echo Cancellation Using
Optimized Orthogonal Recursive
Filters
A. Kaelin and G. S, Moschytz, Swiss Federal
Institute of Technology. Zurich, Switzerland
On Numerically Robust Adaptive
177
Recursive Filters
Alejandro Zalnieriunas. Ruhr-Universitat
Bochum, Bochum,
Germany
Adaptive Equalization Analysis
*
without Gersho-Mazo-Assumption
J.
Novotný.
University of Erlangen-Nurnberg,
Erlangen,
Germany
Implementation of a Two-State Viterbi
181
Decoder with Embedded Decision
Feedback
W.
Schott,
Zurich Research Laboratory,
Reschlikon. Switzerland
THEV-4
Thursday,
September
17
6:00-9:00
pm
Room
405
Regular
Session:
Chair:
THEV-4.1
Multi-Dimensional Digital Signal
Processing
G. L. Sicuranza, University of Trieste,
Trieste, Italy
On the Multiprocessor Implementation
185
of 2-D Separable-Denominator Digital
Filters
Takao Hinamoto and Mitsuji Muneyasu.
Hiroshima University, Higashi-Hiroshima.
Japan
THEV-4.2
THEV-4.3
Theory of Generalized
Interpolatory
Approximation of Multi-Dimensional
Signals
Takuro
Kida.
Tokyo Institute of Technology.
Yokohama-shi. Japan
An Architecture of Multi-DSP System
and Development Environment for
Two-dimensional Digital Signal
Processing
H. Nakajo. K. Yoshikawa. Kobe University.
Kobe. Japan: T. Hinamoto. Hiroshima
University. Hiroshima. Japan: and S.
Maekawa. Kobe University. Kobe. Japan
*
Paper not received in time for inclusion in proceeding*.
189
193
Xl
THEV-4.4
A Canonical
Design
Form of Two-
197
Dimensional Digital Filters
Atsushi Kawakami, Kanazawa Institute of
Technology, Ishikawa-ken, Japan
THEV-4.5 A Three-Dimensional Weighted Median
201
Predictor for Television
Xudong Song and
Yrjö Neuvo,
Tampere
University of Technology, Tampere, Finland
THEV-4.6 Some Discussions for Generalized
205
Interpolatory
Approximation of Multi-
Dimensional Signals
Takuro
Kida
and Hiroshi Mochizuki, Tokyo
Institute of Technology, Yokohama-Shi, Japan
THEV^J Filtering of Spatially-Invariant Image
209
Sequences with Multiple Desired
Processes
Youngin Oh Shin and James B. Farison, The
University of Toledo, Toledo, Ohio, USA
THEV-4.8 A Simplified Method of Motion Vector
216
Estimation for VLSI Implementation
Hideki Honma, Mutsurni Ohta and Takao
Nishitani, NEC Corporation, Kanagawa, Japan
THEV-5.6 Celesstin IV: Knowledge-Based
242
Analysis of Mechanical Engineering
Drawings
Pascal
Vaxivière
and Karl
Tömbre,
CRINI
CNRS, Vandoeuvre,
France
THEV-5.7 Generation of Free-Form Surface
246
Models by Understanding Geometric
and Topological Constraints on Rough
Sketches
Satoshi Kanai, Shusaku Furushima and
Hidetomo Takahashi, Tokyo Institute of
Technology, Tokyo, Japan
THEV-5.8 Auxiliary Lines in Three View
250
Drawings for
3D
Shape
Reconstruction Using
CSG
Method
Ken Tomiyama, Takeshi Nakamura, Aoyama
Gakuin University, Tokyo, Japan and Takashi
Koezuka, Nippon Steel Co., Kanagawa,
Japan
FAM-1
Friday, September
18
9:00
am-1
2:00
noon
Room
401
THEV
-ΰ
Thursday,
September
17
6:00-9:00
pm
Room
406
Special
Session:
Organizer
and Chair:
THEV-5.1
THEV-5.2
THEV-5.3
THEV-5.4
THEV-5.5
Machine Understanding of Mechanical
Drawings
Ken Tomiyama, Aoyama Gakuin
University, Tokyo, Japan
Reconstruction of
CSG
Solid from a
220
Set of Orthographic Three Views
Katsuhiro Kitajima and Makoto Yoshida, Tokyo
University of Agriculture and Technology,
Tokyo, Japan: Monyasu
Tasaka. Omron
Co.,
Tokyo, Japan
Engineering Drawing Recognition
225
Based on a Line Decomposition and
Re-composition Method
Shigeyoshi Shimotsuji,
Osamu Hori
and
Satohide Tanigawa. Toshiba Corporation,
Kawasaki, Japan
Automatic Reconstruction of Solid
229
from a Set of the Orthographical Three
Views
Toyomitsu
Senda
and Yutaka Arimitsu. Ehime
University, Ehime, Japan
Computer-Aided Drawing Check for
234
CAD Systems
-
A Method for the
Checking of Dimensions in Multiview
Mechanical Drawings
Showzow Tsujio, Kagoshima University.
Kagoshima, Japan: Toshiro
Ono
and Seoung
Soo Lee,
Osaka
Prefectura!
University. Osaka.
Japan
Understanding Three-View Drawings
238
of Mechanical Parts with Curved
Shapes
Changhun Kim, Nobuki Tsuchida, Masahiro
Inoue and Seiicni Nishihara. University of
Tsukuba, Tsukube, Japan
Regular
Session:
Chair:
FAM-1.
1
Control Systems I
Zoran Gajic,
Rutgers University,
Piscataway, New Jersey, USA
257
FAM-1
.2
FAM-1
,3
FAM-1
.4
FAM-1.
5
FAM-1
.6
FAM-1
.7
FAM-1
.8
261
Multivariable
Transfer Functions for a
Slewing Piezoelectric Laminate Beam
Hemanshu R.
Pota,
Australian Defence Force
Academy, Campbell, ACT, Australia and
Thomas
Є.
Alberts, Old Dominion University,
Norfolk, Virginia, USA
On the Discrete-time Hwfilter via
Game Theoretic Approach
Kiyotsugu Takaba and Tohru Katayama, Kyoto
University, Kyoto, Japan
Mixed Sensitivity H1 Controller Design
266
for Power Systems
F.
Crusca
and W. Aldeen, University of
Melbourne, Parkville, Victoria, Australia
Achievable H* Disturbance 270
Attenuation for Mechanical Systems
Raoul
Herzog,
MECOS Traxler
AG,
Winterthur, Switzerland and
Hannes Bleuler,
University of Tokyo, Tokyo, Japan
Combined Schur/L*. Model Reduction
with Fixed Modes for Discrete
Systems
A. H. Bamani, King Abdulaziz University,
Jeddah, Saudi Arabia
Bounded Real Extension of the Schur-
Cohn Test
Yoshimi
Monden
and Masayasu Nagamatsu,
Shimane University, Matsue, Japan
An Application of the
Pseudo
Boundary of an Unstable Polytope of
Polynomials
L R.
Pujara
and Seong Kim, Wright State
University, Dayton, Ohio, USA
Stabilization of Large-Scale Systems
by Reduced Order Controllers
H. Trinh and M. Aldeen, The University of
Melbourne, Parkville, Victoria, Australia
274
278
282
286
VII
FAM-2
Friday, September
18
9:00
am-1
2:00
noon
Room
403
FAM-3
Friday, September
18
9:00
am-1
2:00
noon
Room
404
Special
Session:
Organizers:
Chairs:
FAM-2.1
FAM-2.2
FAM-2.3
FAM-2.4
FAM-2.5
Frontiers of Medical and
Biomedical
Systems
Masao
Saito,
University of Tokyo, Tokyo,
Japan and Toshi Hiro Nishimura, Oita
University, Oita, Japan
Toshi Hiro Nishimura, Oita University,
Oita, Japan and Shoichi
Senda,
Kagawa
Medical School, Kagawa, Japan
Fluctuations on R-R Interval Time
290
Series of Diabetic
Autonomie
Neuropathy
Toshi Hiro Nishimura, Oita
University, Oita.
Japan; Takeshi Inoue, Oita High Institute of
Technology, Oita, Japan; Masao
Saito.
University of Tokyo, Tokyo, Japan; Kazuyuki
Nagatsuka, Shoichi
Senda
and Hirohide
Matsuo, Kagawa Medical School, Kagawa,
Japan
A Transcutaneous Energy
294
Transmission System for an Artificial
Organs by Using a Novel Resonant
Converter
Takeshi Inoue, Oita High Institute of
Technology, Oita, Japan; Toshi Hiro
Nishimura, Oita University, Oita, Japan,
Masao
Saito,
University of Tokyo, Tokyo,
Japan and Mutsuo Nakaoka, Kobe University,
Kobe, Japan
Evaluation of Circadian Oscillation of
298
the
Autonomie
Nervous System by
Spectral Analysis of Heart Rate
Variability
Kazuyuki Nagatsuka, National Cardiovascular
Center, Osaka, Japan; Shoichi
Senda,
Seiichi
Sakamoto,
Toru Takagi,
Hirohide Matsuo,
Yoshimi Nitta, Toshihiro Inage, Hironobu
Yokoi, Hiromi Suekane, Koichi Kaanishi,
Kagawa Medical School, Kagawa, Japan;
and Toshihiro Nishimura, Oita University, Oita,
Japan
Tissue Characterization in the Human
303
Coronary Artery Using Acoustic
Microscopy
Hisashi Masugata, Shoichi
Senda, Toshihiko
Kan, Hisaki Morita, Shigeru Nakajima,
Takafumi Yura and Hirohide Matsuo, Kagawa
Medical School, Kagawa, Japan; Hiroshi
Kanda
and Kageyoshi Katakura, Hitachi, Ltd.,
Japan; Toshihiro Nishimura, Oita University,
Oita, Japan
Influence of
Anisotropie
Structure of
307
Myocardium on Estimation of
Ultrasonic Tissue Parameters
T. Shiina, Tokyo University of Agriculture and
Technology, Tokyo, Japan; T. Nishimura,
Ohita University, Ohita Japan: T. Nakamura.
Yokohama General Hospital. Yokohama,
Japan;
Ţ.
Takamoto and T. Sakamoto,
Kyoundo Hospital, Tokyo, Japan
Regular
Session:
Chair:
FAM-3.2
FAM-3.3
FAM-3.4
FAM-3.5
FAM-3.6
Stochastic Signal Processing
S. Nishimura, Shimane University,
Matsue, Japan
A New Multichannel Spectral
311
Approach for System identification
Kang-Ning Lou, National Chung-Cheng
University, Taiwan,
R.O.C,
and Tsai-Hung
Fan, National Central University, Taiwan.
R.O.C.
An Extension of the
Kiefer-Wolfowitz 315
Stochastic Approximation Procedure
Yutaka Maeda, Kansai University. Osaka,
Japan
Two-dimensional Spectral Estimation
319
Method with Input-dependent FIR
Prefiltering
Tetsuya Shimamura and Jouji Suzuki. Saitama
University, Urawa. Japan
A State Estimation Method with
323
Matching Between a Physical Energy
Quantity and a Decibel Scaled Noisy
Observation for a Sound
Environmental System
Eiji Uchino. Kyushu Institute of Technology,
lizuka, Japan; Mitsuo Ohta and Kazutatsu
Hatakeyama, Kinki University, Higashi-
Hiroshima, Japan
Filtering and Modeling Using
327
Covariance Information in Linear
Continuous Systems
Seiichi Nakamori, Kagoshima University,
Kagoshima, Japan
Sensor Placement for On-orbit Modal
332
Identification of Large Space Structure
via a Genetic Algorithm
Leehter Yao, William A. Sethares and Daniel
С
Kammer,
University of Wisconsin, Madison,
Wisconsin, USA
FAM-4
Friday, September
18
9:00
am-1
2:00
noon
Room
405
Regular
Session:
Chair:
FAM-4.1
FAM-4.2
FAM-4.3
Digital Signal Processing
M. Kawamata, Tohoku University,
Sendai, Japan
Noniterative
Real-Time Design of
Selective Linear Phase Filters
Kari-Pekka
Estola,
Technical Research Centre
of Finland, Oulu, Finland
Relations Between Sensitivity of
Moment and Root for FIR Filters
Yan Wang and Toshinori Yoshikawa, Nagaoka
University of Technology, Nagaoka, Japan
Low Sensitivity Realization of FIR
Filters with 2-Stage Cascade Structure
Toshinori Yoshikawa, Yoshio Watanbe, Anil
Khare and Yan Wang. Nagaoka University of
Technology, Nagaoka, Japan
*
Paper not received ¡n time for inclusion in proceedings.
336
340
XIII
FAM-4.4 Architecture
of a High-speed
344
Hierarchical Structure Transversal
Filter
Akiyoshi Kawahashi, Shogo Nakamura and
Yoshihiko Horio, Tokyo Denki University,
Tokyo, Japan; and Yukio Kadowaki, Ricoh
Company, Ltd., Osaka, Japan
FAM-4.5 Fundamental Study on Periodically
348
Time-Varying State-Space Digital
Filters
-
Statistical Analysis, Scaling
and Stability
Masayuki Kawamata, Xuedong Yang and
Tatsuo Higuchi, Tohoku University. Sendai.
Japan
FAM-4.6 Finite Word Length Effects on the
*
Moment of the Impulse Response of a
Digital Filter
Anil Khare and Toshinori Yoshikawa, Nagaoka
University of Technology, Nagaoka, Japan
FAM-6
Friday, September
18
9:00
am-1
2:00
noon
Room
503
Special
Session:
Organizers:
Chairs:
FAM-6.1
FAM-6.2
FAM-5
Friday, September
18
9:00
am-12:00 noon
Room
406
FAM-6.3
Special
Session:
Organizer:
Chair:
FAM-5.1
FAM-5.2
FAM-5.3
FAM-5.4
FAM-5.5
Neural Network Algorithms and
Applications
John J. Shynk, University of California,
Santa Barbara, California, USA
Anthony
Kuh,
University of Hawaii,
Honolulu. Hawaii, USA
Bounds on Mistake Rates for
*
Incremental Learning Algorithms
When Concepts Drift
A. Kuh, University of Hawaii at Manoa.
Honolulu, Hawaii. USA
A System
Identificatori
Technique
352
Based on Neural Networks
H. Wabgaonkar and A. Stubberud, University
of California-Irvine. Irvine, California. USA
System Identification Data Models for
*
the Performance Analysis of
Perceptron Learning Algorithms
J. J. Shynk, University of California-Santa
Barbara. Santa Barbara, California and Neil J.
Bershad. University of California-Irvine. Irvine.
California. USA
A Modular Neural System for
357
Handwritten Alphabet Recognition
Using Invariant Moment-Based
Features
Saida Benromdhane and F. M.
A. Saiam,
Michigan State University. East Lansing.
Michigan. USA
An Analog VLSI Edge Detection Chip
361
and Digital Multiprocessor Chip for
Neural-Based Vision Processing
Hiroto Okada,
Bing
J. Sheu and Chia-Fen
Chang, University of Southern California. Los
Angeles. California. USA
FAM-6.4
FAM-6.5
FAM-6.6
Modeling and Identification of
Systems
Harriet H. Kagiwada, California State
University, Fullerton, California, USA,
Masanori Sugisaka, Ohita University,
Ohita, Japan, and Sueo Ueno, Kyushu
University, Fukuoka, Japan
Sueo Ueno and S. Sagara, Kyushu
University, Fukuoka, Japan
Toward Automation in the
365
Optimization of Systems Models
Harriet H. Kagiwada, California State
University, Fullerton, California, USA and
Robert E.
Kalába,
University of Southern
California, Los Angeles, California, USA
Simulation of Atmospheric Effect on
369
the Emergent Radiation over Non-
uniform Terrain
Tsutomu Takashima and Kazuhiko Masuda,
Meteorological Research Institute, Ibaraki,
Japan
Estimation of Reflection Properties for
373
Rugged Terrain Forests from Space
Yoshiyuki Kawata and Akihiro Hatakeyama,
Information Science Laboratory, Ishikawa,
Japan and Atsuhisa Ohtani, Nippon Electric
Company, Tokyo, Japan
On Cauchy System of Searchlight
377
Problem in Turbid Slab
Sueo Ueno, Kyoto School of Computer
Science, Kyoto, Japan and Alan-P. Wang,
Arizona State University,
Tempe,
Arizona,
USA
Parameters Identification of Fluid
381
Tubes
M. Sugisaka. Oita University, Oita, Japan:
N.
Katsuraji, Oita College of Clinical Engineering,
Oita, Japan; S. Sagara, Fukuoka Institute of
Technology, Fukuoka, Japan; and R.
Fischi,
Drexel University, Philadelphia, Pennsylvania,
USA
Retrieval of Aerosol Profile Based on
385
Inversion Algorithm
Sonoyo Mukai and Itaru
Sano, Kinki
University, Osaka. Japan
FPM-1
Friday, September
18
1:40
pm-5:00 pm
Room
401
Regular
Session:
Chair:
FPM-1.
1
Flexible Manufacturing Systems
Stuart Rubin, Naval Ocean Systems
Center, San Diego, California, USA
Robot Vision System Capable of
Recognizing Machine Parts Using
Multistage Neural Networks
Kouichi
Nakano.
Industrial Research Institute
of Ishikawa. Ishikawa, Japan and Yasuo
Watanabe. Kanazawa institute of Technology-
Ishikawa, Japan
Paper not received ¡n time for
indusion
in proceedings
389
XIV
FPM-1.2 A Next Generation Expert System for
393
Flexible Assembly
Stuart H. Rubin, Naval Command, Control and
Ocean Surveillance Center, San Diego,
California, USA
FPM-1.3
A Machine Vision System Using Fast
399
Texture Analysis for Automated Visual
Inspection
T. A. Mitchell and M. Sarhadi, Brunei
University, Middlesex, United Kingdom
FPM-1.4 Development of an Image Processing
403
System for Texture Segmentation
S. King and M. Sarhadi, Brunei University,
Middlesex, United Kingdom
FPM-1.5 Job Shop Configuration with
407
Queueing Networks and Simulated
Annealing
Kiyoshi Yoneda, Isaku
Wada
and Kazuhito
Haruki, Toshiba Corporation, Kawasaki, Japan
FPM-1.6 Modeling and Dynamic Stabilization
411
for Suspension System Using Tuned
LC Circuit
Ju Jin and Toshiro Higuchi, University of
Tokyo, Tokyo, Japan
FPM-1.7 Design Technique for Contouring
*
Systems with Digital Position
Controllers Obtained via V
Transformation
Theo Kangsanant,
Royal Melbourne Institute
of Technology, Melbourne, Australia
FPM-1.8 A Compact Simulation Engine with
416
Flexible Logic Model Expansion
Naoaki Suganuma, Masahiro
Tornita
and
Kotaro Hirano,
Kobe University, Kobe, Japan
FPM-2.5 Active Vibration Control for Flexible
436
Cantilever Beam Subject to Seismic
Disturbance
Yuichi Sawada and Akira Ohsumi, Kyoto
Institute of Technology, Kyoto, Japan
FPM-2.6 Successive Approximation Procedure
440
for the Optimal Control of Bilinear
Systems
Zijad Aganovic and
Zoran Gajic,
Rutgers
University, Piscataway, New Jersey, USA
FPM-2.7 Linearization and
PID
Parameters
444
Design for Nonlinear Systems
S. Lan
and P. Y. Woo, Northern Illinois
University,
DeKalb,
Illinois, USA
FPM-2.8 CAD Package for Control System on
448
Mathematica
Takuya Kitamoto.
Masami Saeki
and Kazuaki
Ando,
Tsukuba University, Ibaraki, Japan
FPM-3
Friday, September
18
1
tfO-SrOO
pm
Room
404
Regular
Session:
Chair:
FPM-3.1
FPM-2
Friday, September
18
1:40-5
:00 pm
Room
403
Regular
Session:
Chair:
FPM-2.
1
FPM-2.2
FPM-2.3
FPM-2.4
Control Systems II
L. R.
Pujara,
Wright State University,
Dayton, Ohio, USA
Robust Flight Control Using
420
Parameterized Compensator
Chih-Min Lin, Chung-Shan Institute of Science
and Technology, Taiwan, R.O.C.: Ruey-Shih
Tai
and Lin-Ying Lai, Chung-Yuan Christian
University, Taiwan,
R.O.C.
Guaranteed Robust Control of
424
Unstable Systems by Using
Approximated Models
L.
Fortuna, A.
Gallo. G.
Muscato and G.
Nunnari,
Universita
di
Catania, Catania, Italy
A New Robust Stability Criterion for
428
Interval Time-Delay Systems
Wen-June Wang, National Central University,
Taiwan.
R.O.C.
;
Juing-Shian
Chiou, Nantai
College, Taiwan. R.O.C.: and Yn-Shyang
Jeng, National Central University, Taiwan.
R.O.C.
Robust Model Reference by Using
432
Modified High Gain Method
Hung-Ching
Lu
and
Der-
Yew Liang, Tatung
Institute of Technology. Taiwan.
R.O.C.
FPM-3.2
FPM-3.3
Communications
A Study of the Communication
452
Systems Using the Low-Altitude
Nongeostationary Satellites
Masaaki Katayama, Nagoya University,
Nagoya, Japan and Norihiko Morinaga, Osaka
University, Osaka, Japan
Wideband Indoor Radio System Using
457
Orthogonal Multicarrier Modulation
Minoru
Okada, Shinsuke
Hara
and Norihiko
Morinaga, Osaka University, Osaka, Japan
Server-Client Technology to
463
Distributed Image Database System
Based on ISDN
Changzheng Wang, Kobe University, Kobe,
Japan: Zhihong Yang, Beijing Institute of
Chemical Engineering Management, Beijing,
China; Takanori Nomura, Masahiro
Tornita
and
Kotaro
Hirano, Kobe University, Kobe,
Japan
FPM-3.4 Capacity and Properties of Slave
467
Mode Hidden Channel Coding
J. Kuusama,
Α. Μ
kivirta and M.
Junóla.
Nokia
Research Center, Tampere, Finland:
W. R.
Th. ten Kate. Phillips Research Laboratories.
Eindhoven, The Netherlands: and K.-E.
Cnristensen, Bang and Olufsen A S. Struer.
Denmark
FPM-3.5 Optimum Detection and Design of
473
TCM Signals Under Impulsive Noise
Environment
Shinichi Miyamoto. Osaka University. Osaka,
Japan, Masaaki Katayama, Nagoya
University, Nagoya, Japan and Norihiko
Mortnaga. Osaka University. Osaka. Japan
*
Paper not received in time for inclusion in proceedings.
XV
Regular
Session:
Chair:
FPM-4.1
FPM-4.2
FPM-4.3
FPM-4.4
FPM-4.5
FPM-4.6
FPM-4.7
Friday, September
18
1:40-5:00
pm
Room
405
515
Neural Networks II
John Shynk, University of California,
Santa Barbara, California, USA
Error Back-propagation Learning
479
Using Polynomial Energy Function
Maqbool Ahmad and Fathi M.
A. Salam,
Michigan State University, East Lansing,
Michigan, USA
Well-Log Analysis Using Multilayer
483
Neural Networks to Classify
Facies
Heidar A. Malki, University of Houston,
Houston, Texas, USA and Jeffrey L. Baldwin,
Petrophysics Consultant,
Katy,
Texas, USA
A Neural Network Approach to
487
Evaluate Distribution System
Reliability
Jiann-LJang Chen, Industrial Technology
Research Institute, Taiwan,
R.O.C,
and Shao-
Hung Chang. Feng-Chia University, Taichung,
Taiwan,
R.O.C.
Operation of Photovoltaic Power
491
Generation Systems by Neural
Network
Yasuharu Ohsawa, Katsutoshi Higuma, Shin-
ichi
Emura
and Kenji
Arai,
Kobe University,
Kobe, Japan
Minimizing the Energy of Active
495
Contour by Using a Hopfield Network
Ching-Tsorng Tsai and Yung-Nien Sun,
National Cheng
Kung
University, Taiwan,
R.O.C.
A Magnetic Neural Network Utilizing
499
Universal Arithmetic Modules for
Pulse-Train Signal Processing
Mamoru Miura, Masaru Goishi, Norishige
Chiba
and Jun-ichi Shida. /ware University,
Morioka, Japan
Heat Pump Emulation Using Neural
503
Networks
Alain
Carrière
and Yskandar Hamam,
Ecole
Sup ^ieure
ďlng nieurs
en Electrotechnique
et Electronique, Noisy-le-Grand,
France
FPM-5A
Friday, September
18
1:40-5
:00 pm
Room
406
Special
Session:
Organizer
and Chair:
FPM-5A.1
FPM-5A.2
Computer-Aided Imaging Techniques
W. Kenneth Jenkins, University of Illinois
Urbana,
Illinois, USA
Vision System to be R. A. R. E. or not
tobe
B.
Zavidovique and P.
Bonnin. Universite
Paris XI.
Orsay,
France
Realization of Geometric Illusions in
Human Vision with Artificial Neural
Networks
Jinhui
Chao. Chuo
University, Tokyo, Japan:
Tohru Kishigami. Kenji
Minowa
and Shigeo
Tsujii. Tokyo Institute of Technology. Tokyo.
Japan
507
511
519
FPM-5A.3
SYMPATIS
Project
J. L
Bastile,
IRIT
-
ENSEEIHT, Toulouse,
France
FPM-5A.4
Interpolatory
Estimation of Multi-
Dimensional Orthogonal Expansions
with Stochastic Coefficients
Takuro
Kida
and Somak Sa-Nguankotchakorn,
Tokyo Institute of Technology, Yokohama-shi,
Japan and Kenneth Jenkins, University of
Illinois,
Urbana,
Illinois, USA
FPM-5A.5 Computational Strategies for Synthetic
523
Aperture Imaging
W. Kenneth Jenkins,
Mita
D. Desai
and
Andrew W. Hull, University of Illinois,
Urbana,
Illinois, USA
FPM-5B
Friday, September
18
3:40-5:00
pm
Room
406
Special
Session:
Organizer
and Chair:
FPM-5B.1
FPM-5B.2
FPM-5B.3
FPM-5B.4
Target Tracking
H. Shertukde, University of Hartford,
West Hartford, Connecticut, USA
A S-Dimensional Assignment
Algorithm for Track Initiation
Somnath Deb, Krishna R. Pattipati, and
Yaakov Bar-Shalom, University of
Connecticut, Storrs, Connecticut, USA
Evolving a Multisensor Multitarget
Surveillance Processing Architecture
Martin E. Liggins II, Rome Laboratory, Griffiss
Air Force Base, New York, USA and James
Llinas,
Са
/span
Corporation, Buffalo, New
York, USA
Performance Evaluation of Track
Initiation in Dense Target
Environments
Kuo-Chu Chang, Shozo Mori and Chee-Yee
Chong, Advanced Decision
Sysfems,
Mountain View, California, USA
Multirate-PDA Tracker
Hemchandra M. Shertukde, University of
Hartford, W. Hartford, Connecticut, USA
527
531
535
539
SAM-1
Saturday,
September
19
9:30
am-12:30 pm
Room
401
Regular
Session:
Chair:
SAM-1
.1
Adaptive Filters
Tsuyoshi Takebe, Kanazawa University,
Kanazawa, Japan
Frequency-weighting Model
Identification with an Adaptive
ARMA
Lattice Filter
Miki Haseyama,
Nobuo Nagai and Nobuhiro
Miki,
Hokkaido University, Sapporo, Japan
*
Paper not received in time for inclusion in proceedings.
543
XVI
SAM-1
.2
A Hyperstable Adaptive Recursive
*
Filter Using an Adaptive Error
Compensator
E. A. Soleit, Military Technical College, Cairo,
Egypt
SAM-1
.3
A New IIR Adaptive Echo Canceler:
547
GIVE
Jinhui
Chao, Chuo
University, Tokyo, Japan;
Shinobu Kawabe, Ninon Telephone
Tele/communication, Tokyo, Japan; and
Shigeo Tsujii, Tokyo Institute of Technology.
Tokyo, Japan
SAM-1
.4
Convergence Analysis of Adaptive
552
Notch Filter Realized with
Floating-
Point
Arithmetic
Shotaro Nishimura, Shimane University,
Matsue, Japan
SAM-1
.5
A Solution to the Control-Loop Noise
*
of the Adaptive Null-Steering Antenna
Array
Mostafa A. Bahie-Eldin,
Giza,
Egypt
SAM-1
.6
Convergence Analysis of Gradient
556
Adaptive Algorithms for Arbitrary
Inputs Without Independence
Assumption
Jinhui
Chao, Chuo
University, Tokyo, Japan;
Shinobu Kawabe, Nihon Telephone
Telelcommunication, Tokyo, Japan; and
Shigeo Tsujii, Tokyo Institute of Technology,
Tokyo, Japan
SAM-2.6 Asymptotic Stability Analysis of
572
Continuous Bidirectional Associative
Memory Networks
Bing-zheng Xu and Bai-ling Zhang, South
China University of Technology, Guangzhou,
P. R. China and Chung-ping Kwong, The
Chinese University of Hong Kong, Shatin,
Hong Kong
SAM-2.7 Neural Network and Its Application on
576
Machinery Fault Diagnosis
Zhenya He,
Meng
Wu and Bi Gong, Southeast
University, Nanjing. P. R. China
SAM-2.8 Stability Investigation and Synthesis
*
of a Class of Associative Neural
Network
Huanglin
Zeng,
Jueband Yu and Guiging
Huo,
University of Electronic Science and
Technology of China, Chengdu, China
SAM-3
Saturday,
September
19
9:30
am-1
2
:30 pm
Room
404
SAM-2
Saturday,
September
19
9:30
am-12:30 pm
Room
403
Special
Session:
Organizer
and Chair:
SAM-2.1
SAM-2.2
SAM-2.3
SAM-2.4
SAM-2.5
Neural Network Theory and Its
Applications
Zhenya He, Southeast University,
Nanjing, China
Supervised Learning in Continuous
560
Feedback Neural Network
Yuhui Shi and Zhenya He, Southeast
University, Nanjing, China
On Approximation Property of Neural
*
Networks
Zhongkan Liu, Beijing University of
Aeronautics
&
Astronautics, Beijing, China
An Approach to Solving the Longest
564
Common Subsequences Based on
String-Coding Functional and Neural
Network
Dian-xun Shuai, University of Xian Electronic
Science and Technology, Xian, and Tsinghua
University, Beijing, China
A Neural Network Hardware Model for
568
Image Thinning
Liming Zhang and Zhiping Peng. Fudan
University, Shanghai, China
ANN Using in Classification of TM
*
Remote Sensing
Zheng Tan, Xian Jiao Tung University, Xian,
China
Regular
Session:
Chair:
SAM-3.1
SAM-3.2
SAM-3.3
SAM-3.4
Image Processing
Edwige Pissaloux, Université
Paris,
Orsay,
France
Detail-Preserving Edge Enhancing
580
Filters
Kaijun Tang and
Yrjö
Neuvo, Tampere
University of Technology, Tampere, Finland
Multivariate Order Statistic Filter in
584
Color Image Processing
Kaijun Tang,
Jaakko Astola
and
Yrjö
Neuvo.
Tampere University of Technology. Tampere,
Finland
A High Speed Image Processor
640
Oriented for Automated Visual
Inspection System
Tetsuo Hattori, Kagawa University.
Takamatsu, Japan; Makoto Nakada and Isamu
Kataoka. Toshiba Engineering Corporation,
Kawasaki, Japan
588
592
596
Adaptive Grayscale Morphological
Filters for Image Noise Smoothing
Qiaofei Wang and
Yrjö
Neuvo, Tampere
University of Technology, Tampere, Finland
BTC Image Coding Using
Mathematical Morphology
Qiaofei Wang and
Yrjö
Neuvo. Tampere
University of Technology. Tampere. Finland
Wavelet Transform for Corner
Detection
J. S. Lee. Y.
N.
Sun. and
C. H.
Chen, National
Cheng
Kung
University. Taiwan,
R.O.C.
Optimum Frequency Band Partition for
600
Subband Image Coding
Masashi Kameda. Kobe University. Kobe,
Japan and Kohhei Ohtake. Nagaoka
University of Technology. Nagaoka. Japan
Design and Realization of the
Distributed Controller for a Fixed
Topology MIMD Computer
Samir Bouaziz.
Edwige
E.
Pissaloux and A.
M rigot. Université
Pans XI.
Orsay.
France
Paper not recvhed in time for
indusion
in proceedings.
SAM-3.5
SAM-3.6
SAM-3.7
SAM-3.8
604
XVII
SAM-4
Saturday,
September
19
9:30
am-1
2:30
pm
Room
405
Regular
Session:
Chair:
SAM-4.1
Fuzzy Control
inverted Pendulum
Controlied
Circuit
*
Using Fuzzy State Memory
Fumio Ueno. Takahiro Inoue. Motohiro Insoue
and Kouji TasaKi. Kumamoto University.
Kumamoto. Japan and Yuji Shtrai. Yatusiro
National College of Technology, Kumamoto.
Japan
SAM-4.2 A Fuzzy-Sliding Mode Controller
608
Design
Chung-Chun
Kung
and Sinn-Cheng Lin.
Tatung Institute of Technology. Taiwan.
R.O.C.
SAM-4.3 A Novel Approach of Fuzzy Control
612
Chung-Chun
Kung
and Jen-Yang Chen,
Tatung Institute of Technology. Taiwan.
R.O.C.
SAM-4.
4
Design of a Parameterized Fuzzy
616
Processor and Its Applications
Bor-Tow Chen. National Tsmg
Hua
Universi!/.
Hsinchu. Taiwan. ROC. Yung-Sheng Cher
Yuan-Ze Institute of Technology Taiwan,
ROC. and Wen-Hsing hsu. Acaaerna
Smica. Taiwan.
ROC
SAM-5
Saturday,
September
19
9:30
am-1
2
:30 pm
Room
407
Regular
Session:
Chair:
Control Systems III
W. H. Hsu. National Tsmg
Hua
University, Hsinchu, Taiwan
SAM-5.1
Monotonicity
of the Performance
*
Criterion of Singularly Perturbed
Linear-Quadratic Control Problem
Zoran Gajic
and Abraham Bomo. Rutgers
University. Piscataway New Jersey USA
SAM-5.2 Stability Analysis for Large-Scale
620
Time-Delay Systems with Delay-
Dependence
Xe-jen
Su.
Yung
-Та
Institute of Technology
Taiwan. ROC Pm-Lm Liu
Chien
Kao
Junior
College of Technology. Taiwan. ROC ana
Wen-Jye Shyr. National Changhua (Jive S V
of Education. Taiwan. ROC
SAM-5.3 Identification of a Nonlinear System
624
Modeled by a Sparse Volterra Series
Leehter Yao. William A Sethares and Vu-Hen
Hu. University of Wisconsin Madison
Wisconsin, USA
SAM-5.4 Variable Structure Adaptive Model
*
Following Control for Large-Scale
Systems with Bounded Disturbances
Chiang-Cheng Chiang and Young-Ser
Su
Tatung Institute of Technology. ROC
SAM-5.5 Variable Structure Control of a Two-
*
Link Manipulator
Ronald A. Perez. University of Wisconsin-
Milwaukee. Milwaukee Wisconsin USA
SAM-5.6 A New and Systematic Method of
628
Modeling PWM DC-DC Converters
Danusz Czarkowski and
Manan
К
Kazimierczuk Wright State University Dayton
Ohio. USA
SAM-5.
7
Dynamic Bandwidth Allocation in
632
Communication Systems: An Optimal
Control Approach
Andreas Pitsillides Jim lapioei Niar1
Ľ
япо
Joseph
Steme
Swmbume Institute of
Technology. Hawthorn.
Australia
ťapvr
nid
rmtucl in timi·
tor inclusion in
рпкггНіїїцч.
XVII
Author Index
Aganovic, Zijad
......................................
FPM-2.6
Ahmad, Maqbool
....................................
FPM-4.1
Alberts, Thomas
E
...................................
FAM-1
.1
Aldeen,
M
.................................
FAM-1
.3,
FAM-1
.8
Alessandri,
A
......................................
THPM-2.7
Al-Saddiki,
Ghassan
...............................
THPM-3.5
Ando,
Kazuaki
...........................
THPM-3.3, FPM-2.8
Arai,
Kenji
...........................................
FPM-4.4
Arce, Gonzalo
R
...................................
ТНРМ-1
.4
Arimitsu, Yutaka
....................................
THEV-5.3
Asano,
Mutsuyoshi
.................................
THEV-1
.8
Astola,
Jaakko
......................................
SAM-3.2
В
Bahie-Eldin, Mostafa A
..............................
SAM-1
.5
Baldwin, Jeffrey
L
....................................
FPM-4.2
Bamani,
Α. Η
........................................
FAM-1
.5
Bar-Shalom, Yaakov
..............................
FPM-5B.1
Bartoiini.
G
........................................
ТНРМ-3.2
Bastile,
J. L
........................................
FPM-5A.3
Benromdhane, Saida ................................FAM-5.4
Bershad, Neil
J
......................................FAM-5.3
Bleuler, Hannes .....................................FAM-1.4
Bonnin,
P
.......................................... FPM-5A.1
Borno,
Abraham .....................................SAM-5.1
Bouaziz. Samir ......................................SAM-3.8
Budišin,
Srdjan ....................................THPM-5.2
D
Deb,
Somnath..................................... FPM-5B.1
Defee,
I
............................................THPM-1.6
Desai,
Mita
D
...................................... FPM-5A.5
E
Elsimary, Hamed ..................................THPM-2 5
Emura, Shìn-ichì
.....................................FPM-4.4
Estola,
Kari-Pekka...................................FAM-4.1
F
Fan, Tsai-Hung......................................
FAM-3.1
Farison. James
В
...................................THEV-4,7
Ferrara,
А
.........................................
ТНРМ-3
2
Fischi. R
.............................................
FAM-6
5
Fortuna,
L
...........................................
FPM-2
2
Fuchi,
К
....................................
Plenary Session I
Furushima, Shusaku
...............................
THEV-5
7
G
Gajic,
Zoran .......................
FAM-1. FPM-2.6. SAM-5.1
Gallo. A
.............................................
FPM-2.
2
Goishi, Masaru
......................................
FPM-4.6
Gong. Bi
............................................
SAM-2.7
Grundström. Mika .................................
THPM-1
.5
Gupta.
M. M
..............................
THEV-2. THEV-2
3
Carrière,
Alain
.......................................
FPM-4.7
Chang, Chia-Fen
....................................
FAM-5.5
Chang. Kuo-Chu
..................................
FPM-5B.3
Chang. Shao-Hung
..................................
FPM-4.3
Chao.
Jinhui
........
THPM-2.
1.
РРМ-бА.г.
SAM-
1.3.
SAM-1
.6
Chen. Bor-Tow
......................................
SAM-4.4
Chen. C.H
...........................................
SAM-3.6
Chen, Jen-Yang
.....................................
SAM-4.3
Chen. Jiann-Uang
...................................
FPM-4.3
Chen. Qin
..........................................
THEV-1
3
Chen, Shoupu
.....................................
THPM-1
.4
Chen. Yung-Sheng
................................
SAM-4.4
Chiang, Chiang-Cheng
..........................
SAM-5.4
Chiba.
Norishige
... ................
FPM-4
6
Chiou,
Jumg-Shian
...............
FPM-2.
3
Chong. Chee-Yee FPM-5B
3
Chow,
T
W
S
ТНРМ-3
4
Christensen.
К
-E
..........
FPM-3.
4
Crusca.
F
.
FAM-1
3
Czarkowski Dariusz SAM
5 6
Hamám. Yskandar
.....
Hansler. Eberhard ......
Hara. Shinsuke
........
Haraguti.
N
.........
Haruki. Kazuhito
......
Haseyama. Miki
.......
Hashimoto. Takeshi
Hatakeyama.
Akìhiro
..
Hatakeyama. Kazutatsu
Hattori. Tetsuo
He. Zhenya
..... .
Herzog.
Raoul .....
Higuchi. Tatsuo
Higuchi, Toshiro
Higuma. Katsutoshi
Hinamoto. Takao
Hirano.
Kotaro
Honma. Hideki
Hori. Osamu
Horio, Yoshihiko
Hou. Jiansheng
H
.......................
FPM-4
7
.............
THEV-3
........................
FPM-3
2
.....................
THPM-2
6
...................
FPM-1
.5
........................
SAM-1
1
THPM-5
3
................
FAM-6
3
............
THPM-4
3
FAM-3
4
.......
SAM-3
3
SAM-2. SAM-2
1,
SAM-2.7
FAM-1
4
FAM-4
5
FPM-1
6
FPM-4
4
THEV-4
1
THEV-4
3
Plenary Session I FPM-1
8
FPM-3
З
THE V
4 8
THEV-5
2
FAM-4
4
THPM-2
З
XIX
Hsu, Wen-Hsing
.............................
SAM-5, SAM-4.4
Hu, Yu Hen
.........................................
SAM-5.3
Huang, Su-Shun
..................................
THPM-2.4
Hull, Andrew
W
....................................
FPM-5A.5
Huo,
Guiging ........................................
SAM-2.8
I
Imamura,
Ken ......................................
THEV-1.8
Inage, Toshihiro
.....................................
FAM-2.3
Inoue, Masahiro
....................................
THEV-5.5
Inoue, Takahiro
.........................
THPM-2.6, SAM-4.1
Inoue, Takeshi
............................
FAM-2.1
,
FAM-2.2
Insoue, Motohiro
....................................
SAM-4.1
Ishigame, Atsushi
..................................
THEV-2.6
Itamiya,
К
.........................................
THPM-3.3
J
Jeng, Bor-Shenn
..................................
THPM-2.4
Jeng, Yn-Shyang
....................................
FPM-2.3
Jenkins, W. Kenneth
.........
FPM-5A, FPM-5A.4,
FPM-5A.5
Jin, Ju
...............................................
FPM-1
.6
Juhola, M
............................................
FPIVI-3.4
К
Kabe,
M
...........................................
THPM-4.1
Kadowaki, Yukio
....................................
FAM-4.4
Kaelin, A
...........................................
THEV-3.2
Kagiwada, Harriet
H
.................................
FAM-6.1
Kalába,
Robert
Є
....................................
FAM-6.1
Kameda, Masashi
...................................
SAM-3.7
Kammer,
Daniel
С
...................................
FAM-3.6
Kan, Toshihiko
......................................
FAM-2.4
Kanai, Satoshi
......................................
THEV-5.7
Kanda,
Hiroshi
......................................
FAM-2.4
Kangsanant,
Theo...................................
FPM-1
.7
Katakura, Kageyoshi
................................
FAM-2.4
Kataoka, Isamu
.....................................
SAM-3.3
Katayama. Masaaki
.......................
РРМ-З.І,
FPM-3.5
Katayama, Tohru
....................................
FAM-1
.2
Katsuraji,
N..........................................
FAM-6.5
Kawabe, Shinobu
.........................
SAM-1
.3,
SAM-1
.6
Kawahashi, Akiyoshi
................................
FAM-4.4
Kawakami, Atsushi
.................................
THEV-4.4
Kawamata, Masayuki
........................
FAM-4, FAM-4.5
Kawamoto, Shunji
..................................
THEV-2.6
Kawamura, Hiroshi
.................................
THEV-2.5
Kawanishi, Koichi
...................................
FAM-2.3
Kawata, Yoshiyuki
...................................
FAM-6.3
Kazimierczuk, Marian
К
..............................
SAM-5.6
Khare, Anil
................................
FAM-4.3, FAM-4.6
Kida,
Takuro
...............
THEV-4.2, THEV-4.6, FPM-5A.4,
Kim, Changhun
.....................................
THEV-5.5
Kim, Seong
.........................................
FAM-1
.7
King,
S
..............................................
FPM-1
.4
Kishigarni, Tohru
..................................
FPM-5A.2
Kitajima, Katsuhiro
.................................
THEV-5.1
Kitamoto, Takuya
....................................
FPM-2.8
Kitamura,
S
..........................................
THPM-4
Koezuka, Takashi
..................................
THEV-5.8
Kohno, Ryuji
......................................
THPM-5.5
Koski,
E
...........................................
ТНРМ-1.3
Kuh, Anthony................................FAM-5, FAM-5.1
Kumashiro,
M
......................................THPM-4.6
Kung,
Chung-Chun
........................SAM-4.2, SAM-4.3
Kurokawa, Fujio ....................................THEV-1.8
Kurokawa,
К
...............................
Plenary
Session
II
Kuusama,
J
..........................................FPM-3.4
Kwong, Chung-ping .................................SAM-2.6
L
Lai, Lin-Ying
.........................................FPM-2.1
Lambert, Jim ........................................SAM-5.7
Lan, S
...............................................FPM-2.7
Lee,
J. S
............................................SAM-3.6
Lee, Seoung
Soo
...................................THEV-5.4
Lee, Yong
Hoon
...................................THPM-1.1
Leung,
T.P........................................THPM-2.2
Li,
Nian
.............................................SAM-5.7
Liang, Der-Yew
......................................FPM-2.4
Liggins
II,
Martin
E
.................................
FPM-5B.2
Lin, Chih-Min
........................................FPM-2.1
Lin, Sinn-Cheng
.....................................SAM-4.2
Liu,
Pin-Lin
..........................................SAM-5.2
Liu,
Qin ...........................................
ТНРМ-1
.5
Liu,
Ron-Yi ........................................
THPM-2.4
Liu, Zhongkan
.......................................
SAM-2.2
Llinas, James
.....................................
FPM-5B.2
Lou, Kang-Ning
.....................................
FAM-3.1
Lu, Hung-Ching
.....................................
FPM-2.4
Luh, J.
Y. S
.........................................
THEV-1.3
M
Maeda, Yutaka
......................................
FAM-3.2
Maekawa, S
........................................
THEV-4.3
Mäkivirta,
A
..............................
THPM-1
.3,
FPM-3.4
Malki, Heidar A
......................................
FPM-4.2
Mashally,
Samia
...................................
THPM-2.5
Masuda, Kazuhiko
...................................
FAM-6.2
Masugata, Hisashi
...................................
FAM-2.4
Matsumoto, M
.....................................
THPM-4.1
Matsuo, Hirofumi
...................................
THEV-1.8
Matsuo, Hirohide
................
FAM-2.1
,
FAM-2.3, FAM-2.4
Matsuo,
Takarni
........................
THPM-4.6, THPM-4.7
Mèrigot, A
...........................................
SAM-3.8
Miki, Nobuhiro
.......................................
SAM-1
.1
Minamide, Nariyasu
...............................
THPM-3.1
Minowa,
Kenji
..........................
THPM-2.1
,
FPM-5A.2
Mitchell,
T. A
........................................
FPM-1
-3
Miura,
Jun
..........................................
THEV-1.1
Miura, Mamoru
......................................
FPM-4.6
Miyamoto, Shinichi
..................................
FPM 3·5
XX
Mochizuki, Hiroshi
..................................
THEV-4.6
Monden,
Yoshimi
....................................
FAM-1
.6
Moore, John
В
.....................................
THPM-3.7
Mori, Shozo
.......................................
FPM-5B.3
Morinaga, Norihiko
..............
FPM-3.1, FPM-3.2,
FPM-3.5
Morita, Hisaki
.......................................
FAM-2.4
Moschytz,
G. S
.....................................
THEV-3.2
Mukai, Sonoyo
......................................
FAM-6.6
Muneyasu, Mitsuji
..................................
THEV^.I
Muscato,
G
..........................................
FPM-2.2
N
Nagai, Nobuo
.......................................
SAM-1
.1
Nagamatsu, Masayasu
..............................
FAM-1
.6
Nagatsuka, Kazuyuki
......................
FAM-2.1
,
FAM-2.3
Nakada, Makoto
.....................................
SAM-3.3
Nakajima, Shigeru
...................................
FAM-2.4
Nakajo,
H
...........................................
THEV-4.3
Nakamori, Seiichi
....................................
FAM-3.5
Nakamura, Shogo
...................................
FAM-4.4
Nakamura,
Τ
........................................
FAM-2.5
Nakamura, Takeshi
.................................
THEV-5.8
Nakano,
Kouichi
.....................................
FPM-1.1
Nakano,
Takayuki
..................................
THEV-3.1
Nakaoka, Mutsuo
....................................
FAM-2.2
Neuvo,
Yrjö
......
THPM-1, THPM-1.5, THPM-1.
6,
THEV-4.5,
ЅАМ-ЗИ,
SAM-3.2, SAM-3.4, SAM-3.5
Nishihara, Seiichi
...................................
THEV-5.5
Nishimura, Shotaro
..........................
FAM-3, SAM-1.
4
Nishimura, Toshi Hiro
..
FAM-2, FAM-2.1, FAM-2.2, FAM-2.3,
FAM-2.4, FAM-2.5
Nishitani, Takao
....................................
THEV-4.8
Nitta, Yoshimi
.......................................
FAM-2.3
Nomura, Takanori
...................................
FPM-3.3
Novotný,
J
..........................................
ТНЕУ-З^
Nunnari,
G
...........................................
FPM-2.2
О
Occello,
Michel
.....................................
TH
EV-
1.7
Odanaka,
Tosió
...................................
ТНРМ-4.2
Ohsawa, Yasuharu
..................................
FPM-4.4
Ohsumi, Akira
.......................................
FPM-2.5
Ohta, Katsuhiko
....................................
THEV-1.8
Ohta, Mitsuo
............................
THPM-4.3, FAM-3.4
Ohta, Mutsumi
.....................................
THEV-4.8
Ohtake, Kohhei
......................................
SAM-3.7
Ohtani, Atsuhisa
.....................................
FAM
6.3
Öistämö, Kai ......................................
THPM-1
.5
Okada, Hiroto
.......................................
FAM-5.5
Okada,
Minoru
......................................
FPM-3.2
Oliveira, Eugênio
...................................
THEV-1
.4
Ono, Toshiro
.......................................
THEV-5.4
P
Palaniswami,
M
.....................................
THEV-1
.2
Parisini,
T
.........................................
ТНРМ-2.7
Pattipaii, Krishna
R
................................
FPM-5B.1
Pei, Hai-Long
.....................................
THPM-2.2
Peng, Zhiping
.......................................
SAM-2.4
Perez, Ronald A
.....................................
SAM-5.5
Pissaloux,
Edwige
E
.........................
SAM-3, SAM-3.8
Pitsillides, Andreas
..................................
SAM-5.7
Pota,
Hemanshu
R
..................................
FAM-1
.1
Pujara,
L. R
.................................
FAM-1
.7,
FPM-2
R
Ramos, Carlos
.....................................
THEV-1
.4
Rubin, Stuart
................................
FPM-1
,
FPM-1
.2
S
Sa-Nguankotchakom,
Somsak
.....................
FPM-5A.4
Saeki,
Masami
......................................
FPM-2.8
Sagara,
S
...................................
FAM-6, FAM-6.5
Saito,
Masao
..............................
FAM-2.1
,
FAM-2.2
Sakamoto, Seiichi
...................................
FAM-2.3
Sakamoto, Tsugaya
.................................
FAM-2.5
Sakata,
Shojiro
...........................
THPM-5,
THPM-5.1
Salam,
Fathi M. A.
..
.THPM-2, THPM-2.3, FAM-5.4, FPM-4.1
Saleh, Saleh A
....................................
THPM-3.6
Sanguineti,
M
......................................
THPM-2.7
Sano, Itaru
..........................................
FAM-6.6
Sarhadi,
M
.................................
FPM-1
.3,
FPM-1
.4
Sasaki,
M
..........................................
THPM-2.
6
Sawada, Yuichi
......................................
FPM-2.5
Schott,
W
...........................................
THEV-3.5
Senda,
Shoichi
..........
FAM-2, FAM-2.1
,
FAM-2.3, FAM-2.4
Senda,
Toyomitsu
..................................
THEV-5.3
Sethares, William A
........................
FAM-3.6,
SAM-5.3
Shahine, Sarnir
....................................
THPM-2.5
Shenoi, B. A
................................
Plenary Session I
Shertukde, Hemchandra
M
...............
FPM-5B, FPM-5B.4
Sheu,
Bing
J
.........................................
FAM-5.5
Shi, Yuhui
...........................................
SAM-2.1
Shida, Jun-ichi
......................................
FPM-4.6
Shiina,
T
.............................................
FAM-2.5
Shimamura, Tetsuya
................................
FAM-3.3
Shimotsuji, Shigeyoshi
.............................
THEV-5.2
Shin,
S
............................................
THPM-3.3
Shin, Youngin Oh
..................................
THEV-4.7
Shirai, Yoshiaki
.....................................
THEV-1
.1
Shirai, Yuji
..........................................
SAM-4.1
Shuai, Dian-xun
.....................................
SAM-2.3
Shynk, John
J
...............................
FAM-5.3, FPM-4
Shyr, Wen-Jye
......................................
SAM-5.2
Sicuranza, Giovanni
L
....................
THPM-1
.2,
THEV-4
Soininen,
R
........................................
THPM-1
.6
Solert, E. A
..........................................
SAM-1
.2
Song, Jongkwan
..................................
THPM-1.
1
Song, Xudong
......................................
THEV-4.5
Steiner,
Joseph
.....................................
SAM-5.7
Stubberud, A
........................................
FAM-5.2
Su, Te-Jen
..........................................
SAM-5.2
XXI
Su,
Young-Sen
......................................
SAM-5.4
Suehiro, Naoki
....................................
ТНРМ-5.6
Suekane, Hiromi
....................................
FAM-2.3
Suganuma, Naoaki
..................................
FPM-1
.8
Sugimoto,
S
.......................................
THPM-4.1
Sugisaka, Masanori
..........
THPM-4.6, THPM-4.7, FAM-6.5
Sun, Yung Nien
...........................
FPM^.ö, SAM-3.6
Suzuki,
Jouji
........................................
FAM-3.3
Τ
Tai, Ruey-Shih
......................................
FPM-2.1
Takaba, Kiyotsugu
..................................
FAM-1.2
Takagi, Tomohiro
...................................
THEV-2.4
Takagi,
Toru
........................................
FAM-2.3
Takahashi, Hidetomo
...............................
THEV-5.7
Takamoto,
Τ
.........................................
FAM-2.5
Takashima, Tsutomo
................................
FAM-6.2
Takebe, Tsuyoshi
.........................
SAM-1
,
THEV-3.1
Tan, Zheng
..........................................
SAM-2.5
Tanaka, Shogo
....................................
THPM-4.5
Tang,
Kaijun
..............................
SAM-3.1
,
SAM-3.2
Tani,
Akinori
........................................
THEV-2.5
Tanigawa,
Satohide
................................
THEV-5.2
Taniguchi, Tsuneo
..................................
THEV-2.6
Tasaka,
Moriyasu
..................................
THEV-5.1
Tasaki,
Kouji
........................................
SAM-4.1
ten Kate,
W.R.Th
....................................
FPM-3.4
Terashita,
Y
.......................................
ТНРМ-4.4
Thomas,
Marie-Claude
.............................
THEV-1.
7
Tian,
Mu
..........................................
THPM-I^
Tömbre,
Karl
.......................................
THEV-5.6
Tomita, Masahiro..........................
FPM-3.3, FPM-1
.8
Tomiyama, Ken
.......
THEV-5,
THEV-5.8,
Plenary Session
II
Trinh,
H
.............................................
FAM-1.8
Truninger.
Rolf .....................................
THEV-1
.5
Tsai, Ching Tsorng
..................................
FPM-4.5
Tsai, Yuang-Chang
................................
THPM-2.4
Tsuchida, Nobuki
...................................
THEV-5.5
Tsujii, Shigeo
.......
THPM-2.1
, FPM-5A.2.
SAM-1
.3,
SAM-1.
6
Tsujio, Showzow
...................................
THEV-5.4
U
Uchino, Eiji
..........................................
FAM-3.4
Ueno, Fumio
............................
THPM-2.6, SAM-4.1
Ueno, Sueo
.........................................
FAM-6.4
V
Vaxivière.
Pascal
...................................
TI-IEV-5.6
Vinck.
Han
........................................
THPM-S^
Vischer,
Dieter .....................................
THEV-1
.6
W
Wabgaonkar,
H
......................................
FAM-5.2
Wada,
Isaku.........................................
FPM-1
.5
Wang, Alan-P
.......................................
FAM-6.4
Wang, Changzheng
.................................
FPM-3.3
Wang,
Qiaofei
..................,..........
SAM-3.4, SAM-3.5
Wang, Wen-June
....................................
FPM-2.3
Wang, Yan
................................
FAM-4.2, FAM-4.3
Watanabe, Yasuo
...................................
FPM-1.
1
Watanbe, Yoshio
....................................
FAM-4.3
Woo, Peng-Yung
........................
ТНРМ-3.6,
FPM-2.7
Wu,
Meng ...........................................
SAM-2.7
Wu, Quen-Zong
...................................
THPM-2.4
Xu, Bing-zheng
......................................
SAM-2.6
Y
Yam,
Y. F
.........................................
THPM-3.4
Yamaguchi,
Toru
...................................
THEV-2.4
Yamakawa, Takeshi
......................
THEV-2, THEV-2.2
Yamamoto, Sozo
...................................
THEV-2.4
Yan, Weiyong
.....................................
THPM-3.7
Yang,
Xuedong
......................................
FAM-4.5
Yang, Zhihong ......................................
FPM-3.3
Yao, Leehter
..............................
FAM-3.6, SAM-5.3
Yokoi, Hironobu
.....................................
FAM-2.3
Yoneda, Kiyoshi
.....................................
FPM-1
.5
Yoshida, Makoto
...................................
THEV-5.1
Yoshikawa, K
.......................................
THEV-4.3
Yoshikawa, Toshinori
............
FAM-4.2, FAM-4.3, FAM-4.7
Yu, Juebang
........................................
SAM-2.8
Yura, Takafumi
......................................
FAM-2.4
Z
Zadeh,
Lotti
A
...................
Plenary Session I, THEV-2.1
Zalnieriunas, Alejandro
.............................
THEV-3.3
Zavidovique, B
.....................................
FPM-5A.1
Zeng, Huanglin
......................................
SAM-2.8
Zhang, Bai-ling
......................................
SAM-2.6
Zhang, Liming
.......................................
ЅАМ-г^
Zhihong,
Man
......................................
THEV-1
.2
Zhou,
Qi-Jie
.......................................
ТНРМ-2.2
Zoppoli,
R
.........................................
THPM-2.
XXII
|
| any_adam_object | 1 |
| author_corporate | International Conference on Systems Engineering Kōbe |
| author_corporate_role | aut |
| author_facet | International Conference on Systems Engineering Kōbe |
| author_sort | International Conference on Systems Engineering Kōbe |
| building | Verbundindex |
| bvnumber | BV009539463 |
| classification_tum | MSR 550f |
| ctrlnum | (OCoLC)633420531 (DE-599)BVBBV009539463 |
| discipline | Mess-/Steuerungs-/Regelungs-/Automatisierungstechnik / Mechatronik |
| format | Conference Proceeding Book |
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| genre | (DE-588)1071861417 Konferenzschrift 1992 Kobe gnd-content |
| genre_facet | Konferenzschrift 1992 Kobe |
| id | DE-604.BV009539463 |
| illustrated | Illustrated |
| indexdate | 2024-12-23T13:19:57Z |
| institution | BVB |
| institution_GND | (DE-588)5076800-1 |
| isbn | 0780307348 0780307356 0780307364 |
| language | Undetermined |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-006300368 |
| oclc_num | 633420531 |
| open_access_boolean | |
| owner | DE-91 DE-BY-TUM DE-83 |
| owner_facet | DE-91 DE-BY-TUM DE-83 |
| physical | XXII, 643 S. Ill., graph. Darst. |
| publishDate | 1992 |
| publishDateSearch | 1992 |
| publishDateSort | 1992 |
| publisher | Internat. Conference Center |
| record_format | marc |
| spellingShingle | IEEE International Conference on Systems Engineering September 17 - 19, 1992 Systemtechnik (DE-588)4140901-2 gnd |
| subject_GND | (DE-588)4140901-2 (DE-588)1071861417 |
| title | IEEE International Conference on Systems Engineering September 17 - 19, 1992 |
| title_alt | Proceedings of the IEEE International Conference on Systems Engineering |
| title_auth | IEEE International Conference on Systems Engineering September 17 - 19, 1992 |
| title_exact_search | IEEE International Conference on Systems Engineering September 17 - 19, 1992 |
| title_full | IEEE International Conference on Systems Engineering September 17 - 19, 1992 |
| title_fullStr | IEEE International Conference on Systems Engineering September 17 - 19, 1992 |
| title_full_unstemmed | IEEE International Conference on Systems Engineering September 17 - 19, 1992 |
| title_short | IEEE International Conference on Systems Engineering |
| title_sort | ieee international conference on systems engineering september 17 19 1992 |
| title_sub | September 17 - 19, 1992 |
| topic | Systemtechnik (DE-588)4140901-2 gnd |
| topic_facet | Systemtechnik Konferenzschrift 1992 Kobe |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=006300368&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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