Sensorless DSP Control of a Trapezoidal Brushless DC
Motor (St. 100) 4.557
S. Grainger, M. Allan, T. Westwood, R. Champaneri,
Glasgow Caledonian University, United Kingdom
Sensorless Control of a Switched Reluctance Motor Using `
a Kalman Filter (ST. 101) 4.561
A. Brösse, G. Henneberger, Institut of Electrical Machines,
Germany
Kalman-Filter Based Sensorless Control of an IPM Motor
Drive (St. 102) 4.567
Razvan C. Panaitescu, Transilvania University of Brasov,
Romania, Lars Norum, Norwegian University of Technology,
Norway
Present and future of drives sensorless and artificial
intelligence applications (St. 103) 4.573
P. Vas, University of Aberdeen, W. Drury, Control
Techniques plc, United Kingdom
Direct torque control: application to crane drives (St. 104) 4.579
R. Belmans, KULeuven, F. Busschots, ASEA Brown Boveri
Belgium, B. Renier, KULeuven, Belgium
Session D5m: Estimation and parameters analysis
Session Chairman:
W. Wymeersch, Sidmar, Belgium
Robust Kalman Filtering in Direct Torque Control (St. 105) 4.585
Ian R. Petersen, Duco W.J. Pulle, Australian Defence
Force Academy, Australia
Parameters Estimations from Step Excitation Tests on
a Stationary Induction Motor (St. 106) 4.591
K.R. Thompson, P.P. Acarnley, University of Newcastle,
United Kingdom
Modern experimental tools for parameter identification
and field-oriented control design of a small power induction
machine (St. 107) 4.597
C. Millet, D. Leroux, Y. Li, B. Feuvrie,
C. Bergmann, IUT de Nantes, France
A Digital Parameter Identification for a Vector Controlled
Induction Motor (St. 108) 4.603
Marco Tursini, University of L’Aquila, Italy, M. Tsuji,
Nagasaki University, E. Yamada, Nagasaki University, Japan,
F. Parasiliti, University of l’Aquila, Italy
On Line Parameter Estimation of the Induction Machine
Model using Active and Reactive Power Balance for Spatial
Vectors of Field Oriented Drives (St. 109) 4.609
J M A Castro, A Bueno Montilla, Universidad Simon Bolivar,
Venezuela
Identification of rotor parameters and speed estimation in
induction motor drives (St. 110) 4.615
Ignazio Marongiu, Università di Cagliari,
Ciro Attaianese, Università di Cassino,
Alfonso Damiano, Università di Cagliari,
Aldo Perfetto, Università di Napoli, Italy
Experimental Identification of Asynchronous Machine 4.620
P. Ph. Robet, M. Gautier, C. Bergmann, B. Feuvrie,
C. Millet, IUT de Nantes, France (St. 111)
A microprocessor-based speed regulator using state and
disturbance observer (St. 112) 4.626
Maciej Tondos, University of Mining & Metallurgy,
Wojciech Mysinski, Technical University of Cracow, Poland
Automatic Input/Output Modeling of a Squirrel-Cage
Induction Motor Drive System Using Neural Network 4.632
J. F. Martins, A. J. Pires, Instituto Politécnico de Setubal,
J. A. Dente, Instituto Superior Técnico, Portugal (St. 113)
Session D7a: Drives, control of drives
Session Chairman:
Prof. G. Maggetto, VUB, Belgium
A multi-motor drive-system for ecomobils (St. 114) 4.638
K. Hofer, Technical College and University of Bielefeld,
Germany
Controls of a brushless motor integrated in the
wheelhub for an electrical bike (St. 115) 4.643
Mohamed Karmous, D. Vaucher, Ecole d’Ingénieurs du
canton de Neuchâtel, C. Espanet, J.M. Kauffmann,
Institut de Génie Energétique, Switzerland
Vector control of dual rotor induction motors (St. 116) 4.648
Joong-Ho Song, Ick Choy, Kim Kwang-Bae, Korea Institute
of Science & Technology, Korea
Test and measurement of electric vehicle drives (St. 117) 4.653
Bernhard Hauck, University of Kaiserslautern, Germany
Torque control on electric vehicles with seperate wheel 4.659
B. Arnet, M. Jufer, Swiss Federal Institute of Technology,
Switzerland (St. 118)
Induction motor neural estimator in high efficient (St. 119) 4.665
J. Jelonkiewicz, University of Czestochowa, S. Linnman,
Permobil AB, Poland
Utilization of ultracapacitors as an auxilliary power source
in electric vehicles (St. 120) 4.670
Stephan Astier, P. Mestre, ENSEEIHT, France
More sophisticated battery drive wheels and wheels mutial
motion control system for electric vehicle application 4.674
Dmitry B. Izosimov, Russian Academy of Science,
Yuri P. Bogachev, Mechatronics Industrial Group,
Evgeny B. Kulakov, Alternative Energetics,
Vladimirl Sagalovsky, Aeroelectric,
Anatoly A. Eidinov, NAMI, Russia (St. 121)
Session D7b: Battery charger, battery management, test bench
Session Chairman:
Prof. D. Naunin, T. U. Berlin, Germany
Battery management system with a two wire bus:
realization and practical experiences (St. 122) 4.679
Hans Kahlen, Berhnard Hauck, University of Kaiserslautern,
Germany
Battery testing with a current controlled high load resistor 4.684
Hans Kahlen, University of Kaiserslautern, Germany (St. 123)
Efficiency of Off-Board High Power Electric Vehicle Battery
Charger with Active Power Line Conditioning Capabilities 4.688
Per Karlsson, Martin Bojrup, Mats Alaküla, Lars Gertmar,
Lund Institute of Technology, Sweden (St. 124)
Contactless power transmission: frequency tuning by a
maximum power tracking method (St. 125) 4.693
P. Germano, M. Jufer, Swiss Federal Institute of Technology,
Switzerland
An original state of charge gauge for Nickel-Cadmium
traction batteries associating a coulometric
measurement with impedancemetry (St. 126) 4.698
S. Nugues, E. Rullière, E. Toutain, Laboratoire
d’Electrotechnique de Grenoble, France
Charge Equalization Using a Non-Dissipative Current Diverter
with a Centralized Multi-Winding Transformer (St. 127) 4.702
Nasser H. Kutkut, Soft Switching Technologies Corp., USA
Three-phase ZVT inverter with inductor feedback (St. 128) 4.708
Dimos Katsis, Scott Frame, Dong Ho Lee, Dusan Boroyevich,
Fred C. Lee, Virginia Polytechnic Institute and State University,
USA
Development of a Brushless DC Drive for Electric Vehicles 4.712
P. Van Tichelen, P. Coenen, F. Vermeulen, VITO,
D. Blight, Nelco Systems Ltd, Belgium (St. 129)
Session D7c: Hybrid vehicles, simulation
Session Chairman:
Prof. G. Ollson, IEA, Lund, Sweden
A 40 kW Switched Reluctance Engine Starter/Generator
System For An Electric Hybrid Vehicle (St. 130) 4.717
Mats Alaküla, Lars Sjöberg, Lund Institute of Technology,
Sweden
Integrated energy transducer drive for hybrid electric
vehicles (St. 131) 4.721
Thomas Bäckström, Stefan Östlund, Chandur Sadarangani,
The Royal Institute of Technology, Sweden
Comparison of Electromechanical Transducers for an
Autonomous Hybrid Vehicle (St. 132) 4.727
Bernhard Kraßer, H-W Lorenzen, Technical University of Munich,
Germany
Combi-road: an unmanned hybrid vehicle on an
intelligent track (St. 133) 4.733
A. Duym, Holec Machines en Apparaten B.V.,
A.W. Benschop, TNO-Institute for Applied Physics,
The Netherlands
A Hybrid City Bus using an Electro-Mechanical
Accumulator for Power Demand Smoothing (St. 134) 4.739
H. Huisman, E.J.F.M. Smits, F.J.M. Thoolen,
Ontwikkelingsmaatschappij CCM B.V., The Netherlands
Design and implementation of a power controller for
a series hybrid vehicle drive (St. 135) 4.745
L. Pelkmans, P. Coenen, F. Vermeulen, VITO, Belgium
Development of a Drive Train for a Hybrid Delivery Van 4.750
F. Vermeulen, VITO,
J. De Temmerman, Inverto,
L. Gijsels, Van Hool,
R. Belmans, Katholieke Universiteit Leuven,
A. Van den Bossche, Universiteit Gent,
G. Maggetto, Vrije Universiteit Brussel, Belgium (St. 136)
AC Motors’ Measurements Based Static Models for
Electric Vehicles Simulation Programs (St. 137) 4.755
K.B. Beya, J. Van Mierlo, G. Maggetto, Vrije Universiteit Brussel,
Belgium
How to compare and evaluate Electric and Thermal
Vehicles? (St. 138) 4.760
J. Van Mierlo, G. Maggetto, Vrije Universiteit Brussel, Belgium
Session D8c: Harmonics and active filters - analysis and design
Session Chairman:
Prof. J. D. van Wyk, R. A. U., South Africa
Power source with programmable harmonic contents 4.763
J. Balcells, D. Gonzalez, M. Lamich, Universitat Politècnica de
Catalunya, Spain (St. 139)
An Evaluation of Techniques for Determining Active
Filter Compensating Currents in Unbalanced Systems 4.767
Simon D. Round, D.M.E. Ingram, University of Canterbury,
New Zealand (St. 140)
Static converter design for high frequency signal injection
in an electromagnetic device connected to the network 4.773
Bertrand Cassoret, Jean-François Brudny, Daniel Roger,
Université d'Artois, France (St. 141)
Analysis and design of a novel active power filter (St. 142) 4.779
Ching-Tsai Pan, National Tsing Hua University,
Maoh-Chin Jiang, National I-Lan Institute of Agriculture
and Technology, Taiwan R.O.C.
Feedforward Voltage Compensation for Digital Active Filter
using Frequency Domain Decomposition (St. 143) 4.786
Kenji Kubo, Keijiro Sakai, Hitachi Ltd,Japan
Harmonic Elimination in a PWM Inverter using Genetic
Algorithms (St. 144) 4.792
Pascal Maussion, Laurent Magne, Institut National
Polytechnique de Toulouse, France
The generalized optimization criterion for filters (St. 145) 4.798
Leszek Frackowiak, Roman Muszynski, Poznan University
of Technology, Ryszard Strzelecki, Zielona Gora University
of Technology, Poland
Analysis of active power filters in frequency domain using
the fast fourier transform (St. 146) 4.804
V. Soares, Instituto Superior de Engenharia de Lisboa,
P. Verdelho, Instituto Superior Técnico, V. Soares, Instituto
Superior de Engenharia de Lisboa, Portugal
An adaptive hopfield neural network for frequency and
harmonic determination (St. 147) 4.810
L. L. Lai, City University London, United Kingdom,
W. L. Chan, Hong Kong Polytechnic University,
A. T. P. So, City University of Hong Kong, Hong Kong
Session D8d: Harmonics and active filters - control
Session Chairman:
Prof. W. Koczara, Warsaw University of Technology, Poland
A New Synchronization Method of a Parallel Active
Power Filter (St. 148) 4.815
David Nedeljkovic, Vanja Ambrozic, Janko Nastran,
University of Ljubljana, Slovenia
Simplified Control Method for Shunt Active Harmonics
Filter (St. 149) 4.819
Yanzhen Liu, Peter J Unsworth, University of Sussex,
United Kingdom
Searching for the better topology and control strategy
in hybrid power filters (St. 150) 4.825
Angel A. Bayod Rujula, Jesus Sallan Arasanz,
Mariano Sanz Badia, Andrés Llombart Estopiñan,
Universidad de Zaragoza, Spain
PWM rectifier and active filter with sliding-mode control 4.831
Stanislaw Pirog, University of Mining & Metallurgy, Poland (St. 151)
A Shunt active filter with a sliding mode control circuit 4.837
Kamel Sahnouni, CREEBEL, Olivier Lapierre,
Simon Jones, CEGELEC, Alain Berthon, IGE - CREEBEL,
France (St. 152)
New Control Method of Harmonic Current
Compensation Using Individual Rotating
P-Q Frame of Corresponding Frequency (St. 153) 4.842
Masao Yano, Akira Kuramochi, Noriyuki Nanaumi,
Toyo University, Japan
Vector Control Strategy of an Harmonic and
Reactive Power Compensator (St. 154) 4.848
R Peña, R. Cardenas, Universidad de Magallanes, Chile,
G.M. Asher, J.C. Clare, University of Nottingham, U.K.
Variable Structure Control in Current Controlled
Voltage Sourced Rectifier (St. 155) 4.854
C. W. Lu, A. C. Renfrew, UMIST, United Kingdom
An Active Power Filter And Zero Sequence Harmonics
Components Compensator Control Circuit (St. 156) 4.859
P. Verdelho, Universidade Técnica de Lisboa - IST, Portugal
A space vector-based deadbeat controller for shunt
active power filters (St. 157) 4.864
Li Zhang, L J Xiao, University of Bradford, United Kingdom
Session D8e: Harmonics and active filters - network studies and harmonics
Session Chairman:
Prof. R. J. Arnold, Siemens, UK
Dynamic Behavior of a parallel single phase active line
power line conditioner (St. 158) 4.870
David Gonzalez Diez, J. Balcells, A. Arias,
Universitat Politècnica de Catalunya, Spain
Active power filter for suppression of line current
harmonics (St. 159) 4.874
Pavel Brandstetter, Tomas Bubela, VSB-
Technical University of Ostrava, Czech Republic
A Space Vector Based Active Power Filter for the
Compensation of Harmonic Distortion and Fundamental
Reactive Power (St. 160) 4.879
A. Dell’Aquila, A. Di Lorenzo, P. Zanchetta, Politecnico di Bari,
Italy
Compensation of influence of receivers on power
network with application of power electronic current
source (St. 161) 4.886
Leszek Frackowiak, Michal Gwózdz, Ryszard Porada,
Poznan University of Technology, Poland
A New Configuration for Shunt Active filters (St. 162) 4.892
M. Elhabrouk, M. K. Darwish, P. Mehta, Brunel University,
United Kingdom
Improvements of parallel active power filter performances 4.898
I. Rasoanarivo, B. Davat, GREEN - INPL, P. Boos,
SOCOMEC, France (St. 163)
Numerical and experimental comparative study of voltage
source and current source active power filter (St. 164) 4.903
L. Benchaita, S. Saadate, GREEN-UHP,
A. Salem nia, GRREN - Power & Water Institute of Technology,
France
Analysis and reduction of common-mode disturbances
induced on the network by PWM rectifiers (St. 165) 4.909
P. Ladoux, LEEI - INPT Toulouse, P. Thalin,
J. Nuns, EDF-DER Les Renardières, France
Session D8f: Harmonics and active filters - applications
Session Chairman:
Prof. S. Round, University of Canterbury, New Zealand
A Study of Parallel Connected DC Active Filter for
Large Current Power Supplies Exciting Superconducting
Coils of Fusion Test Facility (St. 166) 4.913
Hirotaka Chikaraishi, National Institute for Fusion Science,
Yuji Yonenga, Chuo Seisakusho Ltd, Japan
Third Harmonic Current Compensator applicable for
large office buildings (St. 167) 4.917
J. B. Woudstra, S. W. H. de Haan, P. C. van der Sluijs,
Delft University of Technology, The Netherlands
Active Filter reference Current Acquisition in Distorted
3-phase Supply Systems (St. 168) 4.923
C.W. Lu, A.C. Renfrew, UMIST, United Kingdom
Series compensator for voltage dips (St. 169) 4.929
R. Tounsi, P. Michalak, H. Pouliquen, EDF-DER,
H. Foch, LEEI, France
Control laws for MV active filters (St. 170) 4.935
P. Michalak, H. Pouliquen, EDF - DER, France
Session D8j: Modelling and simulation
Session Chairman:
Prof. R. Nilssen, NTNU, Norway
User defined block-oriented modeling of FACTS devices
for large power system stability studies (St. 171) 4.940
B. Gick, FGH E.V., I. Erlich, FhG Dresden,
T. Weber, FGH E.V., Germany
Measurements and simulation of dc drive harmonics
on an interconnected offshore system with long sub-sea
cables (St. 172) 4.946
K.S. Smith, Heriot-Watt University, I. Wilson,
Total Oil Marine, United Kingdom,
Brogan P., niversity College Cork, Ireland
Session D10a: Education
Session Chairman:
Prof. E. Masada, Tokyo University, Japan
Uncomplicated Inverter Drive for Research
Development and Teaching using standard PC (St. 173) 4.952
Ludwig Abraham, Wolfgang Frank, Federal Armed
Forces University Munich, Germany
Teaching and demonstration of power electronic circuit
analysis (St. 174) 4.958
O.W. Andersen, Norwegian Institute of Technology, Norway
A LabVIEW-based laboratory course on three-phase
electric machinery under unsymmetrical operating
conditions (St. 175) 4.961
A. Serri, S. Cincotti, M. Marchesi, Universita’ di Cagliari, Italy
A Software Package for Simulation of Electrical Drives
suitable for Computer Assisted Education (St. 176) 4.967
Marco Tursini, F. Parasiliti, University of L’Aquila, Italy
Soft start simulation program for squirrel cage
induction motor drive (St. 177) 4.973
Z. Andonov, T. Dimitrov, S. Mircevski,
Faculty of Electrotechnical Engineering, Rep. of Macedonia
An integrated environment for modeling simulation
and control of DC motors (St. 178) 4.978
H.J. Valderrama, J. Maixé Altés, J.J. Crisol, A. Romero,
L. Martinez-Salamero, Universitat Rovira i Virgili, Spain
Application of LabVIEW as measuring system in
field of power electronics (St. 179) 4.984
Eberhard Brenner, University of Technology &
Business Dresden, Germany
Interactive computer-based electrical machines and drives
tests in the undergraduate laboratory at the university of
Adelaide (St. 180) 4.990
Nesimi Ertugrul, Anthony M. Parker, Mike J. Gibbard,
The University of Adelaide, Australia
HARMONIX: A software package for teaching harmonics
in power systems (St. 181) 4.996
Jorge Pontt O., Universidad Tecnica Federico Santa Maria,
César Pontt O., Fluor Daniel Chile S.A., Ennio Perelli,
Universidad Tecnica Federico Santa Maria, Chile
Using simplorer as a power electronics circuit simulator
(St. 182) 4.1002
Hari Sree, Blix Viggs, University of Minnesota, USA,
Johann W. Kolar, Technical University of Vienna, Austria,
Ned Mohan, University of Minnesota, USA
Using a new interactive Matlab Toolbox for Control
Design and Teaching of Electrical Drives (St. 183) 4.1008
M. Riva, F. Castelli Dezza, A. Monti, Politecnico di Milano,
Italy
SEMDEM - educational software for bipolar power devices
(St. 184) 4.1014
Zbigniew Lisik, Marek Turowski, Technical University of Lódz,
Poland,
Zenon J. Pudlowski, Monash University, Australia
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