Biomedical engineering towards the year 2000 and beyond: Hong Kong SAR, China, October 29 - November 1, 1998 5 Neuro-muscular systems & biomechanics
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| Beschreibung: | XVIII S., S. 2243 - 2778, S. A-I - A-XI Ill., graph. Darst. |
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| 245 | 1 | 0 | |a Biomedical engineering towards the year 2000 and beyond |b Hong Kong SAR, China, October 29 - November 1, 1998 |n 5 |p Neuro-muscular systems & biomechanics |c ed. by H. K. Chang ... |
| 264 | 1 | |a Piscataway, NJ |b IEEE Operations Center |c 1998 | |
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| 490 | 1 | |a Proceedings of the annual international conference of the IEEE Engineering in Medicine and Biology Society |v 20,5 | |
| 490 | 0 | |a Proceedings of the ... annual international conference of the IEEE Engineering in Medicine and Biology Society |v 20 | |
| 700 | 1 | |a Chang, H. K. |4 edt | |
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| adam_text | Proceedings of the 20th Annual International Conference of the IEEE-EMBS, 1998
CONTENTS BY PARTS
Pages
PART 1 Cardiovascular System
MS1.1 Modeling and Imaging of Cardiac Bioelectrical Activity 1-12
551 Bioacoustics Revisited 13-24
Theme 1 Cardiovascular System 25-531
PART 2 Imaging and Image Processing, Developing Areas
Theme 2 Imaging and Image Processing 532-1067
Theme 12 Developing Areas 1068-1089
PART 3 Biomedical Informatics, Biosignal Processing
MS13 Virtual Auditory Displays 1090-1112
MS2 Biomedical Applications of Computational Intelligence 1113-1129
MS5 New Advances in Time-Frequency and Wavelets Methods 1130-1144
552 Hidden Markov Models in Biomedical Signal Processing 1145-1150
Theme 3 Biomedical Informatics 1151-1328
Theme 5 Biosignal Processing 1329-1680
PART 4 Instrumentation and Sensors, Brain and Neural Engineering
MSI.2 Modeling and Imaging of Brain Electrical Activity 1681-1691
MS12 Advanced Micro Instrumentation for Medicine and Biology 1692-1702
SS4 Application of Ultrashot Laser Pulses in Medicine and Biology 1703-1718
Theme 6 Instrumentation and Sensors 1719-1991
Theme 11 Brain and Neural Engineering 1992-2242
PART 5 Neuro-Muscular Systems Biomechanics
MS6 New Approaches in the Development of Motor Neuroprostheses 2243-2250
MS8.1 Innovative Techniques in Rehabilitation Engineering Research Applications I 2251-2272
MS8.2 Innovative Techniques in Rehabilitation Engineering Research Applications II 2273-2296
SS7 New Devices for Improved Functional Electrical Stimulation Systems 2297-2312
Theme 7 Neuro-Muscular Systems Biomechanics 2313-2778
PART 6 Cellular and Tissue Engineering, Physiological Systems: Modeling and Measurements,
Electromagnetic Interactions Issues, Clinical Engineering and Education
MS11 Biosensors and Biomedical Actuators 2779-2790
MS7 Biological Effects and Medical Applications of Electromagnetic Energy 2791-2801
MS9 Gastrointestinal Myoelectrical Activity and Pacing 2802-2811
Theme 4 Cellular and Tissue Engineering 2812-2990
Theme 8 Physiological Systems: Modeling and Measurements 2991-3241
Theme 9 Electromagnetic Interactions Issues 3242-3326
Theme 10 Clinical Engineering and Education 3327-3384
ix
OVERVIEW OF TECHNICAL PROGRAM
Part Pages
MS1.1 Modeling and Imaging of Cardiac Electrical Activity I 1-12
MS1.2 Modeling and Imaging of Brain Electrical Activity IV 1681-1691
MS2 Biomedical Applications of Computational Intelligence Ill 1113-1129
MS3 Collaborative Learning Approaches to Biomedical Engineering Education in
Computer-Aided Learning Environments of the 21st Century *
MS4 Neural Engineering - an Emerging Discipline *
MS5 New Advances In Time-Frequency And Wavelets Methods Ill 1130-1144
MS6 New Approaches in the Development of Motor Neuroprostheses V 2243-2250
MS7 Biological Effects and Medical Applications of Electromagnetic Energy VI 2791-2801
MS8.1 Innovative Techniques in Rehabilitation Engineering Research Applications I V 2251-2272
MS8.2 Innovative Techniques in Rehabilitation Engineering Research Applications II V 2273-2296
MS9 Gastrointestinal Myoelectrical Activity and Pacing VI 2802-2811
MS10 Cardiac Rhythms: from Single Beat to Chaos *
MS11 Biosensors and Biomedical Actuators VI 2779-2790
MS12 Advanced Micro Instrumentation for Medicine and Biology IV 1692-1702
MS13 Virtual Auditory Displays Ill 1090-1112
551 Bioacoustics Revisited I 13-24
552 Hidden Markov Models in Biomedical Signal Processing Ill 1145-1150
553 Articicial Arm and Micro-Surgical Robot Control *
554 Application of Ultrashot Laser Pulses in Medicine and Biology IV 1703-1718
555 Medical Ultrasonics *
556 Physiological Modeling and Identification I (Session 8.4.1) IV 3032-3055
557 New Devices for Improved Functional Electrical Stimulation Systems V 2297-2312
558 Chaos and Fractals I (Session 5.5.1) Ill 1553-1575
559 Fuzzy Logic and Hybrid Systems I (Session 5.2.1) Ill 1352-1374
Theme 1 Cardiovascular System
Track 1.1 Cardiac Electrical Activity I 25-97
Track 1.2 ECG Signal Analysis I 98-244
Track 1.3 Electrocardiotherapy I 245-270
Track 1.4 Heart Rate Variability I 271-366
Track 1.5 Cardiac Hemodynamics I 367-416
Track 1.6 Cardiac Mechanics **
Track 1.7 Cardiac Instrumentation I 417-467
Track 1.8 Cardiovascular Imaging I 468-519
Track 1.9 Other Cardiac Topics I 520-531
Theme 2 Imaging and Image Processing
Track 2.1 2D/3D Image Display Visualization II 532-597
Track 2.2 CT and MR Imaging II 598-706
Track 2.3 Radiographic Imaging II 707-751
Track 2.4 Nuclear Medicine Imaging II 752-774
Track 2.5 Ultrasound Imaging and Therapy II 775-875
Track 2.6 Optical/Infra-red Imaging II 876-1005
Track 2.7 Mammography II 1006-1027
Track 2.8 Impedance, Other Imaging Modalities II 1028-1067
Theme 3 Biomedical Informatics
Track 3.1 Telecommunication for Health Care Delivery HI 1151-1173
Track 3.2 Information Infrastructure in Health Care Ill 1174-1193
Track 3.3 High-Performance Biomedical Computing HI 1194-1241
Track 3.4 Virtual Reality in Medicine and Surgery HI 1242-1262
Track 3.5 Telemedicine and Teleradiology Ill 1263-1328
* No paper
** Merged with other tracks
Part Pages
Theme 4 Cellular and Tissue Engineering
Track 4.1 Biomembranes VI 2812-2857
Track 4.2 Cell-based Biosensors VI 2858-2878
Track 4.3 Artificial Organs **
Track 4.4 Biomaterials VI 2879-2934
Track 4.5 Tissue Engineering VI 2935-2990
Theme 5 Biosignal Processing
Track 5.1 Artificial Neural Networks Ill 1329-1351
Track 5.2 Fuzzy Logic Hybrid Intelligent Systems Ill 1352-1441
Track 5.3 Signal Visualization **
Track 5.4 Wavelets / Time-Frequency Analysis Ill 1442-1552
Track 5.5 Chaos and Fractals Ill 1553-1597
Track 5.6 High-order Statistics Ill 1598-1660
Track 5.7 Other Signal Analysis Techniques Ill 1661-1680
Theme 6 Instrumentation and Sensors
Track 6.1 Instrumentation IV 1719-1821
Track 6.2 Micro-Machined Sensors IV 1822-1844
Track 6.3 Lasers and Electro-optics IV 1845-1905
Track 6.4 Molecular Electronics **
Track 6.5 Data Acquisition Measurement Systems IV 1906-1969
Track 6.6 Geronetechnology IV 1970-1991
Theme 7 Neuro-Muscular Systems Biomechanics
Track 7.1 Posture, Gait and Locomotion V 2313-2429
Track 7.2 Ergonomics Human Performance Analysis V 2430-2459
Track 7.3 Orthopaedic Biomechanics V 2460-2523
Track 7.4 FES /Mobility Aids V 2524-2615
Track 7.5 Robotics Micro-Mechanical Devices **
Track 7.6 EMG/VMG Signal Analysis V 2616-2673
Track 7.7 Rehabilitation Engineering V 2674-2759
Track 7.8 Sport Medicine V 2760-2778
Theme 8 Physiological Systems: Modeling and Measurements
Track 8.1 Biocontrol **
Track 8.2 Bioelectric and Biophysical Phenomena VI 2991-3011
Track 8.3 Nonlinear Bio-dynamics VI 3012-3031
Track 8.4 Physiological Modeling Identification VI 3032-3125
Track 8.5 Speech, Hearing and Vision VI 3126-3194
Track 8.6 Respiratory System VI 3195-3226
Track 8.7 EGG Analysis and Modeling VI 3227-3241
Theme 9 Electromagnetic Interactions Issues
Track 9.1 Bioeffects of RF / Microwaves VI 3242-3264
Track 9.2 Bioeffects of Power Line EMF VI 3265-3287
Track 9.3 MRI Safety Issues VI 3288-3302
Track 9.4 Electromagnetic Absorption Modeling **
Track 9.5 Electromagnetic Healthcare Devices **
Track 9.6 EM Compatibility of Medical Devices VI 3303-3326
Theme 10 Clinical Engineering and Education
Track 10.1 Clinical Engineering **
Track 10.2 Technology Assessment VI 3327-3346
Track 10.3 Critical Care / Intelligent Monitoring **
Track 10.4 Education and Ethics VI 3347-3363
Track 10.5 Economics, Liability, Responsibility **
Track 10.6 Standardization and Safety VI 3364-3384
Theme 11 Brain and Neural Engineering
Track 11.1 Neural Information Processing and EEG Signal Processing IV 1992-2107
Track 11.2 Brain Electricity and Neuroimaging IV 2108-2196
Track 11.3 Magnetic Sensing MEG Mapping IV 2197-2220
Track 11.4 Instrumentation In Neurology IV 2221-2242
Theme 12 Developing Areas
Track 12.1 Biotechnology II 1068-1082
Track 12.2 Engineering in Alternative Medicine II 1083-1089
* No paper
** Merged with other tracks
Part V: Table of Contents Proceedings of the 20th Annual International Conference of the IEEE-EMBS,1998
MINI-SYMPOSIA
MS6 New Approaches in the Development of Motor Neuroprostheses MS6-1 The Design of Control Methods for Neuroprostheses to Restore Multiple Degrees of Freedom Motor 2243
Functions
Lan N, Wang JC, Ding HS, Zhang YT, Tsinghua University, China
MS6-2 Artificial and Natural Sensors in FES-Assisted Human Movement Conrol 2247
Veltink PH, Sinkjaer T, Baten CTM, Bergveld P, Vander Spek J, Haugland M, University of Twente, The Netherlands
MS8.1 Innovative Techniques in Rehabilitation Engineering Research Applications I
MS8.1-1 How Cochlear Implants Have Expanded Our Understanding of Speech Perception 2251
McDermott HJ, The University of Melbourne, Australia
MS8.1-2 Implantable Multichannel FES System with High Performance Immunity to Electromagnetic Interference 2257
Hoshimiya N, Matsuki H, Handa Y, Tohoku University, Japan
MS8.1-3 Feasibility of Flywheel Batteries for Electric Powered Wheelchairs 2261
Cooper RA, Tai CF, University of Pittsburgh, USA
MS8.1-4 Innovative Methods to Study Postural Stability and Fall Initiation 2264
Robinson CJ, Faulkner LW, Sparto PJ, Purucker MC, University of Pittsburgh, USA
MS8.1-5 Load-Indentation Response of Soft Tissues with Multi-Layers 2270
Zheng YP, Mak AFT, Qin L, Hong Kong Polytechnic University, Hong Kong SAR
MS8.2 Innovative Techniques in Rehabilitation Engineering Research Applications II MS8.2-1 Control Strategy for Upper-Limb Prostheses 2273
Childress DS, Northwestern University, USA
MS8.2-2 Basic Requirements for Upper Extremity Prostheses: the Wilmer Approach 2276
Plettenburg DH, Delfs University, The Netherlands
MS8.2-3 Intelligent Knee Mechanism and the Possiblity to Apply the Principle to the Other Joints 2282
Nakagawa A, Hyogo Rehabilitation Center, Japan
MS8.2-4 Use of Multimedia for Gait Analysis 2288
Kirtley C, The Hong Kong Polytechnic University, Hong Kong SAR
MS8.2-5 Post Occlusive Hyperaemic Effect of Tissue Under Static and Dynamic Loading Conditions 2294
Tarn EWC, Mak AFT, Evans JH, Chow YYN, The Hong Kong Polytechnic University, Hong Kong SAR
SPECIAL SESSIONS
SS7 New Devices for Improved Functional Electrical Stimulation Systems
SS7-1 Devices for Improved Mobility After Spinal Cord Injury and Stroke 2297
Stein RB, Chong S, James KB, Cheng J, Wieler M, University of Alberta, Canada
SS7-2 Determining Synergy Between Joint Angles During Locomotion by Radial Basis Function Neural Networks 2301
Popovic D, Jonic S, University of Belgrade, Yugoslavia
SS7-3 BION, Bionic Neurons for Functional and Therapeutic Electrical Stimulation 2305
Loeb GE, Richmond FJR, Olney S, Cameron T, Dupont AC, Hood K, Peck RA, Queen s University, Canada
SS7-4 Improved Method for Use of Natural Sensory Feedback in Control of Grasp Force for Stimulated Hand 2310
Muscles
Haugland M, Lickel A, Aalborg University, Denmark
THEME 7: NEURO-MUSCULAR SYSTEM BIOMECHANICS
7.1.1 Reflex Contributions to Stiffness
7.1.1-1 Dynamics of Patellar Tendon Reflex in Spastic Multiple Sclerosis Patients 2313
Zhang LQ, Wang GZ, Sliwa J, Rymer WZ, Rehabilitation Institute of Chicago, USA
7.1.1-2 Neuromuscular Model for the Stretch Reflex in Passive Movement of Spastic Elbow Joint 2317
Feng CJ, Mak AFT, The Hong Kong Polytechnic University, Hong Kong SAR
7.1.1-3 Reflex and Intrinsic Mechanical Changes in Spastic Limbs of MS Patients 2321
Zhang LQ, Wang GZ, Sliwa J, Rymer WZ, Rehabilitation Institute of Chicago, USA
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7.1.1-4 Stretch Reflex Behavior of Spastic Ankle Underpassive and Active Condtions 2325
Mirbagheri MM, Kearney RE, Barbeau H, McGill University, Canada
7.1.1-5 Stretch Reflex Contribution to Soleus Activation During Spastic Gait 2328
Veltink PH, Ladouceur M, Sinkjaer T, University of Twente, The Netherlands
7.1.1-6 Afferent Input From the Human Ankle Extensors During Walking 2332
Andersen JB, Sinkjaer T, Aalborg University, Denmark
7.1.2 Stiffness Properties 7.1.2-1 Anisotropic Stiffness Reduction During Constrained Multijoint Arm Movement 2336
Gomi H, NTT Basic Research Labs., Japan
7.1.2-2 Abnormal Passive and Intrinsic Stiffness in the Spastic Ankle 2338
Mirbagheri MM, Kearney RE, Barbeau H, McGill Unviersity, Canada
7.1.2-3 Real Time Estimation of Time-Varying Human Multijoint Arm Viscoelasticity During Movements 2341
Gomi H, Konno T, NTT Basic Research Labs., Japan
7.1.2-4 Intrinsic Viscoelasticity of Ankle Joint During Standing 2343
Fujita K, Sato H, Iwate University, Japan
7.1.2-5 Simultaneous Estimation of Intrinsic and Reflex Contributions to Muscle Dynamics: A Modeling Study 2346
Perreault EJ, Crago PE, Kirsch RF, Case Western Reserve Univ. , USA
7.1.2-6 Does Passive Bi-Articular Coupling of Joint Moments in the Lower Extremity of Paraplegics Differ From 2350
Normal Persons?
Edrich T, Riener R, Quintern J, Univ. Hosp. Grosshadern, Germany
7.1.3 Control Theory 7.1.3-1 Adaptation of Arm Movement Control Under Repeated Perturbations 2354
Weber DJ, Chi A, He JP, Arizona State University, USA
7.1.3-2 Coordinates Transformation Learning of Hand Position Feedback Controller by Using Change of Hand 2358
Position Error Norm
Oyama E, Susumu T, Mechanical Engineering Laboratory, Japan
7.1.3-3 Is Random Tracking More Difficult in Two Dimemsions Than One Dimension? 2362
Jones RD, Watson RW, Canterbury Health Ltd and University of Otago, New Zealand
7.1.3-4 Model Predictive Control of Human Elbow Joint Movement 2366
Li XF, Xiao SJ, Hong Kong Polytechnic University, Hong Kong SAR
7.1.3-5 A Strategy of Motor Learning Using Adjustable Parameters for Arm Movement 2370
Katayama M, Inoue S, Kawato M, Toyohashi University of Technology, Japan
7.1.3-6 A Dynamic Generator Model for Motor-Related Biosignals 2374
Staude G, Flachenecker C, Wolf W, Bundeswehr University, Germany
7.1.4 Postural Control
7.1.4-1 Characteristics of Visual Feedback in Postural Control 2378
Fukuoka Y, Tanaka K, Ishida A, Minamitani H, Tokyo Medical and Dental University, Japan
7.1.4-2 Detecting Thresholds and Interactions Among Displacement, Acceleration, and Velocity, for Young Adults 2382
on A Horizontally Translated Platform
Faulkner LW, Robinson CJ, University of Pittsburgh, USA
7.1.4-3 Good Posture Improves Cello Performance 2386
Ueno K, Frukawa K, Nagano M, Asami T, Yoshida R, Yoshida F, Saito I, Keio University, Japan
7.1.4-4 Determinants of Psychophysical Detection Thresholds for Young Adults on A Horizontally Translated 2390
Platform
Sparto PJ, Robinson CJ, Faulkner LW, Univesity of Pittsburgh, USA
7.1.4-5 Quantification of Sensory Information in Human Balance Control 2393
Kooij H.Koopman B.Jacobs R.Mergner T.Grootenboer H, University of Twente, Netherlands
7.1.4-6 Effect of Workstation Design on Posture During Manual Task in Animal House Worker 2397
Luk TC, Hong Y, The Chinese University of Hong Kong, Hong Kong SAR
7.1.5 Gait ~
7.1.5-1 Biomechanical Modeling of Human Body Control Scheme Instepping Motion Over An Obstacle. 2401
Gorce P, Hafi F.EL, France
7.1.5-2 A Three-Dimensional Model of the Human Locomotor Apparatus for Analysis of Hemiplegic Gait 2407
Lutzenberger C, Pfeiffer F, Technishe Universitat Munchen, Germany
xiii
Part V: Table of Contents Proceedings of the 20th Annual International Conference of the IEEE-EMBS.1998
7.1.5-3 A Quantitative Gait Assessment Method Based on Energy Exchanges Analysis During Walking 2411
Gider F, The Jozef Stefan Institute, Slovenia
7.1.5-5 Design and Development of An Active Marker Based System for Analysis of 3-D Pediatric Foot and Ankle 2415
Motion
Sampath G, Abu-Faraj ZO, Smith PA, Harris GF, Marquette University, USA
7.1.5-6 Clinical Validation of A System for the Analysis of Pediatric Foot and Ankle Kinematics During Gait 2418
Sampath G, Abu-Faraj ZO, Smith PA, Harris GF, Miarquette University, USA
7.1.5-7 Coordinated Responses of Limb Movement During Human Bipedal Locomotion to External Perturbation 2422
Nomura T, Kobayashi M, Kozuka J, Sato S, Osaka University, Japan
7.1.5-8 Age-Related Changes in Gait When Negotiating A Raised Surface. 2426
Begg RK, Sparrow WA, Victoria University of Technology, Australia
7.2.1 Energetic 7.2.1-1 Gait Pattern and Energetic Cost in Hexapods 2430
Nishii J, RIKEH, Brain Science Institute, Japan
7.2.1-2 Human Working Intensity of Children Walking with Different Loads 2434
Hong YL, Li JX, Wong ASK, The Chinese University of Hong Kong, Hong Kong SAR
7.2.1-3 Motor Strategies Evaluation Based on Biomechanical Constraints Under Microgravity Conditions 2438
Pedrocchi A, Baroni G, Ferrigno G, Pedotti A, Polytechnic of Milan, Italy
7.2.1-4 Open-Loop Control to Achieve Linear Heart Rate Increase in the Treadmill Exercise Test 2442
Saito H, Togawa T, Tokyo Med. Dent. University, Japan
7.2.2 Miscellaneous 7.2.2-1 Description of Movement of the Upper Extremities: Based on Anatomical Structure Model. (With Special 2444
Regard to Signing Gesture)
Hiki S, Dcehara W, Murayama K, Imaizumi K, Fukuda Y, Waseda University, Japan
7.2.2-2 EMG Activities Between Sit-And-Reach and Stand-And-Reach: A Pilot Study 2448
Chu DPK, Luk TC, Hong Y, The Chinese University of Hong Kong, Hong Kong SAR
7.2.2-3 Correlation Between Static/Dynamic Squat Lifting Capacity and Back/Knee Strength in .Chinese Male 2452
Adults
Yeung AKC, Chow DHK, The Hong Kong Polytechnic University, Hong Kong SAR
7.2.2-4 A Study for the Effect of Electrical Stimulation on Tinnitus Treatment Based on the Correlation Analysis of 2456
ABR and ECochG
Kim KS, Park JW, Nam SH, Im JJ, Choi ES, Jun BH, Inje University, Korea
7.3.1 Biomechanics
7.3.1-1 Fluid Movement in Cortical Bone in Goats 2460
Qin L, Mak AFT, Cheng CW, Hung LK, Chan KM, The Chinese University of Hong Kong, Hong Kong SAR
7.3.1-2 Correlation of Imaging Semi-Quantification with Biochemical Assessment of Proteoglycans Content in 2463
Trypsinized Articular Cartilage
Leung CT, Qin L, Mak AFT, Choy WY, Chan KM, The Chinese University of Hong Kong, Hong Kong SAR
7.3.1-3 Coraline Hydroxyapatite As A Bone Substitute to Enhance Spinal Fusion 2467
Yurianto H, Cheng JCY, Guo X, Lee KM, The Chinese University of Hong Kong, Hong Kong SAR
7.3.1-4 The Evaluation of Bone Mineral Density in Adolescent Idiopathic Scoliosis 2469
Cheung SK, Cheng JCY, Guo X, Qin L, Sher HL, The Chinese University of Hong Kong, Hong Kong SAR
7.3.1-5 An in Vivo Study of the Rat Patellar Tendon Healing - Histological, Biochemical and Biomechanical Aspects 2471
Chan BP, Fu SC, Qin L, Chan KM, The Prince of Wales Hospital, Hong Kong SAR
7.3.1-6 A Direct Dynamic Approach to Stress Development in Bone 2474
DeWoody Y, Martin CF, Schovanec L, Texas Tech University, USA
7.3.1-7 Visual Simulation on Ligament s Stress Derived From the Microstructural Model 2478
Hirokawa S, Tsuruno R, Kyushu-University, Japan
7.3.1-8 Biomechanical Properties of Muscle-Tendon Unit Under Fast Passive Stretch 2482
Chang LT, Chang GL, Lin RM, Lin CY, National Chung Kung University, Taiwan, China
7.3.1-9 A Forward Musculoskeletal Dynamics Approach to the Motion of Metacarpophalangeal Joint of Index 2486
Finger
Huang CH, Li B, Xiao SJ, Wang RC, Tsinghua University, China
7.3.1-10 Polynomial Approximations of Gait for Human Motion Analysis and Visualization 2490
Taylor CR, von Konsky BR, Kirtley C, Curtin University of Technology, Australia
7.3.1-11 Pediatric Foot Motion Analysis: A Study of Ten Normal Children Using A Two Segment Foot Model 2494
Van Bogart JJ, Harris G, Lyon RM, Liu XC, Johnson J, Marquette University, USA
xiv
Part V: Table of Contents Proceedings of the 20th Annual International Conference of the IEEE-EMBS,1998
7.3.1-12 Interface Healing Between Remaining Patella and Patellar Tendon After Partial Patellectomy - An 2497
Experimental Study in Rabbit
Qin L, Leung KS, Chan CW, Fu LK, Rosier RN, The Chinese University of Hong Kong, Hong Kong SAR
7.3.1-13 Structure and Mobility of the Glenohumeral Joint 2500
Chan LK, Prince of Wales Hospital, Hong Kong SAR
7.3.2 Clinical Applications 7.3.2-1 CCD - Based System for Three-Dimensional Real-Time Positioning 2503
Pan L, Zhang Q, Xiao XS, Ding HS, Wang GZ, Zhao P, Tsinghua University, China
7.3.2-2 Computerized Evaluation of the Surface Measurement of Kyphosis and Lordosis in Idiopathic Scoliosis 2507
Thometz J, Liu XC, Harris GF, Medical College of Wiscousiu, USA
7.3.2-3 Linear Modelling and Fourier Spectroscopy of Stress-Relaxation in the Cervical Spine 2509
Holmes AD, Fang J, University of Hong Kong, Hong Kong SAR
7.3.2-4 Intra-Operative Measurement and Real-Time Visualization of the Articulation of Replaced Knee Joint 2512
Surfaces During Total Knee Arthroplasty
Hayashi T, Nishino K, Kondo Y, Suzuki Y, Oraori G, Koga Y, Niigata University, Japan
7.3.2-5 In-Vivo 6-DOF Measurement of Knee Movement Using An Open MR System 2516
Itoh K, Hayashi T, Mizusawa K, Omori G, Saitoh T, Koga Y, Niigata Institute of Technology, Japan
7.3.2-6 Strain Distributions All Around ACL During Knee Motion 2520
Yamamoto KL, Hirokawa SJ, Kawada T, Kurume Institute of Technology, Japan
7A1 FES Natural Sensors 7.4.1-1 Closed-Loop Stimulations of Hypoglossal Nerve Using Its Spontaneous Activity As the Feedback Signal 2524
Sahin M, Durand DM, Case Western Reserve University, USA
7.4.1-2 Position Information in Whole Nerve Cuff Recordings of Muscle Afferents in A Rabbit Model of Normal 2528
and Paraplegic Standing
Jensen W, Riso R, Sinkj R T, Aalborg University, Denmark
7.4.1-3 Detecting Sudden Bladder Pressure Increases from the Pelvic Nerve Afferent Activity 2532
Jezernik S, Sinkjaer T, Aalborg University, USA
7.4.1-4 Potential Role of Afferent Recordings As A Sensory Feedback in Movement Control Systems: Animal Model 2536
Kostov A, Fuhr B, Strange K, Hoffer JA, University of Alberta, Canada
7.4.1-5 Control of Bilateral Stimulated Hand Grasp and Release by Monitoring Ipsilateral Wrist Joint Angle in 2540
Persons with Tetraplegia
Scott TRD, Heasman JM, Gschwind CR, Middleton JW, Rutkowski SB, Royal North Shore Hospital, Australia
7.4.1-6 Two Point Vibrotactile Spatial Resolution As A Function of Pulse Frequency and Pulse Width 2542
Perez C, Holzmann C, Sandoval E, University of Chile, Chile
7.4.2 Stimulation Methods 7.4.2-1 Animal Study on Selective Stimulation of Nerve Fibers Using Biphasic Retangular Pulses 2546
Shen Q, Jiang DZ, Tai CF, Xi an Jiantong University, China
7.4.2-2 Frequency Response of Nerve-Muscles Relating to Fatigue and Hypokalemia in Rats 2550
Nuruki A, Uchida S, Yunokuchi K, Nagaoka R, Japan J EEG EMG, Japan
7.4.2-3 Toroid Systems for Focused Neuromagnetic Stimulation 2554
Zhang T, Edrich J, Univ. Ulm, Germany
7.4.2-4 New Nerve Cuff Electrode Based on A Shape Memory Alloy Armature 2556
Crampon MA, Sawan M, Brailovski V, Trochu F, Ecole Polytechnique de Montreal, Canada
7.4.2-5 Efficiency of Endoneural Stimulation with 5- to 24-Fold Multielectrodes 2560
Rutten WLC, Smit JPA, University of Twente, The Netherlands
7.4.2-6 Orderly Recruitment of Motoneurons in An Acute Rabbit Model 2564
Rijkhoff NJM, Sinkjaer T, Aalborg University , Denmark
7.4.2-7 Neural Networks Identification of Muscular Response Using Extended Hammerstein Models 2566
Schultheiss J, del Re L, University of Linz, Switzerland
7.4.2-8 EMG Activity and Knee Joint Torque Evoked by Microstimulation of the Cat L6 Spinal Cord 2570
Tai CF, Booth AM, Robinson CJ, de Groat WC, Roppolo JR, University of Pittsburgh, USA
7.4.2-9 Shielding of Flexible Microelectrode Interconnects for Suppression of Artifacts in Neural Prostheses 2574
Stieglitz T, Schuettler M, Keller R, Meyer J.-U, Fraunhofer List, of Biomedical Engineering, Germany
XV
Part V: Table of Contents Proceedings of the 20th Annual International Conference of the IEEE-EMBS,1998
7.4.3 FES Control 7.4.3-1 Finite State Controller for Functional Electrical Stimulation : Software Implementation 2578
Wang F, Andrews BJ, University of Alberta, Canada
7.4.3-2 Using Neural Network with Virtual Sensors to Generate Optimum FES Gait Controllers 2582
Tong KY, Granat MH, University of Strathclyde, UK
7.4.3-3 A Diagonal Recurrent Neural Network Based FES System for the Knee Joint Position Control 2586
Luh JJ, Chang GC, Lai JS, Cheng CK, Kuo TS, Lee JF, National Taiwan University, Taiwan, China
7.4.3-4 Learnig Control of Hand Posture with Neural Network in FES for Hemiplegics 2588
Fujita K, Shiga K, Takahashi H, Iwate University, Japan
7.4.3-5 The Control of FES-Induced Ankle Dorsiflexion of Adults with Spastic Diplegia Using A Pulsewidth 2590
Modulation Pattern - A Preliminary Study
Su IYW, Chow DHK, The Spastics Association of Hong Kong, Hong Kong SAR
7.4.4 Modeling Feasibility ~ ~ _ _¦ 7.4.4-1 Experimental Tests of A Musculoskeletal Model of the Elbow Joint for FES Applications 2594
Watanabe T, Nozawa T, Eom GM, Ohba S, Futami R, Hoshimiya N, Handa Y, Tohoku University, Japan
7.4.4-2 A Physiologically Based Neuromusculoskeletal Model for the Design of FNS Control Strategies 2598
Dorgan SJ, Riener R, Technical University of Munich, Germany
7.4.4-3 Feasibility of Restoring Shoulder and Elbow Function in High Tetraplegia by Functional Neuromuscular 2602
Stimulation
Kirsch RF, Acosta AM, Yu D, Keith MW, Case Western Reserve Univ., USA
7.4.4-4 A Bipedal, Closed-Chain Dynamic Model of the Human Lower Extremities and Pelvis for Simulation-Based 2605
Development of Standing and Mobility Neuroprostheses
Zhao WF, Kirsch RF, Triolo RJ, Delp S, Case Western Reserve University, USA
7.4.4-5 A Novel Control Scheme Incorporating Voluntary Contributions for the Closed-Loop Control of 2609
Neuroprostheses
Fuhr TCh., Riener R, Schmidt G, Technical University of Munich, Germany
7.4.4-6 An Efficient Method for Modeling EMG Potentials As Recorded Using Surface Electrodes 2613
Anctil B, Slawnych M, McGill University, Canada
7.6.1 EMG Analysis
7.6.1-1 Development and in Vivo Application of the Nerve Stimulator and EMG Analysis System for Selective 2616
Posterior Rhizotomy
Kwon SH, Kim HC, Oh CW, Seoul National University, Korea
7.6.1-2 Improved EMG Pattern Recognition Using the Distribution Plot of Cepstrum 2620
Lin CL, Kang WJ, Hu CT, Lai JS, Young ST, Lai JS, Lee MH, Kuo TS, Dept. of Electrical Engineering NTU, Taiwan, China
7.6.1-3 Identification of AR Parameters for Continuous Upper-Limb EMG 2623
Zhang HH, Wang ZZ, Cai LY, Lei M, Cai H, Shanghai Jiao Tong University, China
7.6.1-4 An EMG Classifying Method Based on Bayes Criterion 2625
Lei M, Wang ZZ, Cai LY, Zhang HH, Cai H, Shanghai Jiao Tong University, China
7.6.1-5 Time-Frequency Representation for Classification of the Transient Myoelectric Signal 2627
Englehart K, Hudgins B, Parker P, Stevenson M, University of New Brunswick, Canada
7.6.1-6 Modeling of Muscle Vibration During A Twitch 2631
Xu LY, Zhang YT, Chan KM, Qin L, Lanzhou University, China
7.6.1-7 Possibility of Automatizing Computer Program for Pulse Density Demodulation (PDD) Processing of 2635
Surface Electrode Electromyograms (EMG)
Choi KW, Hiki S, Waseda University, Japan
7.6.1-8 Estimation of Motor Unit Firing Statistics From Surface EMG 2639
Xu ZQ, Xiao SJ, The Hong Kong Polytechnic University, Hong Kong SAR
7.6.1-9 Electrophysiology Studies of Motor Nerve Function Recovery After Using Pre-Degenerated Nerve 2643
Graft Correlation with Histology
Lao J, Hung LK, Kwong WH, The Chinese University of Hong Kong, Hong Kong SAR
7.6.1-10 A Correlation Technique for Muscle Fibre Action Potential Conduction Velocity Measurement Using A 2647
Single Acquisition Channel
Spinelli EM, Felice CJ, Mayosky MA, Politti JC, Valentinuzzi ME, Universidad Nacional De La Plata, Argentina
7.6.2 EMG Based Analysis J ~ ^1
7.6.2-1 Examing the Mean Frequency of Myoelectric Signals Produced by Dynamic Muscle Contractions 2650
Maclsaac DT, Parker PA, Scott RN, U. of New Brunswick, Canada
xvi
Part V: Table of Contents Proceedings of the 20th Annual International Conference of the IEEE-EMBS,1998
7.6.2-2 Assessing Motor Nerve Lesion from CMAP Decomposition 2654
Xu T, Xiao SJ, Ip WY, The Hong Kong Polytechnic University, Hong Kong SAR
7.6.2-3 Generalized Algorithm of Detection and Classification in Uterine Electromyography Signal 2658
Khalil M, Duchene J, Marque C, University of Technology of Troyes, France
7.6.2-4 Study of Muscle Contraction Through A Temporal Parameter of the Myoeletric Signal 2662
Garcia MAC, Nogueira SM, Federal University of Rio de Janeiro - Brazil, Brazil
7.6.2-5 Using EMG to Evaluate Muscle Functions in Patients with Low Back Pain (LBP) Syndromes. 2666
Lu WW, Luk KDK, Cheung KMC, Leong JCY, University of Hong Kong, Hong Kong SAR
7.6.2-6 Application of Symbolic Techniques in Detecting Determinism in Time Series 2670
Yang ZJ, Zhao GZ, Zhejiang University, China
7.7.1 Assistive Devices 7.7.1-1 Development of An Automatic Transfer Machine with Human Compatibility by Using Pneumatic Actuators 2674
Hayakawa Y, Yamamoto T, Iseki N, Amano Y, Nara National College of Technology, Japan
7.7.1-2 Design of A Robotic-Hybrid Wheelchair for Operation in Barrier Present Environments 2678
Lawn M, Takeda T, Nagasaki Institute of Applied Science, Japan
7.7.1-3 KARES: Intelligent Rehabilitation Robotic System for the Disabled and the Elderly 2682
Song WK, Lee HY, Kim JS, Yoon YS, Bien ZN, Dept. of E. E. Kaist, Korea
7.7.1-4 Biomechanical Effect of Changes in Walker Height and Postion on Sagittal Plane Elbow Dynamics for 2686
Rehabilitation Purposes
Hambrook GW, Simoneau GG, Bachschmidt RA, Harris GF, Marquette University, USA
7.7.1-5 Development of A System for Quantitative Study of Pediatric Walker-Assisted Gait 2689
Bachschmidt RA, Harris GF, Ackman JA, Hassani S, Reiners K, Olsson W, Carignan F, Blanchard G, Shriners Hospital for
Children, Chicago Unit, USA
7.7.1-6 Power-Assisted Walking Support System for Elderly 2693
Nemoto Y, Egawa S, Koseki A, Hattori S, Ishii T, Fujie M, Hitachi Limited, Japan
7.7.1-7 Experimental Investigation on the Centros of Abduction/Adduction of the Metacarpophalangeal Joints of 2696
Human Hand
Huang CH, Lu X, Li B, Wang RC, Xiao SJ, Tsinghua University, China
7.7.1-8 Rate of Information Processing During Simultaneous Presentation of Auditory and Visual Information 2700
Murata A, Iwase H, Hiroshima City University, Japan
7.7.1-10 A Speech Controlled Artificial Limb Based on DSP Chip 2704
Lin CL, Wang SC, Wu HC, Young ST, Lee MH, Kuo TS, National Taiwan University, Taiwan, China
7.7.1-11 An Efficient Feedback Cancellation for Multiband Compression Hearing Aids 2706
Park YC, Kim DW, Kim IY, Samsung Advanced Institute of Technology, Korea
7.7.1-12 A Completely Intramedullary Leg Lengthening Device 2710
Aalsma AMM, Hekman EEG, Stapert J, Grootenboer H, University of Twente, The Netherlands
7.7.1-14 Digital Filtering of Kinematics of Racing Wheelchair Propulsion 2714
DiGiovine CP, Cooper RA, DiGiovine MM, Boninger ML, Robertson RN, University of Pittsburgh, USA
7.7.1-15 Effectiveness of Cognitively Engineered Human Interface Design 2717
Murata A, Iwase H, Hiroshima City University, Japan
7.7.1-16 Implementation of Fuzzy Control Over FES-Assisted Locomotion for CVA Patients 2721
Chang MH, Chen YL, Wang KC, Kuo TS, National Taiwan University, Taiwan, China
7.7.2 Therapeutic Interventions 7.7.2-1 Verbal-Encouragement Algorithm in Gait Training for the Elderly 2724
Tejima N, Takahashi Y, Bunki H, Ritsumeikan University, Japan
7.7.2-2 Effects and Usefulness of A New Training Procedure Developed for Rehabilitation of Physical and Cognitive 2726
Activity
Yasuda T, Higashi Y, Fujimoto T, Suzuki M, Tamura T, Tsuji T, Sakaki H, Fujimoto Hospital, Japan
7.7.2-3 An Analysis of Skin Temperature Changes Under Pressure Loading and Relief by Animal Experiments 2729
Kemuriyama T, Niitsuma J, Yano H, Komeda T, Shibaura Institute of Technology, Japan
7.7.2-4 Neural Network Control of Wheelchairs Using Telemetric Head Movement 2731
Joseph T, Nguyen H, University of Technology, Sydney, Australia
7.7.2-5 Etiology of Decubitus Ulcers Using An Animal Model-Measurements of Local Blood Flow Inhibition 2734
Niitsuma J, Yano H, Togawa T, National Rehabilitation Center for the Disabled, Japan
7.7.2-6 The Effect of Muscular Strengthening with Electrical Stimulation on Sit-To-Stand Motion in Young and 2738
Elderly Persons
Galli M, Crivellini M, Politechnico Di Milano, Italy
xvii
Part V: Table of Contents Proceedings of the 20th Annual International Conference of the IEEE-EMBS,1998
7.7.3 Prostheses 7.7.3-1 MRI Investigation of Musculoskeletal Action of Transfemoral Residual Limb Inside A Prosthetic Socket 2741
Zhang M, Mak AFT, Chung A1K, Chung KH, The Hong Kong Polytechnic University, Hong Kong SAR
7.7.3-2 Dynamic Effects of Postural Sway on Back Surface Contour: Implication for 3-D Assessment of Spinal 2744
Position
Thometz J, Liu XC, Mcgrady L, Harris GF, Medical College of Wisconsin, USA
7.7.3-3 A Novel Technique for Fabricating Facial Prosthetic Model 2746
Ching LS, Kai CC, Meng CS, Nanyang Technological University, Singapore
7.7.3-4 A New Strategy for 3D Imaging of Residual Limbs Using Ultrasound 2750
He P, Xue K, Wang YW, Fan Y, Wright State University, USA
7.7.3-5 Air Cushion Action at the Distal End of Above-Knee Stump with A Prosthetic Socket 2754
Zhang M, Mak AFT, Mak J, The Hong Kong Polytechnic University, Hong Kong SAR
7.7.3-6 Biomechanical Analysis of Buttock Soft Tissues Using Computer-Aided Seating System 2757
Wang J, Brienza DM, Yuan YW, Karg P, Bertocci G, University of Pittsburgh, USA
7.8.1 Sport Medicine
7.8.1-1 Identification of Fast Bone Losers Using High Precision pQCT in Pre- and Postmenopausal Chinese Women 2760
in Hong Kong
Qin L, Au SK, Chan KM, Lau E, Lee KM, Cheng SH, Dambacher MA, Leung PC, The Chinese University of Hong Kong,
Hong Kong SAR
7.8.1-2 Enhanced Skeletal Muscle Healing and Regeneration by Purified Novel Mitogen(s) From Rats 2764
Li M, Jiao ZX, Cai DQ, Lee K, Liu MJ, Chan KM, The Chinese University of Hong Kong, Hong Kong SAR
7.8.1-3 Effect of Verbascoside on Reducing the Concentration of Oxygen Free Radicals of Skeletal Muscle During 2768
and After Exercise
Li JX, Chan KM, Lu JF, Xin D, U H, Gao JN, The Chinese University of Hong Kong, Hong Kong SAR
7.8.1-4 Analysis of Age Related Changes of Aqueous Proteins in Rat Soleus Using Two-Dimensional Electrophoresis 2772
Cai DQ, Jao ZX, Li M, Lee S, Lee KKH, Bing SJ, Chan KM, The Chinese University of Hong Kong, Hong Kong SAR
7.8.1-5 Snapshot Evaluation of Fatigue During Skiing Exercise 2775
Kiryu T, Abe T, Gocho T, Ushiyama Y, Okada M, Niigata University, Japan
xviii
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| spelling | Biomedical engineering towards the year 2000 and beyond Hong Kong SAR, China, October 29 - November 1, 1998 5 Neuro-muscular systems & biomechanics ed. by H. K. Chang ... Piscataway, NJ IEEE Operations Center 1998 XVIII S., S. 2243 - 2778, S. A-I - A-XI Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Proceedings of the annual international conference of the IEEE Engineering in Medicine and Biology Society 20,5 Proceedings of the ... annual international conference of the IEEE Engineering in Medicine and Biology Society 20 Chang, H. K. edt (DE-604)BV024137992 5 Proceedings of the annual international conference of the IEEE Engineering in Medicine and Biology Society 20,5 (DE-604)BV024643382 20,5 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018303632&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Biomedical engineering towards the year 2000 and beyond Hong Kong SAR, China, October 29 - November 1, 1998 Proceedings of the annual international conference of the IEEE Engineering in Medicine and Biology Society |
| title | Biomedical engineering towards the year 2000 and beyond Hong Kong SAR, China, October 29 - November 1, 1998 |
| title_auth | Biomedical engineering towards the year 2000 and beyond Hong Kong SAR, China, October 29 - November 1, 1998 |
| title_exact_search | Biomedical engineering towards the year 2000 and beyond Hong Kong SAR, China, October 29 - November 1, 1998 |
| title_full | Biomedical engineering towards the year 2000 and beyond Hong Kong SAR, China, October 29 - November 1, 1998 5 Neuro-muscular systems & biomechanics ed. by H. K. Chang ... |
| title_fullStr | Biomedical engineering towards the year 2000 and beyond Hong Kong SAR, China, October 29 - November 1, 1998 5 Neuro-muscular systems & biomechanics ed. by H. K. Chang ... |
| title_full_unstemmed | Biomedical engineering towards the year 2000 and beyond Hong Kong SAR, China, October 29 - November 1, 1998 5 Neuro-muscular systems & biomechanics ed. by H. K. Chang ... |
| title_short | Biomedical engineering towards the year 2000 and beyond |
| title_sort | biomedical engineering towards the year 2000 and beyond hong kong sar china october 29 november 1 1998 neuro muscular systems biomechanics |
| title_sub | Hong Kong SAR, China, October 29 - November 1, 1998 |
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