| HyperLecture: A Self-Organizing Lecture Presentation and Revision System | | BIBA | 11-26 | |
| Damian Conway | |||
| Towards an Adaptive Hypermedia Component for an Intelligent Learning Environment | | BIBA | 27-38 | |
| Peter Brusilovsky; Leonid Pesin; Mikhail Zyryanov | |||
| Teaching Art History through Multimedia Systems: Museum's Experience | | BIB | 38-44 | |
| Olga Kissel | |||
| An Intelligent Interface for Computer Assisted Language Learning | | BIBA | 45-58 | |
| Eve Wilson | |||
| Optimum Teaching System -- Illusion or Reality? | | BIB | 59-78 | |
| Yuriy Souldin | |||
| The Challenge of Effectively Integrating Graphics into Hypertext | | BIBA | 78-86 | |
| Keith Instone; Erik Brown; Laura Leventhal; Barbee Teasley | |||
| A Hypertext Model with Partly Defined Nodes | | BIBA | 87-92 | |
| Nicholas Sidorov; Svetlana Gorobets; Vladimir Kopach | |||
| INTELTEXT: Producing Coherent Linear Texts While Navigating in Large Non-Hierarchical Hypertexts | | BIBA | 93-102 | |
| Martin Subbotin; Dmitry Subbotin | |||
| Coherent Navigation in Hypertext Environments: Using a Computer-Shared Macrocontrol Based on Structural Strategies of Discourse Comprehension and Production (The SMIsC Conception) | | BIBA | 103-122 | |
| Valery M. Chelnokov; Victoria L. Zephyrova | |||
| HyperMethod: An Intelligent Interface for Hypertext | | BIBAK | 123-131 | |
| Igor V. Kotelnikov; Dmitry L. Krechman | |||
| Historical Analysis and Conflicting Perspectives -- Contextualizing HCI | | BIBA | 132-142 | |
| Susanne Bødker | |||
| A Brief Look at the Psychological and Linguistic Foundations of HCI | | BIBA | 143-159 | |
| Boris Enikeev; Yuriy Kaganov; Dmitriy Zhuk | |||
| Visual User Interfaces: A Psychophysiologist's Perspective | | BIBA | 159-163 | |
| Vladimir M. Krol | |||
| Hierarchical Components of Human-Computer Systems: Issues | | BIBA | 163-179 | |
| Mark Sh. Levin | |||
| Iconic Signs and Languages in User Interface Design | | BIBA | 180-190 | |
| Vladimir Andreev; Gennady Uzilevsky | |||
| Impediments to the Process of Group Work | | BIBAK | 191-207 | |
| Beth Adelson | |||
| Computer-Aided Support of Cooperative Group Design | | BIB | 207-218 | |
| I. V. Kotenko; O. E. Ryabov | |||
| Interacting with Proprietary Software Users: An Application for Activity Theory? | | BIBA | 219-226 | |
| Insiah Bourke; Irina Verenikina; Edward Gould | |||
| Query Composition: Why Does It Have to be So Hard? | | BIBA | 226-241 | |
| Lucy Terry Nowell; Deborah Hix; Eric D. Labow | |||
| Interface Semantics and Procedural Knowledge: A Study of Novice Understanding of MacDraw | | BIBA | 241-256 | |
| M. V. Springett; A. S. Grant; A. G. Sutcliffe | |||
| Language Expressiveness in Software Visualization Systems | | BIBA | 5-8 | |
| V. L. Averbukh; I. V. Tarskikh | |||
| E{cubed}: Towards the Metrication of Graphical Presentation Techniques for Large Data Sets | | BIBA | 9-26 | |
| Ying K. Leung; Mark D. Apperley | |||
| Navigating in a Process Landscape | | BIBA | 26-38 | |
| Haakon Tolsby | |||
| Visualisation of Complex Information | | BIBA | 38-50 | |
| Matthew Chalmers | |||
| Three-Dimensional Visualisation of Knowledge Structures: Prototyping for Design Evaluation | | BIBA | 50-70 | |
| U. K. Patel; A. G. Sutcliffe | |||
| Visual Programming in R-Technology: Concepts, Systems and Perspectives | | BIBA | 71-88 | |
| Igor Ushakov; Igor Velbitskiy | |||
| Coupling Interaction Specification with Functionality Description | | BIBA | 88-97 | |
| A. Kameas; S. Papadimitriou; G. Pavlides | |||
| WYSIWYG Editors: And What Now? | | BIBAK | 98-115 | |
| Eddy Boeve; Lon Barfield; Steven Pemberton | |||
| An Extension to the Human-Computer Interaction Paradigm | | BIBA | 115-123 | |
| R. C. MacGregor | |||
| Designing Multimedia Interfaces | | BIBA | 123-133 | |
| Alistair Sutcliffe; Peter Faraday | |||
| Synthesis-Oriented Situational Analysis in User Interface Design | | BIBAK | 134-150 | |
| Kevin A. Mayo; H. Rex Hartson | |||
| Architecture Elements for Highly-Interactive Business-Oriented Applications | | BIBA | 151-173 | |
| Francois Bodart; Anne-Marie Hennebert; Jean-Marie Leheureux; Benoit Sacre; Isabelle Provot; Jean Vanderdonckt | |||
| Three Interface Levels | | BIB | 174-176 | |
| M. V. Donskoy | |||
| Personal Counselor: A Hybrid Adaptive User Interface | | BIBA | 177-193 | |
| Max M. North; Sarah M. North | |||
| Generating Self-Adaptive Human-Computer Interfaces | | BIBA | 193-202 | |
| Aline Montoy-Berthome | |||
| The Practical Use of Macro Recording: A Case Study | | BIBAK | 203-210 | |
| Allen Cypher | |||
| Addressing Usability by Customising Interfaces for Organisations | | BIBAK | 210-220 | |
| Colin Tattersall; Peter Plantfeber | |||
| The MSM Framework: A Design Space for Multi-Sensori-Motor Systems | | BIBA | 220-232 | |
| Joelle Coutaz; Laurence Nigay; Daniel Salber | |||
| Radiological Reporting Based on Voice Recognition | | BIBA | 233-246 | |
| G. Antoniol; R. Fiutem; R. Flor; G. Lazzari | |||
| Task Interference with a Discrete Word Recognizer | | BIBA | 246-252 | |
| Caryn Hubbard; James H. Bradford | |||
| Model of Utterance and Its Use in Cooperative Response Generation | | BIBA | 252-264 | |
| Koichi Yamada; Riichiro Mizoguchi; Naoki Harada; Akira Nukuzuma; Keiichi Ishimaru; Hiroshi Furukawa | |||
| Special Computer Interfaces for the Visually Handicapped: F.O.B. the Manufacturer | | BIBA | 265-273 | |
| Arthur I. Karshmer; Richard L. Oliver | |||
| Experts' Assessments of Robustness, Stability, and Sources of Expertise in the Programming Process | | BIBA | 5-17 | |
| Brad Blumenthal | |||
| Structuring the Field of HCI: An Empirical Study of Expert Representations | | BIBA | 18-28 | |
| Peter Brusilovsky; Ivan Burmistrov; Victor Kaptelinin | |||
| Testing ADAT -- An Automated Debugger for Ada Tasks | | BIBA | 29-44 | |
| Arthur V. Lopes; Thomas J. Nagy | |||
| Positive Test Bias in Software Testing among Professionals: A Review | | BIBA | 45-54 | |
| Laura Marie Leventhal; Barbee M. Teasley; Diane S. Rohlman; Keith Instone | |||
| Applying the Wizard of Oz Technique to the Study of Multimodal Systems | | BIBA | 55-67 | |
| Daniel Salber; Joelle Coutaz | |||
| A Sociological and Psychological Portrait of a Computer Network User | | BIBA | 68-75 | |
| Olga Arestova; Leonid Babanin; Alexander Voiskounsky | |||
| A System to Model, Assist and Control the Human Observation of Microscopic Specimen | | BIBA | 75-85 | |
| A. Derder; C. Garbay | |||
| On Applications of the Statistical Software System "CLAVDIA" to Some Problems of Medical Diagnostics | | BIBA | 85-100 | |
| Vladimir S. Stepanov; Eduard A. Gukasian; Boris N. Filatov; Svetlana P. Grabovskaja | |||
| Task-Oriented Robot Control | | BIBA | 100-104 | |
| A. S. Jushenko; I. V. Maslov | |||
| Software Advertising in the Press | | BIBA | 105-108 | |
| Alexander E. Voiskounsky; Anna V. Kuznetsova | |||
| Problems in Elaborating Computing Technology in the Agricultural Business | | BIB | 109-112 | |
| B. S. Kasaev | |||
| The "Document-Driven Activity" Approach to Modelling and Designing Office Automation Systems | | BIBA | 112-120 | |
| Alexander Chernin | |||
| Development of an Instrument for Human Organism Complex Diagnostic | | BIB | 120-123 | |
| Igor Scorodumov | |||
| Computer-Aided Knowledge Engineering: An Interface-Centred Approach | | BIBA | 123-129 | |
| Tatjana Gavrilova; Andrey Zolotarev; Sergey Yeremenko | |||
| DI*GEN: The Shell for Building of Diagnostic Expert Systems | | BIBA | 129-132 | |
| Serge Greenberg; Tatyana Yakhno | |||
| The Efficient Implementation of Declarative Knowledge Representation in a Problem-Oriented Expert System Shell | | BIBAK | 132-136 | |
| Serge Greenberg; Tatyana Yakhno | |||
| An Expert System for Tutoring in Information Networks | | BIB | 136-138 | |
| Andrew Dziengelewski; Victor Rumyancev; Aleksew Zarovny | |||
| An Interactive Computer Simulation of Catastrophic Earthquake Cycles | | BIBA | 138-140 | |
| Grigoriy Kazakevich; Leopold Lobkovsky; Vladimir Tochitsky | |||