| The Travails of Visually Impaired Web Travellers | | BIB | PDF | 1-10 | |
| Carole Goble; Simon Harper; Robert Stevens | |||
| An Orthogonal Taxonomy for Hyperlink Anchor Generation in Video Streams using OvalTine | | BIB | PDF | 11-18 | |
| Jason McC. Smith; David Stotts; Sang-Uok Kum | |||
| Generating Presentation Constraints from Rhetorical Structure | | BIB | PDF | 19-28 | |
| Lloyd Rutledge; Brian Bailey; Jacco van Ossenbruggen; Lynda Hardman; Joost Geurts | |||
| Reusable Hypertext Structures for Distance and JIT Learning | | BIB | PDF | 29-38 | |
| Anne Morgan Spalter; Rosemary Michelle Simpson | |||
| Linking by Interacting: A Paradigm for Authoring Hypertext | | BIB | PDF | 39-48 | |
| Maria da Graca Pimentel; Gregory D. Abowd; Yoshihide Ishiguro | |||
| Automatic Creation of Exercises in Adaptive Hypermedia Learning Systems | | BIB | PDF | 49-55 | |
| Stephan Fischer; Ralf Steinmetz | |||
| Integrating Infrastructure: Enabling Large-Scale Client Integration | | BIB | PDF | 57-66 | |
| Kenneth M. Anderson; Christian Och; Roger King; Richard M. Osborne | |||
| Investigating Link Service Infrastructures | | BIB | PDF | 67-76 | |
| David C. De Roure; Nigel G. Walker; Leslie A. Carr | |||
| A Pragmatics of Links | | BIB | PDF | 77-84 | |
| Susana Pajares Tosca | |||
| Arguments in Hypertext: A Rhetorical Approach | | BIB | PDF | 85-91 | |
| Locke M. Carter | |||
| FOHM: A Fundamental Open Hypertext Model for Investigating Interoperability between Hypertext Domains | | BIB | PDF | 93-102 | |
| Dave E. Millard; Luc Moreau; Hugh C. Davis; Siegfried Reich | |||
| Naming as a Fundamental Concept of Open Hypermedia Systems | | BIB | PDF | 103-112 | |
| Manolis Tzagarakis; Nikos Karousos; Dimitris Christodoulakis; Siegfried Reich | |||
| Hypermedia in the Virtual Project Room -- Toward Open 3D Spatial Hypermedia | | BIB | PDF | 113-122 | |
| Preben Mogensen; Kaj Grønbæk | |||
| Defining Logical Domains in a Web Site | | BIB | PDF | 123-132 | |
| Wen-Syan Li; Okan Kolak; Quoc Vu; Hajime Takano | |||
| Organizing Topic-Specific Web Information | | BIB | PDF | 133-141 | |
| Sougata Mukherjea | |||
| Clustering Hypertext with Applications to Web Searching | | BIB | PDF | 143-152 | |
| Dharmendra S. Modha; W. Scott Spangler | |||
| The Pleasure Principle: Immersion, Engagement, Flow | | BIB | PDF | 153-160 | |
| Yellowlees Douglas; Andrew Hargadon | |||
| Toward an Organic Hypertext | | BIB | PDF | 161-170 | |
| Robert Kendall; Jean-Hugues Rety | |||
| Hypertext Interaction Revisited | | BIB | PDF | 171-179 | |
| Gene Golovchinsky; Catherine C. Marshall | |||
| Finding Linking Opportunities through Relationship-Based Analysis | | BIB | PDF | 181-190 | |
| Joonhee Yoo; Michael Bieber | |||
| Ontology-Supported and Ontology-Driven Conceptual Navigation on the World Wide Web | | BIB | PDF | 191-199 | |
| Michel Crampes; Sylvie Ranwez | |||
| Automatically Generated Hypertext Versions of Scholarly Articles and their Evaluation | | BIB | PDF | 201-210 | |
| James Blustein | |||
| XLink and Open Hypermedia Systems: A Preliminary Investigation | | BIB | PDF | 212-213 | |
| Brent Halsey; Kenneth M. Anderson | |||
| Providing Hypertextual Functionalities with XML | | BIB | PDF | 214-215 | |
| Luca Bompani; Fabio Vitali | |||
| More than Legible: On Links that Readers Don't Want to Follow | | BIB | PDF | 216-217 | |
| Mark Bernstein | |||
| Text and Hypertext: Always a Binary Relationship? | | BIB | PDF | 218-219 | |
| Licia Calvi | |||
| Visualizing Interaction History on a Collaborative Web Server | | BIB | PDF | 220-221 | |
| Andreas Dieberger; Peter Lonnqvist | |||
| Context-Aware Hypermedia in a Dynamically-CHanging Environment, Supported by a High-Level Petri Net | | BIB | PDF | 222-223 | |
| Jin-Cheon Na; Richard Furuta | |||
| A User Interface Combining Navigation Aids | | BIB | PDF | 224-225 | |
| Mountaz Hascoet | |||
| Content Permanence via Versioning and Fingerprinting | | BIB | PDF | 226-227 | |
| Jonathan Simonson; Daniel Berleant; Ahmed Bayyari | |||
| Posties: A WebDAV Application for Collaborative Work | | BIB | PDF | 228-229 | |
| Joachim Feise | |||
| Designing User Interfaces for Collaborative Web-Based Open Hypermedia | | BIB | PDF | 230-231 | |
| Niels Olof Bouvin | |||
| Making a Successful Case for a Hypertextual Doctoral Dissertation | | BIB | PDF | 232-233 | |
| Christine Boese | |||
| Structure Problems in Hypertext Mysteries | | BIB | PDF | 234-235 | |
| Chris Willerton | |||
| From Cinematographic to Hypertext Narrative | | BIB | PDF | 236-237 | |
| Clara Mancini | |||
| A Semiotic Analysis of iMarketing Tools | | BIB | PDF | 238-239 | |
| Moritz Neumuller | |||
| Analysis of the Authoring Process of Hypertext Documents | | BIB | PDF | 240-241 | |
| Margit Pohl; Peter Purgathofer | |||
| Towards the Prediction of Development Effort for Web Applications | | BIB | PDF | 242-243 | |
| Emilia Mendes; Wendy Hall | |||
| Automatically Linking Multimedia Meeting Documents by Image Matching | | BIB | PDF | 244-245 | |
| Patrick Chiu; Jonathan Foote; Andreas Girgensohn; John Boreczky | |||
| Creation of Interactive Media Content by the Reuse of Images | | BIB | PDF | 246-247 | |
| Tsutomu Miyasato | |||
| Generating Instructional Hypermedia with APHID | | BIB | PDF | 248-249 | |
| Judi R. Thomson; Jim Greer; John Cooke | |||
| Adaptability in KDAEHS: An Adaptive Educational Hypermedia System Based on Structural Computing | | BIB | PDF | 250-251 | |
| Haiyan Xu; Xuehai Zhou; Jinfeng Ni; Zhenxi Zhao | |||
| Personal Information Everywhere (PIE) | | BIB | PDF | 252-253 | |
| Boaz Carmeli; Benjamin Cohen; Alan J. Wecker | |||
| Navigational Correlates of Comprehension in Hypertext | | BIB | PDF | 254-255 | |
| John E. McEneaney | |||
| Irresistible Forces and Immovable Objects | | BIBA | PDF | 259 | |
| Jonathan Grudin | |||
| We cannot predict the future, but we don't want to design it entirely by
trial and error. Our imaginations encompass everything from utopia to
nightmare; we need to constrain the space of possibilities.
Earlier technologies led to a mix of deterministic outcomes and individual or social choices in their use. I am of the persuasion that the Web and wireless technologies are "irresistible forces" that will merge and transform the world more than all but a handful of past technologies. But not everything is possible. The most immovable of objects is human biology: basic human perceptual, cognitive, affective, and social psychology, the product of millions of years of evolution. In addition, present-day social organization, the result of thousands of years of evolution, has become extremely complex. Evolution is not over in either case, but it will occur very slowly. Human psychology and existing social organization will strongly constrain the use of new technologies. Technology interacting with hard psychological and social realities will create both liberating and conservative pressures. By understanding the interplay of these expansive and constraining forces, we can better identify the space in which we can work to make a difference. | |||
| Achieving Practical Development-Merging Skill Bases | | BIB | PDF | 262-263 | |
| David Lowe; Deena Larsen; Bill Bly; Robert Kendall; Les Carr; Peter Nurnberg; Lawrence Clark | |||
| A Development Environment for Building Component-Based Open Hypermedia Systems | | BIB | PDF | 266-267 | |
| Uffe K. Wiil; Peter J. Nurnberg; David L. Hicks; Siegfried Reich | |||
| Providing Flexibility within Hypertext Systems: What We've Learned at HT Workshops, CyberMountain, and Elsewhere | | BIB | PDF | 268-269 | |
| Deena Larsen | |||