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Index
F
fair use legal doctrine,
application to hypertext; Jones, III, Esq.(109)-369
reasons for Xanadu elimination of; Samuelson(170)-43
farming,
information, Hypertext '93 technical briefing; Bernstein(305)-242
fast forwarding,
through a hypertext, flying defined as; Lai(176)-124
Faulkner, William,
multiple points of view, impact on interactive fiction; Bolter(89)-48
fault tolerance,
issues, graph-based data model solutions; Shackelford(224)-1
feedback,
contextual, need for more; Brown(88)-39
Guide, mechanism for providing; Brown(88)-36
fiction,
See Also Eastgate school; Landow; literature; narratives; poetry; research, humanities; writing;
authors,
Hogan, James, "Giant's Star" as inspiration for VISAR; Clitherow(135)-294
hypertext, Storyspace as an authoring environment for; Bolter(89)-41
hypertext theory; Michalak(238)-174
hypervideo; Sawhney(1)-1
interactive,
characteristics of; Bolter(89)-42
software for writing; Bolter(89)-41
structure of; Bolter(89)-47
social, cognitive, and political implications; Greco(9)-85
of "afternoon"; Moulthrop(133)-259
fields,
in Document Examiner records, structure and contents of; Walker(106)-309
figures,
as navigation aid, in OpenBook system; Ichimura(229)-63
file systems,
See Also hyperbases;
distributed, managing with a graph-based data model; Shackelford(224)-1
replacing with hyperbase, advantages of; Nuernberg(19)-196
fileboxes,
NoteCards, HAM modeling of; Campbell(87)-30
NoteCards card type,
aggregate generators in; Marshall(103)-255
characteristics of; Halasz(108)-348
for hierarchical filing structure; Trigg(93)-92
modeled by the HAM; Campbell(87)-30
specialized notecard in; Halasz(108)-346
use as work agenda in; Trigg(93)-97
filecards,
NoteCards card type, external file accessing mechanism in; Trigg(93)-93
files,
overview, graphic directory; Landow(56)-335
Filevision Telos Software,
bibliographic reference; Collier(104)-269
film,
See Also multimedia; video;
intersection with hypertext, in HyperCafe design; Sawhney(1)-6
filters,
See Also tailorability;
browser use as, in an industrial hypermedia environment; Malcolm(168)-21
by link role, Kiosk characterized by; Creech(169)-29
computation of, DSS shell architecture with a dynamic hypertext interface provision for; Bieber(182)-207
DSS shell architecture with a dynamic hypertext interface use of; Bieber(182)-207
fisheye view, CYBERMAP automatic overview map generation based on; Gloor(175)-109
in HAM; Campbell(87)-23
HAM mechanism, characteristics of; Campbell(87)-23
handling in layered information system architectures; Bieber(182)-212
hypermedia application; Akscyn(86)-1
as hypertext abstractions, mathematical model; Garg(110)-389
hypertext reader control of, impact on on the structure and meaning of information; Moulthrop(188)-292
information, in Garg's abstract hypertext model; Garg(110)-389
KMS support of; Akscyn(86)-3
link management, importance of filters for; Raskin(107)-328
as link tailoring mechanism; Schwabe(12)-152, Gronbaek(15)-158
links, Intermedia webs as; Catlin(178)-155
location problem solution; Oren(105)-296
in Microcosm; Wiil(14)-148
Microcosm, Extended Dexter model mapping of; Gronbaek(15)-158
object and link attributes use for, in an industrial hypermedia environment; Malcolm(168)-20
pre-built, software component library use of; Creech(169)-27
structures from content, frame-based hypertext templates use for; Kaindl(192)-352
user setting for information level and type, role in the coordination of information systems with a dynamic hypertext interface; Bieber(182)-211
find,
GOTO facility, Guide's attempt to eschew; Brown(88)-39
fine-grained hypertext,
EUCLID as an example of; Smolensky(101)-234
Firefly,
ECHT '92 paper; Buchanan(33)-262
HyperCafe relationship to; Sawhney(1)-2
FIRST (Fuzzy Information Retrieval SysTem),
ECHT '90 paper; Lucarella(147)-84
first-class objects,
classses as, in VODAK; Bapat(20)-210
links as; Schutt(148)-104, Hofmann(153)-171
importance of; Afrati(145)-54
paths as; Zellweger(54)-1
structures as,
application design implications; Nuernberg(19)-197
in hypermedia operating systems; Nuernberg(19)-196
Web pages as, with logic programming; Loke(23)-235
first-order logic,
in hypertext abstraction mechanisms; Garg(110)-375
fisheye views,
browsing,
rubber sheet layouts compared with; Kaltenbach(174)-92
use of in an industrial hypermedia environment; Malcolm(168)-21
in CYBERMAP; Gloor(175)-109
enhanced, ECHT '92 paper; Tochtermann(217)-212
future research plans for; Wiil(225)-145
integrating different levels of abstraction with; Noik(240)-192
location cue technique; Oren(105)-297
network display characteristics; Travers(124)-156
SuperBook System support of; Egan(189)-302
SuperBook use of; Remde(98)-177
FishSearch,
LogicWeb comparison with; Loke(23)-239
Flag taxonomy,
See Also classification; Dexter; Engelbart award; models; reference, models;
core concepts; Osterbye(13)-129
Hypertext '96 paper; Osterbye(13)-129
flat-text documents,
converting into hypertext, with CID; Boy(171)-51
flatland,
See Also structure(s);
flexibility,
in navigation and access, graphically-oriented query-based browsing systems; Charoenkitkarn(241)-206
locking scheme, DeVise Hypermedia system, a Dexter-compliant cooperative architecture supporting; Gronbaek(226)-25
flipping,
through OpenBook as browsing tool; Ichimura(229)-63
flying,
as a navigational aid; Lai(176)-123
navigation by; Lai(176)-124
focusing�,
on relationship between global context and local detail using fisheye views; Noik(240)-192
Fogelin,
R.J., bibliographic reference; Smolensky(101)-215
followLink operation,
Dexter definition; Halasz(299)-36, Halasz(299)-37
foraging,
See Also navigation;
for episodes, as description of the hypertext experience; Rosenberg(3)-23
form-based querying,
used by DIF; Garg(112)-415
formal connection model,
See Also models;
incremental construction of navigational and abstract interface models facilitated by; Schwabe(12)-124
formalisms,
See Also algorithms; mathematics;
AI knowledge structuring, contrasted with text structuring of hypertext; Kaindl(192)-345
Coexistence and Transformation of Informal and Formal Structures: Requirements for More Flexible Hypermedia Systems, ECHT '94 paper; Haake(243)-1
creating hypertext structure from linear documents with; Nanard(191)-331
for FIRST concept network; Lucarella(147)-85
formal hypertext models, set-based; Afrati(145)-55
frame representation; Hammwohner(97)-158
graph-based hypermedia, set-based hypermedia compared with; Parunak(184)-239
HyperBase (GMD) data model; Schutt(148)-100
knowledge representation, using in conjunction with unstructured information; Marshall(103)-254
Lange's formal model of hypertext, as hypermedia reference model; Osterbye(13)-129
lattices as foundation for hyperindices; Bruza(149)-109
link specification, predicate calculus use for; Garg(110)-391
logical query language specification; Beeri(146)-67
need to extend hypertext systems to support; Marshall(103)-267
Z-based formal model of Dexter hypertext reference model; Halasz(299)-
formatting,
consistency in, as graphics design principle used in Dickens Web; Catlin(178)-150
documents, guidelines for, as consistency aide for hypermedia design; Catlin(178)-147
standard templates compatibility, importance for hypertext integration into existing information environments; Bieber(182)-214
templates, DSS shell architecture with a dynamic hypertext interface use for interactive document structure identification; Bieber(182)-207
forms,
DIF, compared with DIF configurations; Garg(112)-416
information structures in DIF; Garg(112)-416
System Factory defines documents as; Garg(112)-413
in Web pages, adding behavior with; Loke(23)-237
fragmentation,
issues in student hypertext research papers; Ess(187)-287
Frame-Axis Model,
ECHT '94 paper; Masuda(257)-146
frames,
continguity relations representation; Oren(105)-300
contrasted with semantic net form of knowledge representation; Collier(104)-274
environment, integrating hypertext in; Kaindl(192)-346
formal representation of; Hammwohner(97)-158
as hypertext structure model; Rosenberg(3)-22
KMS,
characteristics of; Akscyn(86)-3
editing; Akscyn(86)-7
Extended Dexter model representation of; Gronbaek(15)-155
format of; Akscyn(86)-4
spatial nature of; Akscyn(86)-10
workspace; Akscyn(86)-1
modeling the semantics of text units with; Hammwohner(97)-158
representation,
Aquanet objects incorporation of; Marshall(186)-265
as a form of structured object representation; Kaindl(192)-346
nodes; Kaindl(192)-348
representing hypertext nodes with; Kaindl(192)-345
term definition; Kaindl(192)-347
frameworks,
See Also object-orientation;
adding hypermedia functionality to OO applications with; Schwabe(12)-126
Flag taxonomy role; Osterbye(13)-129
hypervideo; Sawhney(1)-5
source code level tailoring in conjunction with; Osterbye(13)-131
freeware,
Knowledge Weasel use of; Lawton(233)-106
FRESS,
See Also classification, pioneer systems; institutions, Brown University; people, Van Dam, Andreas;
as design idea source for the Dexter hypermedia reference model; Halasz(299)-30
front-end,
See Also open hypermedia systems (OHS);
communications language, importance for dynamic hypertext interfaces that are information system independent; Bieber(182)-211
hypermedia, command interpreter implications; Nuernberg(19)-197
importance relative to back end issues; Raskin(107)-328
systems, external, coordinating a dynamic hypertext interface with; Bieber(182)-213
full-text retrieval,
electronic document value; Walker(106)-313
flaws and problems in CD-ROM access; Oren(105)-298
integration with hypertext browsing in a medical handbook; Frisse(91)-57
limitations for hypertext networks; Frisse(91)-59
MICROARRAS system to be merged with WE; Smith(100)-210
functional,
dependencies, associative link attributes, using for hypertext modeling; Hara(173)-77
links, embodying function calls as links in a hypertext software model; Smith(180)-180
modules (FM), Flag taxonomy; Osterbye(13)-129
objects,
DIF, links as; Garg(112)-415
KMS, frames as; Akscyn(86)-1
KMS, links as; Akscyn(86)-7
properties, attaching to information units; Kaltenbach(174)-101
view, Kiosk classification lattices use for; Creech(169)-30
functions,
C source code, mapping to hypertext nodes in DynamicDesign; Bigelow(111)-403
fuzzy logic,
in FIRST concept network specification; Lucarella(147)-85