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	intuitive interface value to computer-naive students; Ess(187)-282
Macromedia Director 4.04, 
	HyperCafe use; Sawhney(1)-8
	as hypermedia application, requirements for hypermedia engine support; Bapat(20)-205
	Hypertext '91 paper; Nanard(191)-329
	type information stored in link menus; Rosenberg(3)-22
	typing anchors in, as method of adding; Nanard(228)-51
	as variable node precursor; Kendall(8)-77
magic button, 
	Unix Guide solution to the GOTO link problem; Brown(88)-38
	agent category in I-SHYS; Garg(112)-419
	See Also systems issues; 
	application semantics, by hypermedia engines, issues; Bapat(20)-203
	flight, airlines hypermedia needs; Malcolm(168)-14
	frame-based hypertext advantages for; Kaindl(192)-354
	hyperdocument, guidelines for; Brown(141)-10
	intelligent hypertext support for; Hayes(121)-119
		Hyperties application; Shneiderman(99)-191
		online, for USS CARL VINSON; Akscyn(86)-2
	voice systems repair dialog, MIT Media Lab hyperspeech system characteristics and sample dialog; Arons(25)-140
	gent category in I-SHYS; Garg(112)-418
	control systems, HyperSet analysis use; Parunak(230)-73
	hypermedia requirements for support of, 
		in a concurrent engineering environment; Malcolm(168)-14
		in large engineering companies; Malcolm(168)-13
	clustering relationships, as ACE proposed extension; Hara(173)-87
	relationships, indexing techniques for, importance for large hypertexts; Hara(173)-77
	application objects to hypertext entities, using bridge laws; Bieber(182)-209
	back-end information system to hypertext entities, bridge laws role in; Bieber(182)-210
	between link markers and anchors, Dexter compared with Flag; Osterbye(13)-130
	filters, in Extended Dexter model; Gronbaek(15)-158
	generic links, in Extended Dexter model; Gronbaek(15)-158
	object-oriented structure onto a hypertext; Nanard(191)-330
	contiguity relation representation; Oren(105)-300
	structure, in NoteCards; Marshall(103)-255
	virtue of paper documentation; Oren(105)-294
markup languages, 
	See Also HTML (Hypertext Markup Language); 
	gdl subroutine library management of, in a dynamic link-resolution architecture; Tompa(234)-118
	SGML (Standard Generalized Markup Language), 
		HieNet use for text representation of document structures; Wiil(225)-145
		integrating large heterogeneous texts with; Tompa(234)-118
		MacWeb use for document base; Nanard(228)-51
	SuperBook ability to handle; Remde(98)-186
	use by SuperBook; Remde(98)-175
	See Also formalisms; 
	formal hypertext models, set-based; Garg(110)-375, Afrati(145)-55
	fuzzy logic, in FIRST concept network specification; Lucarella(147)-85
	lattices, as information retrieval model; Bruza(149)-109
	logical query language specification; Beeri(146)-68
		animation of, rubber sheet layout use for; Kaltenbach(174)-100
		presentation of complex; Kaltenbach(174)-101
		rubber sheet layouts as interface for; Kaltenbach(174)-96
		advantages for evaluation of arguments; Marshall(103)-259
		use with Rational Actor Model for representing international events; Marshall(103)-256
	summary cards, concept used in NoteCards version of Rational Actor Model; Marshall(103)-256
	IWHD '95 paper; Bernard(59)-33
MAVIS (Microcosm Architecture for Video, Image, and Sound), 
	See Also Himotoki; HyperCafe; Miyabi; 
	Hypertext '96 paper; Lewis(21)-215
	IWHD'95 paper; Wilkins(65)-1
MAX real-time hypertext-DSS system, 
	Hypertext '91 paper; Bieber(182)-203
	U.S. Coast Guard use; Bieber(182)-204
MBone (multimedia backbone), 
	Wax multicast significance; Sawhney(1)-9
MCC Software Technology Program, 
	support for CSCW through the Design Journal project; Conklin(102)-247
McLuhan, Marshall, 
	hypertext rhetoric considered in terms of; Moulthrop(188)-294
	medium is the message principle, illustrated in impact of links on content; Landow(56)-332
	See Also semantics; 
	dynamic construction of; Thuring(179)-164
	global, of a hypertext, aids for helping readers to extract; Thuring(179)-165
	multiple layers of, expressing in diverse hypertext structures over the same information; Moulthrop(188)-291
	readers as co-creators of, hypertext enhancement of; Moulthrop(188)-292
	rhetoric as bridge between technology and meaning; Moulthrop(188)-292
	See Also audio; dynamic; images; multimedia; open hypermedia systems (OHS); spatial; time; video; 
	based navigation, 
		in Himotoki; Hirata(2)-11
		with generic links; Lewis(21)-215
	coordination layer, format conversion tasks handled by; Shibata(231)-82
	dynamic and static, combination of into one presentation; Hardman(39)-183
	format conversion, knowledge agent role in; Shibata(231)-82
	media-based navigation, in Miyabi; Hirata(237)-159
	misunderstandings of new; Moulthrop(188)-294
		negative effect on hypertext utilization; Moulthrop(188)-294
	non-text, HyTime suitability question as hypermedia context; Buford(11)-108
	non-textual, Knowledge Weasel support for; Lawton(233)-106
	objects, addressing, HyTime support of; Buford(11)-111
	of communication, impact on structure and meaning; Moulthrop(188)-292
	print, increased student use as a consequence of Intermedia use; Ess(187)-287
	sound, issues involved with annotating; Lawton(233)-106
	support for different kinds and formats, in HyperStorM abstract hypermedia engine; Bapat(20)-209
	synchronization, issues for wide-area hypermedia networks; Shibata(231)-82
	transport protocol; Shibata(231)-82
Media-Mix Book, 
	Videobook relationship to, bibliographic reference; Ogawa(144)-38
	See Also MOO (MUD Object Oriented); 
	location, http://purple-crayon.media.mit.edu port 8888/; Dieberger(17)-172
MediaPreview Multimedia Document Model, 
	IWHD '95 paper; Shimizu(62)-43
	dangers of false impression of search completeness for; Oren(105)-298
	Dynamic Medical Handbook, GraphLog relation to; Consens(134)-284
	education, Intermedia use for; Beeman(92)-67
	Hypertext Medical Handbook; Frisse(91)-57
	information management problems faced by doctors; Frisse(91)-57
	medical handbook; Frisse(128)-199
	therapeutics, using hypertext for; Frisse(91)-57
	media-based navigation using, in Miyabi; Hirata(237)-159
Memex; Kendall(8)-75
	See Also Bush Symposium; classification, pioneer systems; 
	application of concept to medical information-management problems; Frisse(91)-58
	as non-linear information manager; Marshall(186)-261
	trails, as path mechanism; Zellweger(54)-6
	aids to in Document Examiner; Walker(106)-319
	cognitive prostheses for, effectiveness evaluation; Wright(167)-7
	human, dynamic hypertext as metaphor and reflection of; Kendall(8)-75
	hypertext impact on; Wright(167)-1
		See Also hypermedia operating systems; 
		See Also system issues; 
		See Also systems issues; 
		structure-caching processes implications for in hypermedia operating systems; Nuernberg(19)-196
	personal memory aid, as hyperspeech application; Arons(25)-134
	reader, analysis of impact of alternative navigation methods on; Wright(167)-7
mental models, 
	See Also artificial intelligence (AI); ASK systems; cognitive; models; representation; 
	computer reflection of mind; Kendall(8)-75
	dynamic hypertext as metaphor and reflection of mind; Kendall(8)-75
	importance for reader understanding; Thuring(179)-161
	issues about what models readers of hypertext form; Charney(94)-112
	representation of, as support for management decision making; Kaindl(192)-346
	structure, WWW browser history-list, user errors in; Jones(16)-166
	virtual environments; Dieberger(17)-172
	context sensitive, use to constrain user actions in gIBIS; Conklin(102)-249
	discourse cues for hypertext; Charney(94)-114
	embedded, Hyperties use of; Shneiderman(99)-189
	link management through; Landow(56)-336
	flow diagrams, ABC tools for building graph structured; Smith(180)-189
		active text implemented with, in frame-based hypertext; Kaindl(192)-349
		making hypertext nodes more dynamic using; Kaindl(192)-345
	See Also abstractions; complexity management; 
	analysis of benchmark research; Nielsen(131)-239
		defining for abstract hypermedia model, inter-semantic-relationship considerations; Bapat(20)-209
		modeling semantic relationships among application classes with; Bapat(20)-207
		semantic relationships defining; Bapat(20)-207
		VODAK, as extensions of VODAK's data model; Bapat(20)-207
		VODAK, characteristics of; Bapat(20)-207
		HBMS management of; Wiil(14)-140
		hypermedia structures as; Nuernberg(19)-194
		managers, distinguished from applications; Nuernberg(19)-200
	information, maintenance for links and webs, as an industrial hypermedia requirement; Malcolm(168)-21
	language, HyTime as; Buford(11)-106
		in I-SHYS, types and characteristics; Garg(112)-420
		intelligent agent role; Garg(112)-419
	dynamic wide-area hypermedia network links; Shibata(231)-82
	dynamic wide-area hypermedia network nodes; Shibata(231)-82
	See Also virtual, reality; 
	card-based hypertext, Botafogo's use in aggregate research; Botafogo(172)-64
		with an expert; Cleary(4)-31
		with friends; Bernstein(81)-229
	human memory, dynamic hypertext as; Kendall(8)-75
	interfaces, implementation by ADV in OOHDM; Schwabe(12)-123
		architecture; Dieberger(17)-176
		bookshelf; Dieberger(17)-175
		buildings; Dieberger(17)-176
		cities; Dieberger(17)-176
		in MOO environments; Dieberger(17)-172
		in MOO systems based on; Dieberger(17)-171
		lecture; Dieberger(17)-175
		See Also Nick Hammond's CHI paper; 
		shopping malls; Dieberger(17)-176
		slide projector; Dieberger(17)-175
		slide show; Dieberger(17)-175
		subway system; Dieberger(17)-176
		tour bus; Dieberger(17)-176
		flatland; Tolva(7)-66
		mola; Tolva(7)-66
	See Also algorithms; design; object-orientation; 
	attaching to types, in MacWeb; Nanard(191)-337
	block diagonal, ACE compared with; Hara(173)-79
	scholarly, specific; Crane(90)-51
	use in KEE frame-based hypertext; Kaindl(192)-347
MHEG standard, 
	See Also standards; 
	HyTime comparison with as network realtime delivery standard; Buford(11)-112
	script player, HyOctane HyTime engine support of; Buford(11)-113
Micons (miniaturized movie loops), 
	See Also video; 
	digital video contrasted with; Sawhney(1)-2
	Toulmin, as a knowledge structure, (figure); Marshall(186)-262
	full-text retrieval system, to be merged with WE; Smith(100)-210
	See Also Himotoki; Miyabi; open hypermedia systems (OHS); 
	buttons, Extended Dexter model representation of; Gronbaek(15)-154
	ECHT '90 paper; Fountain(164)-298
	ECHT '92 paper; Davis(214)-181
	ECHT '94 paper; Hill(246)-32, Davis(247)-41
	Extended Dexter model representation of; Gronbaek(15)-154
		as link tailoring mechanism; Osterbye(13)-132
		Extended Dexter model mapping of; Gronbaek(15)-158
	Flag taxonomy classification as link server system; Osterbye(13)-131
	generic links, Extended Dexter model mapping of; Gronbaek(15)-158
		comparison with; Wiil(14)-148
		precursor; Wiil(14)-140
	as inspiration for Devise Hypermedia framework; Gronbaek(15)-149
	integration model; Wiil(14)-147
	IWHD '95 paper; Hill(75)-193
	as link server hypermedia platform; Wiil(14)-147
	MAVIS; Lewis(21)-215, Wilkins(65)-1
	as open architecture hypermedia system; Lewis(21)-215
	as open hypermedia system; Osterbye(13)-129
	Universal Viewer, ECHT'94 paper; Davis(247)-41
	WWW interface; Bernard(59)-1, Hill(75)-1
	characteristics as PHI implementation; McCall(152)-154
MIME (Multipurpose Internet Mail Extensions), 
	Dynamic Documents definintion of a new type; Loke(23)-239
	See Also artificial intelligence (AI); cognitive; mental models; rhetoric; 
	computer reflection of; Kendall(8)-75
	dynamic hypertext as metaphor and reflection of; Kendall(8)-75
	See Also Himotoki; MAVIS (Microcosm Architecture for Video, Image, and Sound); Microcosm; multimedia; navigation; 
	algorithm use in Himotoki image navigation; Hirata(2)-18
	media-based navigation using; Hirata(237)-159
model-based approaches, 
	Trans-ASK, an artificial intelligence-based hypermedia system; Bareiss(232)-94
	as fundamental knowledge acquisition activity; Hofmann(153)-168
	See Also API (application program interface); behavior; 
	abstract; Bareiss(232)-94, Nanard(228)-51
		hypertext, Afrati and Koutras extensions of Garg's abstract hypertext model; Afrati(145)-52
	abstract hypertext; Garg(110)-379
	abstract interface, 
		OOHDM design of; Schwabe(12)-116
		specifying in OOHDM; Schwabe(12)-123
	artificial intelligence; Bareiss(232)-94
	author; Michalak(238)-174
	boolean retrieval; Salton(235)-131
	complex interrelationships, support required for hyperbases; Wiil(225)-14
	concept, OOHDM design process; Schwabe(12)-120
	connections among objects with link labels in Thoth-II; Collier(104)-276
	context; Hardman(39)-183
	conversational; Bareiss(232)-94
		abstract hypermedia, semantic relationships in; Bapat(20)-207
		advantages of object-oriented; Schwabe(12)-126
		application; Bapat(20)-203
		application-specific, importance of expressing in terms of hypermedia engine functionality; Bapat(20)-203
		application-specific requirements; Bapat(20)-205
		as attribute for comparing open hypermedia systems; Osterbye(13)-129
		component types; Osterbye(13)-130
		computation of elements of, as hypermedia platform dimension; Wiil(14)-141
		DeVise Hypermedia (DHM); Bapat(20)-205
		extensibility of, as hypermedia platform dimension; Wiil(14)-141
		Flag taxonomy relationship to Dexter storage layer; Osterbye(13)-130
		flow, for hypertext technology development; Perlman(117)-61
		graph-based; Shackelford(224)-1
		graphs as tools to enhance the semantics of; Lucarella(227)-39
		HAM; Bapat(20)-204
		HB1, Extended Dexter compared with; Gronbaek(15)-150
		HB3; Bapat(20)-204
		HyperBase; Wiil(225)-14
		HyperBase (Aalborg); Bapat(20)-204
		HyperBase (GMD-IPSI); Bapat(20)-204
		Hyperform; Bapat(20)-204
		hypermedia system design, Extended Dexter model provision of; Gronbaek(15)-150
		hypermedia system differences in the handling of; Osterbye(13)-131
		HyperStorM; Bapat(20)-206
		knowledge types encoded in, in MacWeb; Nanard(228)-51
		limitations of current systems; Bapat(20)-206
		semantic gap between hypermedia engines and applications; Bapat(20)-205
		TecPad; Bapat(20)-205
		VODAK OODBMS; Bapat(20)-204
	emergent structure, not represented in Dexter; Rosenberg(3)-26
	energetics, Hypertext'89 paper; Schnase(127)-181
	entity-relationship; Hirata(237)-159
	formal, motivation for; Afrati(145)-54
	formal connection, incremental construction of navigational and abstract interface models facilitated by; Schwabe(12)-124
	Frame-Axis, ECHT'94 paper; Masuda(257)-146
	frame-based hypertext use for; Kaindl(192)-350
		ECHT'92 paper; Amann(216)-201
		ECHT'94 paper; Amann(262)-198
	graph-based; Lucarella(227)-39, Wiil(225)-14, Shackelford(224)-1
	HAM used to model, 
		Guide; Campbell(87)-25
		Intermedia; Campbell(87)-28
		NoteCards; Campbell(87)-30
		as hypermedia application design model; Gronbaek(15)-150
		information reuse issue analysis in terms of; Garzotto(10)-93, Garzotto(10)-94
		link categories, Extended Dexter model relationship to; Gronbaek(15)-150
		OOHDM relationship to; Schwabe(12)-126
	HOSS, structure layer concurrency control issues; Nuernberg(19)-201
	HyperDisco; Wiil(14)-141
		HAM; Bapat(20)-203
		HB3; Bapat(20)-203
		HyperBase (Aalborg); Bapat(20)-203
		HyperBase (GMD-IPSI); Bapat(20)-203
		Hyperform; Bapat(20)-203
	HyperStorM; Bapat(20)-203
	HyTime, evaluation of; Buford(11)-105
	information retrieval, 
		Boolean; Crouch(130)-226
		Hypertext'89 paper; Croft(129)-213
		hypertext-based, ECHT'90 paper; Lucarella(147)-81
		vector space; Crouch(130)-227
	information scope, with context; Hardman(39)-183
	ISM-CSA; Ichimura(229)-63
	knowledge; Bareiss(232)-94
		object-oriented; Nanard(228)-51
	layered; Nanard(228)-51
	links with first order logic predicates; Bieber(182)-209
	mathematical, for hypertext; Garg(110)-379, Afrati(145)-54
	media-based navigation; Hirata(237)-159
		See Also ASK systems; 
		virtual environments; Dieberger(17)-172
		WWW browser history-list, user errors in; Jones(16)-166
		OOHDM design process; Schwabe(12)-121
		WWW browsers, Netscape and Mosaic; Jones(16)-162
	nested context, Hypertext'91 paper; Casanova(181)-193
	node-link, spatial as alternative to; Marshall(242)-217
	object; Nanard(228)-51
	of offices, MOO use for; Dieberger(17)-177
	OMT, web site design with; Schwabe(12)-120
	passive viewer, value of; Oren(105)-301
	Petri net, Trellis, ECHT '90 paper; Stotts(155)-181
	political structures, with NoteCards; Marshall(103)-263
		for hypertext technology development; Perlman(117)-61
		hypermedia operating system requirements; Nuernberg(19)-199
	programming languages as models for hypertext; Brown(88)-34
	query-based browsing; Charoenkitkarn(241)-206
	Rational Actor Model, policy decision making with, using NoteCards; Marshall(103)-256
	reactive, defining human interface model; Schwabe(12)-127
	reader; Michalak(238)-174
	real-world interrelationships, Aquanet use for; Marshall(186)-262
		Amsterdam; Hardman(39)-183
		Dexter; Hardman(39)-183, Gronbaek(226)-25, Nanard(228)-51, Lucarella(227)-39, Shackelford(224)-1
		See Amsterdam Hypermedia Model (AHM); 
		See Dexter hypertext reference model; 
		See Extended Dexter model; 
		See Flag taxonomy; 
		See HAM (Hypertext Abstract Machine); 
		See HyperDisco; 
		See Trellis; 
		Strawman; Shackelford(224)-1
	relational, link design use of techniques for; Hara(173)-77
	representation, cinematic form, HyperCafe use; Sawhney(1)-7
	semantic relationships among application classes; Bapat(20)-207
	semantics of text units; Hammwohner(97)-156
	software process, in the System Factory; Garg(112)-413
	statecharts, OOHDM relationship to; Schwabe(12)-123
	structure, Dexter characteristics; Rosenberg(3)-22
	for structure-based logical query language specification; Beeri(146)-68
	systems, frame-based hypertext use for; Kaindl(192)-351
	task; Bareiss(232)-94, Nanard(228)-51
	term definition, in mathematics of formal hypertext model; Afrati(145)-56
	Trellis hypertext structure; Rosenberg(3)-22, Furuta(115)-27
		CID dynamics contrasted with current work in; Boy(171)-54
		CYBERMAP use to provide a personalized view of the document; Gloor(175)-110
		importance for overview maps; Gloor(175)-115
		in hypermedia design; Calvi(72)-1
		in semantic representation of engineering norms; Schwabe(150)-130
		WWW browser history lists; Jones(16)-162
	vector-space; Wiil(225)-145, Salton(235)-131
	VRML, Juggler association with; Dieberger(17)-174
	Web pages as logic programming modules; Loke(23)-236
	digital media, copyright implications; Samuelson(170)-40
ModifyComponent function, 
	Dexter definition; Halasz(299)-36
	See Also object-orientation; 
	distributed environment importance of; Hirata(2)-12
	in hypermedia archtecture design, importance for flexibility; Shackelford(224)-1
MOO (MUD Object-Oriented), 
	See Also collaboration; spatial, hypertext systems; virtual; 
	advantages of; Dieberger(17)-178
	disadvantages, and proposed enhancements; Dieberger(17)-178
	history and characteristics; Dieberger(17)-171
	Hypertext Hotel location, http://duke.cs.brown.edu port 8888/; Dieberger(17)-172
	JHM (JaysHouseMOO), WWW navigation with; Dieberger(17)-174
	MediaMoo location, http://purple-crayon.media.mit.edu port 8888/; Dieberger(17)-172
	TechMOO, Juggler system MOO; Dieberger(17)-174
	as a WWW browsing interface; Dieberger(17)-170
MORE (Multimedia Object Retrieval Environment), 
	See Also information, retrieval; multimedia; 
	bibliographic reference; Collier(104)-269
	enhancement of, with logic programming; Loke(23)-235
	navigational support study; Jones(16)-161
	screen layout as; Kaltenbach(174)-102
motion picture, 
	flying through a hypertext analogous to; Lai(176)-123
	See Also dynamic; multimedia; spatial; time; 
	hot-spot, audio and video navigation with, in Himotoki; Hirata(2)-11
	relationships among video clips based on, in HyperCafe; Sawhney(1)-6
Movie Manual, 
	Videobook relationship to, bibliographic reference; Ogawa(144)-38
Movie Map, 
	Videobook relationship to, bibliographic reference; Ogawa(144)-38
MPEG standard, 
	See Also standards; 
	HyTime support of; Buford(11)-111
MUE (Museum Unit Editor), 
	See Also navigation; 
	Hypertext '89 paper; Travers(124)-147
	analysis, role of Intermedia in fostering; Beeman(92)-75
	thinking, non-linear approach of Intermedia to the teaching of; Beeman(92)-72
multi-level analysis, 
	argumentation, in NoteCards; Marshall(103)-259
multi-lineal thinking, 
	supported by graphic directory in Intermedia; Landow(56)-335
	as precursor of HyperDisco; Wiil(14)-140
	ECHT '92 paper; Rizk(196)-4
	ECHT '94 paper; Amann(262)-198
	Flag taxonomy classification as link server system; Osterbye(13)-131
	as link server hypermedia platform; Wiil(14)-147
	as open hypermedia system; Osterbye(13)-129
	See Also animation; audio; hypermedia; images; media; spatial; time; video; 
	Andrew Toolkit application development facilities; Sherman(142)-13
	authoring paradigms, HyTime evaluation in the light of; Buford(11)-105
		navigation design methodologies for; Schwabe(12)-116
		types, application-specific requirements; Bapat(20)-206
	in distributed environments, content-based information retrieval and navigation in; Hirata(2)-11
	Electronic Multimedia Museum, as global state precursor; Kendall(8)-75
	interactive presentation components, lack of HyTime support for; Buford(11)-110
	MBone, Wax multicast significance; Sawhney(1)-9
	media formats, HyTime evaluation in the light of; Buford(11)-105
		category specialization role in modeling; Bapat(20)-209
		hypermedia data model development, using HyperStorM; Bapat(20)-212
	scripting languages; Stotts(155)-180
		HyTime evaluation in the light of; Buford(11)-105
	authorship, as strength of hypertext; Moulthrop(188)-293
		hierarchies, Cost++ use for placing software workproducts into; Creech(169)-25
		lattices, structuring software libraries with; Creech(169)-26
		over the same information set, as an advantage for a software reuse library; Creech(169)-27
		overlaying on linked software workproducts; Creech(169)-26
		importance for hypertext knowledge representation; Nanard(191)-333
		importance for managing MacWeb type structures; Nanard(191)-335
	points of view, representation in hypertext; Oren(105)-301
	relations, in hypertext; Oren(105)-301
	users hypermedia design issues concerning; Akscyn(86)-9
	users KMS support of; Akscyn(86)-17
	windows, as attempt to solve hypertext disorientation problem; Botafogo(172)-63
	dynamic link-resolution using; Tompa(234)-118
	See Also collaboration; open hypermedia systems (OHS); operating systems, hypermedia; 
		as industrial hypertext requirement; Malcolm(168)-19
		concurrency control characteristics and requirements for an industrial hypermedia environment; Malcolm(168)-21
		HyperBase (GMD-IPSI) and CHS as providers of; Bapat(20)-204
		hypermedia requirement in a concurrent engineering environment; Malcolm(168)-14
	environments, distributed, MOOs as; Dieberger(17)-171
	hypermedia tools, lack of, deleterious effect on hypertext use in large industrial environments; Malcolm(168)-17
	support, available in gIBIS; Conklin(102)-249
		as trend in hypermedia systems design; Osterbye(13)-129
		link issues; Landow(56)-331
multivalent links, 
	collecting sets of related writing spaces with; Bernstein(28)-250
	term definition; Bernstein(28)-244
MUSE (Multimedia technology for System Engineering), 
	category specialization role in modeling; Bapat(20)-209
	hypermedia data model development, using HyperStorM; Bapat(20)-212
	See Also dynamic; multimedia; time; video; 
	as analogy for repetition in hypertext backtracking; Rosenberg(3)-24
	integration into hypermedia environment, as industrial hypertext requirement; Malcolm(168)-19
	represention of non-lineal thought; Beeman(92)-70
	time models, HyTime encorporation of; Buford(11)-105