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	experimental fiction writers, impact on interactive fiction; Bolter(89)-44
	dynamic link resolving applications; Tompa(234)-118
DAG (directed acyclic graph), 
	See Also models; 
	composite component hierarchy in Dexter restricted to; Halasz(299)-33
	See Also content; 
		hypermedia design issue; Akscyn(86)-9
		KMS approach to; Akscyn(86)-12
	application programs, ABC component; Shackelford(224)-1
	content notation, HyTime; Buford(11)-111
	data flow model, for hypertext technology development; Perlman(117)-61
	declarations, mapping to hypertext nodes in DynamicDesign; Bigelow(111)-404
	directed software, hyperspeech software architecture characterized as; Arons(25)-133
	dynamic management of the structure of; Wiil(225)-14
	dynamic relationships, engineering environment characterized by; Malcolm(168)-15
	enormous amounts of, support required for hyperbases; Wiil(225)-14
	entity attributes, as data content notation in HyTime; Buford(11)-111
	exchange, support for, as hypermedia platform dimension; Wiil(14)-141
	flow, distinguishing from control flow, in frame-based hypertext; Kaindl(192)-352
	formats, lack of integration among, as critical problem for computing environments; Wiil(14)-140
	hypermedia model, 
		ABC graph server, issues addressed by; Smith(180)-190
		embodying semantic relationships among software project components in; Smith(180)-180
	hypertext, versioning support required for hyperbases; Wiil(225)-14
	integrity, hypermedia requirement in a concurrent engineering environment; Malcolm(168)-14
		hyperbase handling of; Nuernberg(19)-196
		hypermedia, ABC graph server characteristics; Smith(180)-179
		potential of hypermedia technology for; Malcolm(168)-15
		robust capabilities, hypermedia requirement in a concurrent engineering environment; Malcolm(168)-14
	multimedia, integrating into a total information environment, importance in large industrial applications; Malcolm(168)-15
	objects, structure objects compared with; Nuernberg(19)-196
	recovery, support required for hyperbases; Wiil(225)-14
		HAM facilities for; Campbell(87)-24
		hypermedia requirement in a concurrent engineering environment; Malcolm(168)-14
	semantic modeling, link design use of techniques for; Hara(173)-77
	separation from structures, the case for; Nuernberg(19)-195
	server, separating from hypermedia application and presenatation levels; Lucarella(227)-39
		requirements of behavior processes; Nuernberg(19)-195
		shared, performance implications, in a hypermedia operating system; Nuernberg(19)-198
	standard interchange formats, 
		as industrial hypertext requirement; Malcolm(168)-19
		CALS-compliant information requirements, impact on the hypermedia development in the aerospace industry; Malcolm(168)-14
	storage; Shackelford(224)-1
		nodes, HyperStorM; Bapat(20)-208
		Notes (CMU); Neuwirth(95)-126
	term definition; Nuernberg(19)-195
		abstract, Trellis engine as; Stotts(183)-224
		avoiding needless proliferation of; Oren(105)-294
		HBMS management of; Wiil(14)-140
		support required for hyperbases; Wiil(225)-14
	unstructured, navigation design methodologies for; Schwabe(12)-116
data models, 
	See Also models; separation of concerns; structure(s); 
	abstract hypermedia, semantic relationships in; Bapat(20)-207
	application; Bapat(20)-203
		importance of expressing in terms of hypermedia engine functionality; Bapat(20)-203
		requirements; Bapat(20)-205
	Aquanet, basic objects and relations; Marshall(186)-265
	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, characteristics of; Wiil(14)-141
	extensible, ECHT '92 paper; De Bra(218)-222
	graph-based; Shackelford(224)-1
		as tools to enhance the semantics of; Lucarella(227)-39
	HAM; Bapat(20)-204, Bigelow(111)-397
	HB1, Extended Dexter compared with; Gronbaek(15)-150
	HB3; Bapat(20)-204
	HOT (Hypermedia Object-oriented Toolkit) concepts and facilities; Puttress(143)-25
	HyperBase (Aalborg); Bapat(20)-204, Wiil(225)-14
	HyperBase (GMD-IPSI); Bapat(20)-204, Schutt(148)-95
	Hyperform; Bapat(20)-204
	hypermedia; Akscyn(86)-1, Akscyn(86)-9
		design issues concerning; Akscyn(86)-9
	hypermedia system, 
		design, Extended Dexter model provision of; Gronbaek(15)-150
		differences in the handling of; Osterbye(13)-131
		limitations of current systems; Bapat(20)-206
	HyperStorM, characteristics; Bapat(20)-206
	KMS; Akscyn(86)-1
	knowledge types encoded in, in MacWeb; Nanard(228)-51
	manager, Flag taxonomy relationship to Dexter storage layer; Osterbye(13)-130
	object-oriented, advantages of; Schwabe(12)-126
	semantic gap between hypermedia engines and applications; Bapat(20)-205
	TecPad; Bapat(20)-205
	user interface impact; Akscyn(86)-19
	VODAK OODBMS; Bapat(20)-204
	See Also hyperbases; models; storage, layer; system(s); 
	abstraction, as equivalent of Halasz' composition; Botafogo(172)-64
	administrator, SuperUser role in DIF similar to; Garg(112)-412
	advantages as implementer of storage and application layers; Bapat(20)-204
	description languages, advantages of a hypertext over; Marshall(103)-254
	HOSS use of; Nuernberg(19)-199
		concurrency control issues; Wiil(225)-14
		system requirements not supported by current; Wiil(225)-14
	HyperBase (GMD-IPSI); Schutt(148)-95
	implementing hypertext database relationships through aggregations and exceptions; Hara(173)-75
	integrating into a total information environment; Malcolm(168)-15
	keys, dynamic link resolution components analogous to; Tompa(234)-118
	KMS, diagram of a fragment; Akscyn(86)-6
	link, contrasted with HBMS; Wiil(14)-147
	maintenance techniques, designing hypertexts to allow the application of; Hara(173)-77
		as KMS design goal; Akscyn(86)-1
		large as KMS design goal; Akscyn(86)-3
	merging, KMS support of; Akscyn(86)-17
	models, combining with hypertext structure; Hara(173)-76
	object-oriented, to be used with WE; Smith(100)-207
		compared with hypertext information structures; Garg(110)-376
		graph-based object model as hypermedia analogue for; Lucarella(227)-39
	servers, HAM as a transaction-based server; Bigelow(111)-397
	shared, DeVise Hypermedia system, a Dexter-compliant cooperative architecture supporting; Gronbaek(226)-25
	structure and content, perspective compared with hypertext; Garg(110)-388
	support for as hypermedia requirement in a concurrent engineering environment; Malcolm(168)-14
	systems, limitations for taxonomic reasoning; Parunak(184)-235
	telephone accessible, as primitive precursor of hyperspeech (MIT Media Lab system); Arons(25)-134
	text, OED viewed as; Raymond(96)-143
	tree-structured, advantages for handling hypertext structures as; Hara(173)-88
	VODAK, as core of HyperStorM abstract hypermedia engine; Bapat(20)-210
	where hypertext is more efficient for information structuring; Marshall(103)-263
	of text, announcement premature; Bernstein(28)-256
	value or bane for student research; Ess(187)-288
decision making, 
	See Also argumentation; 
	policy, modeling in NoteCards; Marshall(103)-256
	policy decision-making process, NoteCard use for; Marshall(103)-253
	processes, modeling with NoteCards; Marshall(103)-253
	Rational Actor Model, NoteCards modeling of; Marshall(103)-256
	representation of managers' mental models as support for; Kaindl(192)-346
	support in collaborative design environments, gIBIS as prototype for; Conklin(102)-248
	systems for reading and writing, Notes (CMU) as one component of; Neuwirth(95)-121
	query language specification, for formulating structure-based queries; Beeri(146)-68
	semantics, semantic nets as embodying; Collier(104)-273
decomposition diagrams, 
	ABC tools for building graph structured; Smith(180)-188
	characteristics and value for hypermedia; Moulthrop(188)-295
	hypertext strengths and paper text weaknesses; Michalak(238)-174
	volatile hypertexts characterized by; Bernstein(28)-243
	See Also generic links; information, retrieval; 
	as link type, characteristics; Allan(5)-43
	submodel, characteristicsnested context model; Casanova(181)-194
delayed events, 
	Trellis timing mechanism use to create; Stotts(183)-222
DeleteComponent function, 
	Dexter definition; Halasz(299)-36
delivery vehicles, 
	hypertext documents, strategy considerations for; Walker(106)-307
	strong potential of hypertext to exemplify and promote; Landow(56)-336
	book, as a printed format navigational aid; Lai(176)-123
	in graphs, compact representations, importance for large hypertexts; Hara(173)-77
	in relationships, indexing techniques for, importance for large hypertexts; Hara(173)-77
	See Also Landow; rhetoric; 
	rhetoric of; Landow(56)-331
		actemes relationship to; Rosenberg(3)-25
	hypermedia, at Boeing; Malcolm(168)-14
	See Also spatial, hypertext systems; structure(s); 
	hypertext, grasping through a quick browsing navigational aid; Lai(176)-123
	as visual characteristic of hypertext; Tolva(7)-66
	context-free, deficiencies of; Boy(171)-54
	explicit, deficiencies when context is not included; Boy(171)-54
	relationship between referents and, using user feedback to modify; Boy(171)-52
	term definition; Boy(171)-53
	triggering conditions characterized by, in CID; Boy(171)-55
	See Also models; open hypermedia systems (OHS); rhetoric; 
	application, information reuse issues; Garzotto(10)-93
		hypermedia engine; Bapat(20)-207
		user interface, ADV use by OOHDM; Schwabe(12)-123
	argumentation approach to; McCall(152)-155
		as potential result of hypertextual exploration; Rosenberg(3)-23
		maintaining in a guided tour; Marshall(114)-22
	data model issues, KMS; Akscyn(86)-9
	decisions, annotation use in developing a history of; Creech(169)-33
	deliberations, as a knowledge structuring task; Marshall(186)-261
	Design Intent, Hypertext'96 paper; Girgensohn(24)-246
	Design Journal, gIBIS as prototype for; Conklin(102)-247
		CID use with; Boy(171)-51
		context indexing value for; Boy(171)-57
	environments, information problem in; Fischer(120)-105
	guidelines, for hyperdocuments; Brown(141)-9
	hypermedia, principles; Moulthrop(133)-259
	hypermedia systems, 
		Halasz' Seven Issues paper; Halasz(108)-345
		impact of hypermedia operating system on; Nuernberg(19)-197
		advantages of; Garzotto(190)-314
		evaluation issues; Wright(167)-1
		guiding with generic type structures; Nanard(191)-333
		incoherent hyperdocuments and how to avoid them; Thuring(179)-161
		models, advantages for comparing methodologies; Garzotto(190)-315
		models, HDM characteristics; Garzotto(190)-314
	issues, open hypermedia systems, and their solutions, mapping out as the primary goal of Flag taxonomy; Osterbye(13)-131
	link, rules for effective; Landow(56)-334
	methodology, for multimedia navigation and interface structures; Schwabe(12)-116
	multi-document hypertext, Hypertext'89 paper; (140)-51
		accessing, importance of point-to-point linking for; Creech(169)-27
		software, linking with related workproducts; Creech(169)-26
		expressing, as a research goal; Schwabe(12)-127
		interaction, providing support for; Schwabe(12)-127
		navigation, providing support for; Schwabe(12)-127
	primitives, application representation, HDM characterized by; Garzotto(190)-313
		associative links, lack as weakness associative link weakness; Hara(173)-76
		dynamic hypertext interface as a front end for information system; Bieber(182)-211
		Hypermedia Templates as an authoring tool; Catlin(178)-147
		in the Intermedia Dickens Web; Catlin(178)-149
		OOHDM components; Schwabe(12)-120
		structuring with OOHDM; Schwabe(12)-116
		capturing by link types, importance in an industrial hypermedia environment; Malcolm(168)-20
		capturing with the MCC project Design Journal; Conklin(102)-247
	rules, for hypertext links; Landow(56)-332
	space, open hypermedia systems, Flag taxonomy role; Osterbye(13)-129
	system, hypertext as a support environment for; Conklin(102)-247
		importance of inward links for; Kaindl(192)-351
		knowledge-based systems, advantage of frame representation of hypertext nodes for; Kaindl(192)-345
		knowledge-based systems, support for as primary goal of frame-based hypertext; Kaindl(192)-350
	time, importance of capturing knowledge at; Nanard(191)-330
		engineering, support for as hypermedia requirement in a concurrent engineering environment; Malcolm(168)-14
		features of Hypermedia Templates; Catlin(178)-151
		integrating into a total information environment; Malcolm(168)-15
	writing as activity involving; Streitz(138)-343
Design Intent, 
	Hypertext '96 paper; Girgensohn(24)-246
Design Journal, 
	gIBIS as component of the MCC Design Journal project; Conklin(102)-247
	as taxonomic reasoning activity, contrasted with description; Parunak(184)-236
	fisheye display use for local, in an industrial hypermedia environment; Malcolm(168)-21
	grasping through a quick browsing navigational aid; Lai(176)-123
	local, fisheye views use in balancing global context with; Noik(240)-192
	agent category in I-SHYS; Garg(112)-419
DeVise Hypermedia (DHM), 
	as precursor of HyperDisco; Wiil(14)-140
	ECHT '92 paper; Gronbaek(215)-191
	ECHT '94 paper; Gronbaek(249)-59
	as extensible object-oriented framework; Osterbye(13)-131
	Flag taxonomy classification as open hyperbase system; Osterbye(13)-131
	HyperDisco relationship to; Wiil(14)-147
	HyperStorM compared with; Bapat(20)-205, Bapat(20)-206
	Hypertext '96 paper; Gronbaek(15)-149
	as object-oriented application framework; Gronbaek(15)-149
	as open hyperbase hypermedia platform; Wiil(14)-147
	as open hypermedia system; Osterbye(13)-129
Dexter hypertext reference model, 
	basic concepts and importance of; Gronbaek(15)-149
	canonical description of, minus the Z-based representation of the formal model; Halasz(299)-30
	conformance criteria and issues; Halasz(299)-38
	design decision issues; Nuernberg(300)-65
		See Also Amsterdam Hypermedia Model; 
Dexter Hypertext Reference Model, 
	DeVise Hypermedia system as a Dexter-compliant cooperative architecture; Gronbaek(226)-25
Dexter hypertext reference model, 
	See Also models; system(s); 
	DSS shell architecture with a dynamic hypertext interface mapping to; Bieber(182)-207
	ECHT '94 paper; Garzotto(250)-70
	emergent structure not represented in; Rosenberg(3)-26
	Extended Dexter model, 
		Hypertext'96 paper; Gronbaek(15)-149
		improvements; Gronbaek(15)-158, Gronbaek(15)-150
	extending to support open hypermedia; Gronbaek(15)-149
	Flag taxonomy relationship to; Osterbye(13)-129, Osterbye(13)-130
	function constraints, resolver function (Dexter ); Halasz(299)-35
	function definitions, 
		AllAttributes function; Halasz(299)-36
		AttributeValue function; Halasz(299)-36
		CreateAtomicComponent function; Halasz(299)-36
		CreateComponent function; Halasz(299)-36
		CreateCompositeComponent function; Halasz(299)-36
		CreateLinkComponent function; Halasz(299)-36
		CreateNewComponent function; Halasz(299)-36
		DeleteComponent function; Halasz(299)-36
		GetComponent function; Halasz(299)-36
		LinksTo function; Halasz(299)-35, Halasz(299)-36
		LinksToAnchor function; Halasz(299)-35, Halasz(299)-36
		ModifyComponent function; Halasz(299)-36
		resolver function (Dexter ); Halasz(299)-32
		SetAttributeValue function; Halasz(299)-36
	goals; Halasz(299)-30
		supported by the Extended Dexter model; Gronbaek(15)-150
	HDM translatable to; Garzotto(190)-313
	HyperBase (GMD-IPSI) relationship to; Schutt(148)-105
	HyperDisco relationship to; Wiil(14)-147
	as hypermedia reference model; Osterbye(13)-129
	HyperStorM conformance with separation of contents from nodes and links; Bapat(20)-208
	HyTime compared with; Buford(11)-108
	link directionality, NONE, elimination in extended Dexter; Gronbaek(15)-157
	MacWeb contrast with; Nanard(191)-340
	multimedia collections, ECHT'94 paper; Garzotto(250)-70
	set-based hypertext supportable by; Parunak(184)-240
	storage layer, bridge law implementation of; Bieber(182)-210
Dexter Hypertext Reference Model, 
	Storage Layer, DeVise Hypermedia system OODB an implementation of; Gronbaek(226)-25
Dexter hypertext reference model, 
	structure characteristics in; Rosenberg(3)-22
	within-component layer, bridge law specification of computation of; Bieber(182)-210
	Z-based formal model; Halasz(299)-
DGS (Distributed Graph Storage), 
	graph-based data model, support for cooperative distributed hypermedia environment, Hypertext '93 paper; Shackelford(224)-1
	IWHD '95 paper; BenMrad(66)-81
	See DeVise Hypermedia (DHM); 
	as artifact component; Smith(180)-179
	decomposition, ABC tools for building graph structured; Smith(180)-188
	E-R, of ACE, (figure); Hara(173)-79
	message flow, ABC tools for building graph structured; Smith(180)-189
Dickens Web, 
	See Also applications; 
	ECHT '92 paper; Landow(211)-149
	information design of; Catlin(178)-149
	accessing; Salton(235)-131, Tompa(234)-118
	hypertext conversion candidates; Raymond(96)-146
	OED, accessing with a dynamic link resolution architecture; Tompa(234)-118
	See Also applications; 
	OED, Hypertext'87 paper; Raymond(96)-143
DIF (Documents Integration Facility), 
	concepts and capabilities; Garg(112)-410
	software documentation management system; Garg(112)-410
	See Also multimedia; video; 
	video, HyperCafe; Sawhney(1)-1
digital libraries, 
	comparison of hypertext retrieval with printed documents and full-text retrieval, in performing representative chemistry research information tasks; Egan(189)-299
	intellectual property rights, Xanadu analysis; Samuelson(170)-39
	librarian model, semi-automatic acquisition of by CID; Boy(171)-53
	See Also classification; design; 
	hypermedia platforms, and their characteristics; Wiil(14)-141
	incremental development of, taxonomic reasoning characterized by; Parunak(184)-235
direct manipulation, 
	KMS interface characteristics; Akscyn(86)-1
directed acyclic graph (DAG), 
	Kiosk use for view browsing; Creech(169)-33
directed graphs, 
	aggregate research use of; Botafogo(172)-64
	connecting abstract nodes with, concept underlying Thoth-II; Collier(104)-272
	creating a semantic net out of; Collier(104)-273
	in the HAM; Bigelow(111)-398
	turning into a non-directed graph; Botafogo(172)-68
	See Also links; spatial; time; 
	of links, 
		Dexter definition; Halasz(299)-34
		Dexter revisited; Gronbaek(15)-156
		value of for node aggregation; Botafogo(172)-70
	relations as non-directional actemes; Rosenberg(3)-23
	See Also rhetoric; 
		as source of link type taxonomy; Allan(5)-43
		EUCLID research into; Smolensky(101)-233
		See Also argumentation; 
		See Also structured hypertext; 
		explicit retention of structural relationships importance for comprehension; Frisse(91)-60
		reinventing for hypertext; Charney(94)-114
		role in hypertext comprehension; Charney(94)-109
		role in reading non-linear text; Charney(94)-109
	explicit links as aid to; Oren(105)-299
	goal-oriented, problems with attempting to turn hypertext into; Moulthrop(188)-294
	hypertext, implications of digressive nature and inherent multiplicity; Moulthrop(188)-294
	print-oriented, deleterious impact on hypertext development; Moulthrop(188)-294
	real-world, modeling interrelationships in, Aquanet use for; Marshall(186)-262
		EUCLID as a research project on; Smolensky(101)-215
		EUCLID support for; Smolensky(101)-215
		gIBIS support for; Conklin(102)-247
	shaping of, rhetoric as bridge between technology and meaning; Moulthrop(188)-292
	type, role in design of user/documentation interaction; Smolensky(101)-237
	connections, Lynx compared with VISAR in the task of; Bernstein(28)-251
		limits of; Bernstein(28)-255
		Lynx support of; Bernstein(28)-247
	techniques for evoking; Oren(105)-295
	Aquanet term for individual knowledge structures; Marshall(186)-268
	See Also navigation; 
	hypermedia design issue; Akscyn(86)-9
	KMS approach to; Akscyn(86)-15
	lack of structure cues as cause of; Thuring(179)-163
	resolution of, role of consistency in; Catlin(178)-147
	screen management contribution to; Kaltenbach(174)-91
	with large information spaces, handling through database models; Hara(173)-75
	WWW navigation, amelioration of by MOO base; Dieberger(17)-174
	OED entries, using structure view for; Raymond(96)-147
distinguished elements, 
	composite node use to represent subgraphs as; Thuring(179)-165
distorted views, 
	location cue technique; Oren(105)-297
	See Also collaboration; open hypermedia systems (OHS); 
	data, managing with a graph-based data model; Shackelford(224)-1
	data models, Distributed Graph Storage (DGS); Shackelford(224)-1
		HyperDisco designed to support; Wiil(14)-141
		multimedia, content-based information retrieval and navigation in; Hirata(2)-11
	file systems, managing with a graph-based data model; Shackelford(224)-1
	hyperbase, WWW as; Weiss(18)-180
	hypermedia operating system, 
		HOSS architecture; Nuernberg(19)-198
		HOSS architecture, HPMT facilities; Nuernberg(19)-199
	as hypermedia platform dimension, characteristics of; Wiil(14)-141
	hypermedia systems, 
		ABC; Smith(180)-179
		concurrency control issues; Wiil(225)-14
		concurrency control issues for collaborative; Wiil(225)-14
		Distributed Graph Storage (DGS); Shackelford(224)-1
		failure of current hypermedia tools to provide; Malcolm(168)-13
		HyTime evaluation in the light of; Buford(11)-105
		inadequacies of system-oriented architectures; Wiil(225)-14
		industrial software development requirements for; Smith(180)-184
		integrating distributed interactions into a total information environment; Malcolm(168)-15
	hypertext, for collaboration research; Shipman, III(122)-129
		environments, MOOs as; Dieberger(17)-171
		support, as characteristic of open hypermedia systems; Osterbye(13)-129
	object frameworks, HyTime evaluation in the light of; Buford(11)-105
	system design, Himotoki; Hirata(2)-18
	systems, HAM as a; Campbell(87)-21
distribution control, 
	systems-oriented approach, inadequate for collaborative sharing; Wiil(225)-14
	understanding and acceptance of value of, as a consequence of Intermedia use in a philosophy of science course; Ess(187)-285
Document Examiner, 
	bookmark support by; Gronbaek(15)-157
	as design idea source for the Dexter hypermedia reference model; Halasz(299)-30
	fields use, compared with slots in KEE; Kaindl(192)-347
	Hypertext '87 paper; Walker(106)-307
	integrated with CASE applications, comparison with structured hypertext; Nanard(191)-332
	linking with related workproducts; Creech(169)-26
	of applications, design model use for; Garzotto(190)-315
	of software processes, with DIF; Garg(112)-411
Documenters Work Bench, 
	bibliographic reference; Garg(112)-409
	See Also component(s); nodes; structure(s); writing; 
	accessing; Creech(169)-27
	active text value in maintaining up-to-date; Kaindl(192)-354
	active Tioga, variable node precursor; Kendall(8)-77
	administrative, as artifact component; Smith(180)-179
	analysis of, ECHT'94 paper; Levy(245)-24
	assessing the quality of; Brown(141)-1
	in Augment and Intermedia, as Dexter components; Halasz(299)-32
	automatic production, MacWeb facilities that support; Nanard(191)-334
	behavior, altering in response to user preferences and actions; Stotts(183)-220
	computed, Extended Dexter representation of links that generate; Gronbaek(15)-150
	constructing hypertext from existing paper documents; Frisse(91)-58
	content-oriented fragmentation of; Hammwohner(97)-156
	detecting subtle relationships among, link apprentice use for; Bernstein(28)-251
	distributed programming documentation, design issues; Friendly(73)-1
	Document Examiner, Hypertext'87 paper; Walker(106)-307
	double structure within the nested context model; Casanova(181)-194
	dynamic, Extended Dexter representation of links that generate; Gronbaek(15)-150
	Dynamic Documents as Web agent system, compared with LogicWeb; Loke(23)-239
	dynamic page composition, SuperBook System support of; Egan(189)-302
	electronic, values of compared with paper documentation; Oren(105)-295
		producing a hypertext from; Raymond(96)-143
		SuperBook advantages for browsing; Remde(98)-175
	flat-text, converting into hypertext; Boy(171)-51
	formatting, guidelines for, as consistency aide for hypermedia design; Catlin(178)-147
	gathering for a hypertext, automatic methods for; Allan(5)-42
	hierarchical model use for; Moulthrop(188)-293
	highlighting of, potential user interface feature for hypertext; Frisse(91)-66
	historical, detecting subtle relationships among, link apprentice use for; Bernstein(28)-251
	HyTime, compression; Buford(11)-113
	IGD, as design idea source for the Dexter hypermedia reference model; Halasz(299)-30
	independence from contextual links, in CID; Boy(171)-55
	indexing in context; Boy(171)-51
		accessing DSS components with; Bieber(182)-205
		compilation, virtual link marker handling; Bieber(182)-207
		DSS use of hypertext link markers with; Bieber(182)-204
	interactive structure with content, as defining characteristic of hypertext; Rosenberg(3)-22
		dynamic hypertext document issues; Bieber(182)-213
		dynamic hypertext impact; Bieber(182)-203
		hypermedia projects at Boeing that emphasize; Malcolm(168)-15
	interchange as HyTime concern; Buford(11)-106
		capturing hypertext structure from, limitations of; Nanard(191)-331
		constructing in WE; Smith(100)-206
	management controls, hypermedia projects at Boeing that emphasize; Malcolm(168)-15
	markup languages and issues, 
		See HTML; 
		See HyTime; 
		See SGML; 
	model, Distributed HyOctane engine; Buford(11)-113
	multimedia, system for temporal and spatial structuring; Shimizu(62)-1
	non-linear, comprehension role of discourse cues; Charney(94)-109
	organization, hierarchy, nested context model support of; Casanova(181)-193
		deficiencies in; Remde(98)-175
		limitations for teaching non-linear thinkings; Beeman(92)-73
		recovering the benefits of; Oren(105)-293
	private, compared with published documents in Xanadu; Samuelson(170)-42
	production applications, MacWeb facilities for developing; Nanard(191)-333
	public domain, Xanadu system handling of; Samuelson(170)-41
	published, compared with private documents in Xanadu; Samuelson(170)-42
	reference, link template requirements in an industrial hypermedia environment; Malcolm(168)-21
	research, NoteCards as a tool for creating; Trigg(93)-89
	research papers, EUCLID as an environment for representing; Smolensky(101)-219
		Hypertext'89 paper; Zellweger(54)-1
		See Also paths; 
		variable node precursor; Kendall(8)-77
	semantics, information retrieval based on both structure; Weiss(18)-180
	source, writing hypertext from; Neuwirth(95)-121
	space, separating index space from, in CID; Boy(171)-58
		altering in response to user preferences and actions; Stotts(183)-220
		CYBERMAP incorporation of into HYPERDRAWERs; Gloor(175)-111
	structure of, 
		for Document Examiner; Walker(106)-308
		revealing through text passage decomposition; Salton(6)-53
		combining hypertext with; Quint(198)-23
		querying with OODBMS; Christophides(261)-186
	System Factory defines as forms; Garg(112)-413
	TEI, HyTime advantages for WWW publishing of; Buford(11)-112
	temporal behavior specification in; Buchanan(33)-262
	types, dimension for categorizing hypertext systems; Walker(106)-308
	typing of, use in linearizing argument graphs; Smolensky(101)-232
		creating in MacWeb; Nanard(191)-338
		episode viewed as; Rosenberg(3)-22
	visualization, classifying links through; Allan(5)-42
	ECHT '94 paper; Haake(243)-1
	conceptualizing through link labels; Collier(104)-276
	information; Garg(110)-376
	knowledge, encoding of as an extension to Garg's abstract hypertext model; Garg(110)-393
	objects, term definition; Afrati(145)-55
	real-world, modeling interrelationships in, Aquanet use for; Marshall(186)-262
	role in design of principles for information-management in hypertext systems; Frisse(91)-60
		incorporation into hypertexts developed from scratch; Nanard(191)-331
		See Also semantic(s); 
	structure of links as implicit model of domain; Collier(104)-277
dot plots, 
	detecting curious loops in poetry with; Bernstein(28)-255
	exploring internal structure of poetry with; Bernstein(28)-254
	annotation of, Knowledge Weasel use for; Lawton(233)-106
	user-generated, as navigation tool in Miyabi; Hirata(237)-159
	See Also applications; 
	temporal links in; Sawhney(1)-3
Drury College, 
	hypertext use at; Ess(187)-277
DSS (decision support systems), 
	dynamic hypertext interfaces for; Bieber(182)-203
	executing models, link traversal as method for; Bieber(182)-204
	knowledge-based, integrating hypertext into the interface for; Bieber(182)-203
		characteristics; Bieber(182)-205
		dynamic hypertext interface architecture specification; Bieber(182)-206
	Simon's stages of decision making; Bieber(182)-203
DSSSL standard, 
	See Also standards; 
	SPQL query language, HyTime HyQ to be replaced by; Buford(11)-111
Durrell, Lawrence, 
	multiple points of view, impact on interactive fiction; Bolter(89)-48
Dynaboard project, 
	screen layout research in; Kaltenbach(174)-92
	See Also hypermedia; links; time; 
		creation permitted by HyTime standard; Buford(11)-108
		HyTime HyQ query language use to form; Buford(11)-110
	ASK systems, as goal of automated linking project; Cleary(4)-32
	browsers, characteristics and requirements for an industrial hypermedia environment; Malcolm(168)-21
	data, navigation design methodologies for; Schwabe(12)-116
	data relationships, engineering environment characterized by; Malcolm(168)-15
		design issues, Halasz' Seven Issues paper; Halasz(108)-345
		Extended Dexter representation of links that generate; Gronbaek(15)-150
	Dynamic Documents Web agent system, compared with LogicWeb; Loke(23)-239
	DynamicDesign, Hypertext'87 paper; Bigelow(111)-397
	entries, path mechanisms for; Zellweger(54)-3
	guided tours, ECHT'92 paper; Guinan(208)-122
		advantages of; Kendall(8)-74
		hyperlinked videotext narratives, HyperCafe as example of; Sawhney(1)-9
		See Also HyperCafe; 
		as a generic information system front end; Bieber(182)-211
		components; Bieber(182)-213
		document interchange issues; Bieber(182)-213
		internal document structure knowledge importance for user-defined links in; Bieber(182)-212
		link transitions as; Kaltenbach(174)-91
		modeling for non-hypertext systems; Bieber(182)-203
		role of search and query in; Bernstein(28)-250
	links; Kendall(8)-74
		as industrial hypermedia requirement; Malcolm(168)-20
		as industrial hypertext requirement; Malcolm(168)-19
		computational intractability of; Bernstein(28)-255
		creating through link method attachment, in MacWeb; Nanard(191)-337
		CYBERMAP characterized by; Gloor(175)-117
		CYBERMAP term definition; Gloor(175)-115
		Extended Dexter representation of; Gronbaek(15)-150
		identifying in a hypertext, as a graph construction issue; Lai(176)-125
		in MAVIS; Lewis(21)-215
		problems posed by; Lai(176)-125
		spaces, user interface issues; Sawhney(1)-4
		HOSS facilities for; Nuernberg(19)-199
		hypermedia operating system requirements; Nuernberg(19)-199
	media, context as linking control mechanism for; Hardman(39)-183
	modeling, real-time systems, frame-based hypertext use for; Kaindl(192)-351
		behavior support by Navigation Charts object-oriented state-transition model; Schwabe(12)-123
		structure specification; Schwabe(12)-123
	processing, in information systems, issues and proposals; Bieber(182)-203
	semantic modification, enabled by modular design of HyperStorM; Bapat(20)-208
	structures, management of by refSpecs; Gronbaek(15)-157
	text, as variable node precursor; Kendall(8)-77
	Web page, 
		creation, with logic programming; Loke(23)-236
		generation, using LISP; Loke(23)-240
Dynamic Medical Handbook Project, 
	GraphLog relation to; Consens(134)-284
	Hypertext '87 paper; Frisse(91)-58
	Hypertext '89 paper; Frisse(128)-199
	CASE hypertext-based environment; Bigelow(111)-397
	GraphLog relation to; Consens(134)-280
	HAM application that communications through an IPC mechanism; Bigelow(111)-397
	Hypertext '87 paper; Bigelow(111)-397
	hypertext CASE environment for the C programming language; Bigelow(111)-398