Bodart, Franois, Hennebert, A-M., Leheureux J-M., Provot, I., and Vanderdonckt, Jean. "A ModelBased Approach to Presentation: A Continuum From Task Analysis to Prototype." 1 st Eurographics Workshop on Design Specification and Verification of Interactive System (DSVIS '94), Carrara, Italy. (1994)  Home/Search   Document Details and Download   Summary   Related Articles   Check

....pp. 89 103, 2002. c # Springer Verlag Berlin Heidelberg 2002 90 L. Braubach et al. Table 1. Surveyed systems Frameworks Suggested literature MVC Client [30] SanFrancisco [34] JWAM [6] MVP [27] Amulet [23] MB UIDEs Suggested literature Janus Jade [1] Mobi D [28] FUSE [22,5] TRIDENT [7] TADEUS [14] Teallach [15,17] MASTERMIND [9,31] BC Prototyper [35] system itself should be open for the integration of new interface modalities and implementation techniques (extensibility) Banavar et al. further point out that the UbiComp paradigm will lead to substantial changes on how ....

F. Bodart, A.-M. Hennebert, J.-M. Leheureux, I. Provot, and J. Vanderdonckt. A Model-based Approach to Presentation: A Continuum from Task Analysis to Prototype. In F. Paterno, editor, Proceedings of DSV-IS'94, pages 25--39. Eurographics, June 1994.

....Research Center, USA MASTERMIND [47, 9, 43] University Southern California, Georgia Inst. Tech. USA MECANO [32] Stanford University, USA MODI D [35, 33, 34] Stanford University, USA TADEUS [13] Universitat Rostock, Germany TEALLACH [16] U. Manchester, U. Glasgow, U. Napier, UK TRIDENT [5, 4, 6] Facultes Universitaires Notre Dame de la Paix, Belgium UIDE [24, 15, 14] George Washington University, USA Table 1: Surveyed MD UIDEs. This paper is structured as follows. Section 2 describes MB UIDE s evolution and presents research e#orts. Section 3 introduces a framework for comparing and ....

.... a new generation of MB UIDEs appeared providing mechanisms for describing UIs at a higher level of abstraction [52] Examples of the second generation of MB UIDEs are ADEPT [27] AME [28] DIANE [48] FUSE [25] MASTERMIND [47] MECANO [32] MOBI D [35] TADEUS [13] Teallach [16] and TRIDENT [5]. With MB UIDEs of the second generation, developers have been able to specify, generate and execute user interfaces. Further, this second generation of MB UIDE has a more diverse set of aims than previous one. Some MB UIDEs are considering the use of computer aided software engineering (CASE) ....

F. Bodart, A. Hennebert, J. Leheureux, I. Provot, and J. Vanderdonckt. A Model-Based Approach to Presentation: A Continuum from Task Analysis to Prototype. In Proceedings of DSV-IS'94, pages 25--39, Bocca di Magra, June 1994.

.... and have been used to support different phases of the design cycle: Requirement analysis, where through a task analysis designers identify requirements that should be satisfied in order to perform tasks effectively (GTA [36] Design of interactive applications (Adept [38] Trident [5], Mobile [32] in this case the goal is to use information contained in logical models to identify the interaction and presentation techniques best suited to support the tasks at hand and the dialogues whose temporal constraints are closest to those of the model; Usability evaluation, it can ....

....task models is given in [28] Fig. 4. The Mobi D support for model based design A number of automatic environments supporting user interface design and generation has also been proposed. A review of these approaches is in [33] Examples of such environments are ADEPT [38] TRIDENT [5] and MOBI D [32] The last one is a particularly comprehensive set of tools developed because it provides a set of model editors to create relations between abstract and concrete elements, and a layout tool that can be reconfigured to reflect the decisions made at previous stages in the design ....

Bodart F., Hennerbert A., Leheureux J., Vanderdonckt J., A Model-based approach to Presentation: A Continuum from Task Analysis to Prototype, in Proceedings DSV-IS'94, Springer Verlag, pp.77-94, 1994.

....models suggest entities and relationships, from which the data model can be derived, and temporal ordering cues from which the Activity Chaining Graph can be derived. Furthermore, these models suggest candidate abstract interaction objects that constitute the presentation of an interactive system[14]. The pinnacle of application modeling is the User Interface Design Environment (UIDE) 37, 95] Systems are expressed in terms of an application model, and the environment provides run time support for model inferencing. Salient features include explicit pre and post conditions which can be ....

F. Bodart, A.-M. Hennebert, J.-M. Leheureux, I. Provot, and J. Vanderdonckt. A modelbased approach to presentation: A continuum from task analysis to prototype. In EuroGraphics Workshop on Design, Specification, and Verification of Interactive Systems (DSV-IS'94), 1994.

....Research Center, USA MASTERMIND [47, 9, 43] University Southern California, Georgia Inst. Technology, USA MECANO [32] Stanford University, USA MODI D [35, 33, 34] Stanford University, USA TADEUS [13] Universit at Rostock, Germany TEALLACH [16] U. Manchester, U. Glasgow, U. Napier, UK TRIDENT [5, 4, 6] Facult es Universitaires Notre Dame de la Paix, Belgium UIDE [24, 15, 14] George Washington University, USA Table 1: Surveyed MD UIDEs. This paper is structured as follows. Section 2 describes MB UIDE s evolution and presents research e orts. Section 3 introduces a framework for comparing and ....

.... a new generation of MB UIDEs appeared providing mechanisms for describing UIs at a higher level of abstraction [52] Examples of the second generation of MB UIDEs are ADEPT [27] AME [28] DIANE [48] FUSE [25] MASTERMIND [47] MECANO [32] MOBI D [35] TADEUS [13] Teallach [16] and TRIDENT [5]. With MB UIDEs of the second generation, developers have been able to specify, generate and execute user interfaces. Further, this second generation of MBUIDE has a more diverse set of aims than previous one. Some MB UIDEs are considering the use of computer aided software engineering (CASE) ....

F. Bodart, A. Hennebert, J. Leheureux, I. Provot, and J. Vanderdonckt. A Model-Based Approach to Presentation: A Continuum from Task Analysis to Prototype. In Proceedings of DSV-IS'94, pages 25-39, Bocca di Magra, June 1994.

....use case text. The text of the two use cases in section 2 represents the final version after examination of each level. 3.1 Work Division Most analysis and design methods do not explicitly acknowledge the fact that system design is also work design. Only methods inspired from HCI, e.g. TRIDENT [BHLV95] or TASK [BJ94] give explicit support for work design. This typically includes some kind of task analysis [Dia89] which gathers information about the user tasks, the objects and some attributes like repetitions, duration, priority and the like. Task analysis models concentrate on the user ....

F. Bodart, A.-M. Hennebert, J.-M. Lehereux und J. Vanderdonckt. A Model-Based Approach to Presentation: A Continuum from Task Analysis to Prototype. In Interactive Systems: Design, Specification and Verification. Springer, 1995.

....and critiquing, tools for retargetting the interface to a new platform or tools for automatically generating help. In contrast, the model based tools, and MASTERMIND in particular contain a rich model of the interface that supports the above mentioned tools. Unlike other model based tools [2, 10, 33, 34, 35, 36], MASTERMIND is designed to provide an easy to use interface for building the models, similar to the designer s interface that interface builders provide. The appendix shows a mockup of MASTERMIND s presentation editor: it is similar to an interface builder, but captures a much richer ....

....are fulfilled and all functions have accessing mechanisms for users. UAN s task representation is rather extensive including specification for time, parallelism, and task interruption. Recently, several systems are using task models to drive the interfaces at run time (ADEPT [17, 18] and TRIDENT [2, 35]) ADEPT automatically generates user interfaces from its task descriptions; however, its limitation lies in the environment which does not allow interface styles to be added or allow designers enough control over interface details. TRIDENT uses task descriptions to help in automatic generation of ....

F. Bodart, A. Hennebert, I. Provot, J. Leheureux, J. Vanderdonckt. A Model-Based Approach to Presentation: A Continuum from Task Analysis to Prototype. In the Proceedings of the Eurographics Workshop on Design, Specification, and Verification of Interactive Systems. Bocca di Magra, Italy, June 8-10, 1994.

.... Development method Task descriptions of extant and target systems Task hierarchies described using the Jackson structured system design notation Points of communication between system design and interaction design identified Complex method, but no tool support as yet TRIDENT [Vanderdonckt 93] Bodart et al. 94] Integrated, task based methodology with tool support for part of the process Models tasks, applications, dialogue, presentation and interaction styles Plan oriented approach to task modelling, similar to TKS Automatic generation of user interfaces from abstract models, directed by design rules ....

F. Bodart, A-M. Hennebert, J-M. Leheureux, I. Provot and J. Vanderdonckt. A Model-Based Approach to Presentation: A Continuum from Task Analysis to Prototype. In Proceedings Eurographics Workshop on Design, Specification and Verification of Interactive Systems, La Spezia, June 1994, pp. 25-39.

....In the following, special attention is paid to the interplay between contents and presentation. State of the art. Numerous approaches to HCI modeling and the automatic generation of interfaces exist. Following is an overview of only a few research projects. Projects like GENIUS [11] and TRIDENT [2] consider automatic interface generation for single media and user types. The structure and the behaviour of the application is captured in various models. Presentations are either explicitely and manually linked to objects of the application model or generated by rules that use structural ....

F. Bodart et al. A model-based approach to presentation: A continuum from task analysis to prototype. In Proc. Eurographics Workshop DSV-IS'95, pages 77--94. Springer, Berlin, 1995.

....user interface development offers a high potential for creating integrated user interface development environments and supporting the whole user interface life cycle. Several model based user interface software tools have been built, e.g. UIDE [5] HUMANOID [17] MECANO [10] ADEPT [6] TRIDENT [1]. The key idea of model based generation tools is that all information about user interface characteristics that is required for the user interface development is explicitly represented in declarative models. As shown in Figure 1, many tools support editing and manipulating these models. They ....

....to assist the model based user interface development is investigated in other projects too. As mentioned above, ADEPT [6] is the only model based tool that includes an explicit user model. It was used to constrain the set of possible design options in the user interface design space. In TRIDENT [1] some user characteristics were directly included into the task model. This leads to a higher modeling effort if one user has to carry out different tasks. MECANO [11] offers a meta level description of a user model, but the presented example does not include a user model. Conclusion The first ....

Bodart, F., et.al. A Model-Based Approach to Presentation: A Continuum from Task Analysis to Prototype. In [9], 77-94.

.... more flexibility and without loss of automation in TRIDENT which enables designers to generate as automatically as possible a GUI to a highly interactive business oriented application from specifications describing different models (e.g. task model, object oriented entity relationship model) [Bodart et al. 1994]. One of the results of task analysis is a model describing the interactive task the user has to carry out which can be graphically represented with an activity chaining graph (ACG) An ACG depicts an information flow between functions chained to define a business logic compatible with the goal(s) ....

Bodart, F., Hennebert, A.-M., Leheureux, J.-M., Provot, I. & Vanderdonckt, J. (1994) A Model-based Approach to Presentation: A Continuum from Task Analysis to Prototype. In Proc. of Eurographics Workshop on Design, Specification, Verification of Interactive Systems, (p. 25-39).

No context found.

Bodart, F., Hennebert, A.-M., Leheureux, J.-M., Provot, I. & Vanderdonckt, J., A Model-based Approach to Presentation: A Continuum from Task Analysis to Prototype, in Proceedings of Eurographics Workshop on Design, Specification, Verification of Interactive Systems (Carrara, 810 Juin 1994), Eurographics Series, 1994, pp. 25-39.

.... more flexibility and without loss of automation in TRIDENT which enables designers to generate as automatically as possible a GUI to a highly interactive business oriented application from specifications describing different models (e.g. task model, object oriented entity relationship model) [Bodart et al. 1994]. One of the results of task analysis is a model describing the interactive task the user has to carry out which can be graphically represented with an activity chaining graph (ACG) An ACG depicts an information flow between functions chained to define a business logic compatible with the goal(s) ....

Bodart, F., Hennebert, A.-M., Leheureux, J.-M., Provot, I. & Vanderdonckt, J. (1994) A Model-based Approach to Presentation: A Continuum from Task Analysis to Prototype. In Proc. of Eurographics Workshop on Design, Specification, Verification of Interactive Systems, (p. 25-39).

No context found.

Bodart, Franois, Hennebert, A-M., Leheureux J-M., Provot, I., and Vanderdonckt, Jean. "A ModelBased Approach to Presentation: A Continuum From Task Analysis to Prototype." 1 st Eurographics Workshop on Design Specification and Verification of Interactive System (DSVIS '94), Carrara, Italy. (1994)

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Bodart F.; Hennebert A.M.; Leheureux J.M.; Provot I.;Vanderdonckt J. A Model-based Approach to Presentation: A Continuum from Task Analysis to Prototype. Proceedings of the Eurographics Workshop on Design, Specification, Verification of Interactive Systems. Carrara, Italy, June 1994, Focus on Computer Graphics, Springer-Verlag, Berlin, pp.77-94

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