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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

New Architectural Models for Visibly Controllable Computing: The Relevance of Dynamic Object Oriented Architectures and Plan Based Computing Models

Shrobe, Howard, Laddaga, Robert 09 February 2004 (has links)
Traditionally, we've focussed on the question of how to make a system easy to code the first time, or perhaps on how to ease the system's continued evolution. But if we look at life cycle costs, then we must conclude that the important question is how to make a system easy to operate. To do this we need to make it easy for the operators to see what's going on and to then manipulate the system so that it does what it is supposed to. This is a radically different criterion for success. What makes a computer system visible and controllable? This is a difficult question, but it's clear that today's modern operating systems with nearly 50 million source lines of code are neither. Strikingly, the MIT Lisp Machine and its commercial successors provided almost the same functionality as today's mainstream sytsems, but with only 1 Million lines of code. This paper is a retrospective examination of the features of the Lisp Machine hardware and software system. Our key claim is that by building the Object Abstraction into the lowest tiers of the system, great synergy and clarity were obtained. It is our hope that this is a lesson that can impact tomorrow's designs. We also speculate on how the spirit of the Lisp Machine could be extended to include a comprehensive access control model and how new layers of abstraction could further enrich this model.
2

New Architectural Models for Visibly Controllable Computing: The Relevance of Dynamic Object Oriented Architecturesand Plan Based Computing Models

Shrobe, Howard, Laddaga, Robert 09 February 2004 (has links)
Traditionally, we've focussed on the question of how to make a system easy to code the first time, or perhaps on how to ease the system's continued evolution. But if we look at life cycle costs, then we must conclude that the important question is how to make a system easy to operate. To do this we need to make it easy for the operators to see what's going on and to then manipulate the system so that it does what it is supposed to. This is a radically different criterion for success.What makes a computer system visible and controllable? This is a difficult question, but it's clear that today's modern operating systems with nearly 50 million source lines of code are neither. Strikingly, the MIT Lisp Machine and its commercial successors provided almost the same functionality as today's mainstream sytsems, but with only 1 Million lines of code. This paper is a retrospective examination of the features of the Lisp Machine hardware and software system. Our key claim is that by building the Object Abstraction into the lowest tiers of the system, great synergy and clarity were obtained.It is our hope that this is a lesson that can impact tomorrow's designs. We also speculate on how the spirit of the Lisp Machine could be extended to include a comprehensive access control model and how new layers of abstraction could further enrich this model.
3

Designing Toolsets for Improving the Accessibility of Immersive Technology

Belich, Jerald 01 May 2019 (has links)
No description available.
4

Modèles, outils et plate-forme d’exécution pour les applications à service dynamiques / Models, tools and execution platform for dynamique service-oriented applications

Moreno-Garcia, Diana 22 February 2013 (has links)
L'essor de l'Internet et l'évolution des dispositifs communicants ont permis l'intégration du monde informatique et du monde réel, ouvrant ainsi la voie à de nouveaux types d'applications, tels que les applications ubiquitaires et pervasives. Ces applications doivent s'exécuter dans des contextes hétérogènes, distribués et ouverts qui sont en constante évolution. Dans de tels contextes, la disponibilité des services et des dispositifs, les préférences et la localisation des utilisateurs peuvent varier à tout moment pendant l'exécution des applications. La variabilité des contextes d'exécution fait que l'exécution d'une application dépend, par exemple, des services disponibles ou des dispositifs accessibles à l'exécution. En conséquence, l'architecture d'une telle application ne peut pas être connue statiquement à la conception, au développement ou au déploiement, ce qui impose de redéfinir ce qu'est une application dynamique : comment la concevoir, la développer, l'exécuter et la gérer à l'exécution. Dans cette thèse, nous proposons une approche dirigée par les modèles pour la conception, le développement et l'exécution d'applications dynamiques. Pour cela, nous avons défini un modèle de composants à services permettant d'introduire des propriétés de dynamisme au sein d'un modèle de composants. Ce modèle permet de définir une application en intention, via un ensemble de propriétés, de contraintes et de préférences de composition. Une application est ainsi spécifiée de façon abstraite ce qui permet de contrôler la composition graduelle de l'application lors de son développement et de son exécution. Notre approche vise à effacer la frontière entre les activités effectuées avant et pendant l'exécution des applications. Pour ce faire, le même modèle et les mêmes mécanismes de composition sont utilisés de la conception jusqu'à l'exécution des applications. A l'exécution, le processus de composition considère, en plus, les services disponibles dans la plate-forme d'exécution permettant la composition opportuniste des applications ; ainsi que la variabilité du contexte d'exécution permettant l'adaptation dynamique des compositions. Nous avons mis en œuvre notre approche via un prototype nommé COMPASS, qui s'appuie sur les plates-formes CADSE pour la réalisation d'environnements logiciels de conception et de développement, et APAM pour la réalisation d'un environnement d'exécution d'applications à services dynamiques. / The growth of the Internet and the evolution of communicating devices have allow the integration of the computer world and the real world, paving the way for developing new types of applications such as pervasive and ubiquitous ones. These applications must run in heterogeneous, distributed and open environments that evolve constantly. In such environments, the availability of services and devices, the preferences and location of users may change at any time during the execution of applications. The variability of the execution context makes the execution of an application dependent on the available services and devices. Building applications capable of evolving dynamically to their execution context is a challenging task. In fact, the architecture of such an application cannot be fully known nor statically specified at design, development or deployment times. It is then needed to redefine the concept of dynamic application in order to cover the design, development, execution and management phases, and to enable thus the dynamic construction and evolution of applications. In this dissertation, we propose a model-driven approach for the design, development and execution of dynamic applications. We defined a component service model that considers dynamic properties within a component model. This model allows defining an application by its intention (its goal) through a set of composition properties, constraints and preferences. An application is thus specified in an abstract way, which allows controlling its gradual composition during development and execution times. Our approach aims to blur the boundary between development-time and runtime. Thus, the same model and the same composition mechanisms are used from design to runtime. At runtime, the composition process considers also the services available in the execution platform in order to compose applications opportunistically; and the variability of the execution context in order to adapt compositions dynamically. We implemented our approach through a prototype named COMPASS, which relies on the CADSE platform for building software design and development environments, and on the APAM platform for building an execution environment for dynamic service-based applications.

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