A Robust Architecture For Human Language Technology Systems

Stanley, Theban

05 August 2006

Early human language technology systems were designed in a monolithic fashion. As these systems became more complex, this design became untenable. In its place, the concept of distributed processing evolved wherein the monolithic structure was decomposed into a number of functional components that could interact through a common protocol. This distributed framework was readily accepted by the research community and has been the cornerstone for the advancement in cutting edge human language technology prototype systems.The Defense Advanced Research Program Agency (DARPA) Communicator program has been highly successful in implementing this approach. The program has fueled the design and development of impressive human language technology applications. Its distributed framework has offered numerous benefits to the research community, including reduced prototype development time, sharing of components across sites, and provision of a standard evaluation platform. It has also enabled development of client-server applications with complex inter-process communication between modules. However, this latter feature, though beneficial, introduces complexities which reduce overall system robustness to failure. In addition, the ability to handle multiple users and multiple applications from a common interface is not innately supported. This thesis describes the enhancements to the original Communicator architecture that address robustness issues and provide a multiple multi-user application environment by enabling automated server startup, error detection and correction. Extensive experimentation and analysis were performed to measure improvements in robustness due to the enhancements to the DARPA architecture. A 7.2% improvement in robustness was achieved on the address querying task, which is the most complex task in the human language technology system.

DARPA Communicator

multi-user/application environment

state machine architecture

handshaking

Interactions simultanées de plusieurs utilisateurs avec une table interactive / Multiple Users Simultaneous Interactions on an Interactive Multi-Touch Tabletop Display

Chaboissier, Jonathan

20 December 2011

Les travaux de cette thèse en informatique s’inscrivent dans le domaine de l’interaction homme-machine (IHM). Le sujet de ce mémoire concerne l’utilisation d’une nouvelle forme d’ordinateur appelée table interactive. Il s’agit d’une table dont le plateau est à la fois un écran et une surface de détection multi-tactile. Les tables interactives ouvrent de nouveaux usages de l’informatique en permettant des applications multi-utilisateurs en coprésence. Les utilisateurs d’une même table interactive ont naturellement envie d’interagir simultanément sur la surface partagée. Cette simultanéité est toutefois difficile à observer dans un contexte collaboratif et non artificiel. Les études existantes n’ont pas suffisamment analysé les problèmes rencontrés ni cherché comment le système peut aider à gérer les accès simultanés.Notre approche a consisté à étudier les interactions simultanées en nous orientant vers des situations originales où la couche applicative du système exerce une forte pression sur le rythme d’utilisation. Nous justifions ainsi l’utilisation d’un jeu vidéo comme outil d’exploration et d’expérimentation. Ce mémoire retrace la conception et le développement de RealTimeChess, un jeu pour 2 à 4 joueurs, adapté aux caractéristiques des tables interactives, et inspiré des échecs dans une version s’affranchissant du tour par tour. Nous rapportons les résultats d’expériences menées sur des groupes de 2 à 4 participants en situations de coopération et de compétition, qui ont permis de mettre en évidence des problèmes de gênes physiques et d’accessibilité aux objets distants ; de perception des informations importantes en contexte dynamique ; et de contrôle du rythme de l’interaction.Ce mémoire expose en outre les leçons apprises au niveau de l’interaction simultanée de plusieurs utilisateurs, des aspects de territorialité, des comportements collaboratifs et enfin en proposant des recommandations de Game Design pour tables interactives. / This thesis presents our work in computer science in human-computer interaction (HCI). The subject concerns the use of a new kind of computer called the interactive tabletop display. It is a table whose top is both a screen and a multi-touch detection device. Interactive tabletops open up new uses of computer applications by allowing several co-located users to work or play together on the same system. Tabletop’s users naturally want to interact simultaneously on the shared surface. This simultaneity is difficult to observe in a collaborative and not artificial environment. Existing studies have not sufficiently analyzed the problems nor sought how the system can help manage concurrency.Our approach was to exploring simultaneous interactions by studying original situations where the system puts pressure on users. We explain how we used a video game as an exploration and experimentation tool. This thesis traces the design and development of RealTimeChess, a game for 2-4 players, a real-time version of Chess adapted to tabletops. We report the results of experiments on groups of 2 to 4 participants in situations of cooperation and competition, which helped to highlight problems and physical discomfort of access to remote objects, awareness in dynamic context, and control the pace of interaction.This thesis also presents lessons learned on simultaneous interactions of multiple users, territoriality aspects, collaborative behavior, and finally gives tabletop Game Design guidelines.

Interaction Homme-Machine

Table interactive

Technique d’interaction

Interaction tactile

Interaction simultanée

Conception de jeu vidéo

Jeu multijoueur

Design participatif

Multi-utilisateur / collecticiel

Human-Computer Interaction

Interactive tabletop display

Interaction technique

Multi-Touch Interface

Simultaneous collaboration

Game design

Multiplayer gaming

Participatory design

Multi-user application