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Prototyping Mobile Storytelling Applications for People with Aphasia
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In: Sensors; Volume 22; Issue 1; Pages: 14 (2021)
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A Field Study of Older Adults with Cognitive Impairment using Tablets for Communication at Home: Closing Technology Adoption Gaps using InTouch
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TExVis: An Interactive Visual Tool to Explore Twitter Data ...
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A graphical environment for creating constraint programming models ...
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Abstract:
Viele wichtige Probleme aus der Praxis, etwa das „rotating workforce scheduling problem“ oder das „traveling salesperson problem“ können mit Constraint Programming modelliert werden. Gute Lösungen für diese Probleme können nicht nur große Kostenersparnisse für Firmen ermöglichen, sondern auch die Mitarbeiterzufriedenheit erhöhen. Aus diesem Grund sind in den vergangenen Jahren viele (textbasierte) Constraint Programming Sprachen entstanden. Mit Hilfe dieser Sprachen kann man komplexe Probleme präzise formulieren. Dazu ist es aber nötig, die Syntax der jeweiligen Sprache zu beherrschen. Für viele andere Programmierparadigmen, etwa für objektorientierte Programmierung, wurden graphische Sprachen entwickelt. Für Constraint Programming ist dies unseres Wissens nicht der Fall. Eine graphische Umgebung für Constraint Programming würde es erlauben, wichtige Probleme der Praxis zu modellieren, ohne die Syntax einer textbasierten Sprache zu kennen. Sie könnte auch hilfreich für erfahrene Entwickler sein, wenn sie ... : Many practical problems of high importance such as the rotating workforce scheduling problem or the traveling salesperson problem can be modeled with constraint programming. Finding good solutions for those problems can enable great cost reduction for companies and even improve employee satisfaction. Therefore, many powerful text-based constraint programming languages and corresponding solvers have emerged in the previous years. They allow concise formulation of problems but require that the user learns the specific syntax of the language. For other programing paradigms such as object orientated programming, graphical languages have been proposed. To our knowledge, no general purpose graphical constraint programming language exists, that allows modeling without written formulas or constraints. Such a graphical constraint programming environment would not only allow important practical problems to be modeled without having to know the syntax of a text-based language, but could also be helpful to experienced ...
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Keyword:
Benutzeroberfläche; Constraint programming; Constraintprogrammierung; graphical environment; graphische Umgebung; modeling; Modellierung; rotating workforce scheduling; Rotating Workforce Scheduling; user interface
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URL: https://repositum.tuwien.at/handle/20.500.12708/2964 https://dx.doi.org/10.34726/hss.2017.48160
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Análisis del diseño interactivo de las mejores apps educativas para niños de cero a ocho años
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In: Comunicar: Revista científica iberoamericana de comunicación y educación, ISSN 1134-3478, Nº 46, 2016, pags. 77-85 (2016)
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Controlled English for Effective Communication during Coalition Operations
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In: DTIC (2013)
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Enabling Efficient Intelligence Analysis in Degraded Environments
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In: DTIC (2013)
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Interacting with Multi-Robot Systems Using BML
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In: DTIC (2013)
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Extrinsic Evaluation of Automated Information Extraction Programs
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In: DTIC (2010)
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Speech Recognition, Articulatory Feature Detection, and Speech Synthesis in Multiple Languages
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In: DTIC (2009)
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Pictures from Words, Pictures from Text: Constructing Pictorial Representations of Meaning from Text
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In: DTIC (2009)
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A Sensemaking Visualization Tool with Military Doctrinal Elements
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In: DTIC (2008)
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Common Navy Warfighting Display Symbology Implementation Guide
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In: DTIC (2007)
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BEstablishing and maintaining long-term human-computer relationships
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In: http://www.ccs.neu.edu/research/rag/publications/05_CHI_BTPR.pdf (2005)
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Establishing and Maintaining Long-Term Human-Computer Relationships
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In: http://web.cs.wpi.edu/~rich/courses/cs525u/readings/BickmorePicard2005.pdf (2005)
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Establishing and Maintaining Long-Term Human-Computer Relationships
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In: http://irfan.www.media.mit.edu/affect/pdfs/04.bickmore-picard-tochi.pdf (2005)
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Lessons Learned from Developing SAWA: A Situation Awareness Assistant
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In: DTIC (2005)
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Comparing User-Assisted and Automatic Query Translation
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In: DTIC AND NTIS (2005)
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Establishing and maintaining long-term human-computer relationships
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In: http://affect.media.mit.edu/pdfs/04.bickmore-picard-tochi.pdf (2004)
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