226 research outputs found
Tuning an HCI Curriculum for Master Students to Address Interactive Critical Systems Aspects
International audienceThis paper presents the need for specific curricula in order to address the training of specialists in the area of Interactive Critical Systems. Indeed, while curricula are usually built in order to produce specialists in one discipline (e.g. computer science) dealing with systems or products requires training in multiple disciplines. The area of Interactive Critical Systems requires deep knowledge in computer science, dependability, Human-Computer Interaction and safety engineering. We report in this paper how these various disciplines have been integrated in a master program at Université Toulouse III, France and highlight the carrier paths followed by the graduated students and how these carriers are oriented towards aeronautics and space application domains
Highlighting the Gaps in Enterprise Systems Models by Interoperating CGs and FCA
Enterprises arise from creative human endeavours, articulated through business concepts encoded in enterprise information systems through a modular Enterprise information Model (EIM). The EIM thus brings the productivity of computers to bear. Essentially, the EIM
represents conceptual structures, which align the computer's structured way of working with the human's conceptual way of thinking. Using an industrial-strength SAP exemplar known as 'Global Bike Inc.', and
expressing its EIM's meta-objects as meta-object ! relation ! metaobject, Conceptual Graphs (CGs) simplified the EIM's modules, which consist of four business layers and two information systems layers. The logical simplification of these modules is extended into four levels of detail that culminate in performance indicators being assigned to each of the six layers. From the CGs, Formal Concept Analysis (FCA)'s CGtoFCA algorithm was used to generate the meta-objectarelation ! meta-object binaries that identified the pathways layer-wise and level-wise between the meta-objects. Through the interoperability of CGs and FCA, gaps in the conceptual structure of the EIM as highlighted by its performance indicator or measure, implying that the layer is not as modular as intended
On supporting university communities in indoor wayfinding: An inclusive design approach
Mobility can be defined as the ability of people to move, live and interact with the space. In this context, indoor mobility, in terms of indoor localization and wayfinding, is a relevant topic due to the challenges it presents, in comparison with outdoor mobility, where GPS is hardly exploited. Knowing how to move in an indoor environment can be crucial for people with disabilities, and in particular for blind users, but it can provide several advantages also to any person who is moving in an unfamiliar place. Following this line of thought, we employed an inclusive by design approach to implement and deploy a system that comprises an Internet of Things infrastructure and an accessible mobile application to provide wayfinding functions, targeting the University community. As a real word case study, we considered the University of Bologna, designing a system able to be deployed in buildings with different configurations and settings, considering also historical buildings. The final system has been evaluated in three different scenarios, considering three different target audiences (18 users in total): i. students with disabilities (i.e., visual and mobility impairments); ii. campus students; and iii. visitors and tourists. Results reveal that all the participants enjoyed the provided functions and the indoor localization strategy was fine enough to provide a good wayfinding experience
Método para la evaluación de usabilidad de sitios web transaccionales basado en el proceso de inspección heurística
La usabilidad es considerada uno de los factores más importantes en el desarrollo de productos
de software. Este atributo de calidad está referido al grado en que, usuarios específicos de un
determinado aplicativo, pueden fácilmente hacer uso del software para lograr su propósito. Dada
la importancia de este aspecto en el éxito de las aplicaciones informáticas, múltiples métodos de
evaluación han surgido como instrumentos de medición que permiten determinar si la propuesta
de diseño de la interfaz de un sistema de software es entendible, fácil de usar, atractiva y agradable
al usuario. El método de evaluación heurística es uno de los métodos más utilizados en el área de
Interacción Humano-Computador (HCI) para este propósito debido al bajo costo de su ejecución
en comparación otras técnicas existentes. Sin embargo, a pesar de su amplio uso extensivo durante
los últimos años, no existe un procedimiento formal para llevar a cabo este proceso de evaluación.
Jakob Nielsen, el autor de esta técnica de inspección, ofrece únicamente lineamientos generales
que, según la investigación realizada, tienden a ser interpretados de diferentes maneras por los
especialistas. Por tal motivo, se ha desarrollado el presente proyecto de investigación que tiene
como objetivo establecer un proceso sistemático, estructurado, organizado y formal para llevar a
cabo evaluaciones heurísticas a productos de software. En base a un análisis exhaustivo realizado
a aquellos estudios que reportan en la literatura el uso del método de evaluación heurística como
parte del proceso de desarrollo de software, se ha formulado un nuevo método de evaluación
basado en cinco fases: (1) planificación, (2) entrenamiento, (3) evaluación, (4) discusión y (5)
reporte. Cada una de las fases propuestas que componen el protocolo de inspección contiene un
conjunto de actividades bien definidas a ser realizadas por el equipo de evaluación como parte
del proceso de inspección. Asimismo, se han establecido ciertos roles que deberán desempeñar
los integrantes del equipo de inspectores para asegurar la calidad de los resultados y un apropiado
desarrollo de la evaluación heurística. La nueva propuesta ha sido validada en dos escenarios
académicos distintos (en Colombia, en una universidad pública, y en Perú, en dos universidades
tanto en una pública como en una privada) demostrando en todos casos que es posible identificar
más problemas de usabilidad altamente severos y críticos cuando un proceso estructurado de
inspección es adoptado por los evaluadores. Otro aspecto favorable que muestran los resultados
es que los evaluadores tienden a cometer menos errores de asociación (entre heurística que es
incumplida y problemas de usabilidad identificados) y que la propuesta es percibida como fácil
de usar y útil. Al validarse la nueva propuesta desarrollada por el autor de este estudio se consolida
un nuevo conocimiento que aporta al bagaje cultural de la ciencia.Tesi
Teaching programming to beginners in a massive open online course
The University of Reading’s first Massive Open Online Course (MOOC) “Begin Programming: Build your first mobile game” (#FLMobiGame) was offered in Autumn 2013 on the FutureLearn platform. This course used a simple Android game framework to present basic programming concepts to complete beginners. The course attracted wide interest from all age groups.
The course presented opportunities and challenges to both participants and educators. While some participants had difficulties accessing content some others had trouble grasping the concepts and applying them in a real program. Managing forums was cumbersome with the limited facilities supported by the Beta-platform. A healthy community was formed around the course with the support of social media. The case study reported here is part of an ongoing research programme exploring participants’ MOOC engagement and experience using a grounded, ethnographical approach
Designing Interfaces to Display Sensor Data: A Case Study in the Human-Building Interaction Field Targeting a University Community
The increase of smart buildings with Building Information Modeling (BIM) and Building Management Systems (BMS) has created a large amount of data, including those coming from sensors. These data are intended for monitoring the building conditions by authorized personnel, not being available to all building occupants. In this paper, we evaluate, from a qualitative point of view, if a user interface designed for a specific community can increase occupants’ context-awareness about environmental issues within a building, supporting them to make more informed decisions that best suit their needs. We designed a user interface addressed to the student community of a smart campus, adopting an Iterative Design Cycle methodology, and engaged 48 students by means of structured interviews with the aim of collecting their feedback and conducting a qualitative analysis. The results obtained show the interest of this community in having access to information about the environmental data within smart campus buildings. For example, students were more interested in data about temperature and brightness, rather than humidity. As a further result of this study, we have extrapolated a series of design recommendations to support the creation of map-based user interfaces that we found to be effective in such contexts
The effect of conversational agent skill on user behavior during deception
Conversational agents (CAs) are an integral component of many personal and business interactions. Many recent advancements in CA technology have attempted to make these interactions more natural and human-like. However, it is currently unclear how human-like traits in a CA impact the way users respond to questions from the CA. In some applications where CAs may be used, detecting deception is important. Design elements that make CA interactions more human-like may induce undesired strategic behaviors from human deceivers to mask their deception. To better understand this interaction, this research investigates the effect of conversational skill—that is, the ability of the CA to mimic human conversation—from CAs on behavioral indicators of deception. Our results show that cues of deception vary depending on CA conversational skill, and that increased conversational skill leads to users engaging in strategic behaviors that are detrimental to deception detection. This finding suggests that for applications in which it is desirable to detect when individuals are lying, the pursuit of more human-like interactions may be counter-productive
Review of three-dimensional human-computer interaction with focus on the leap motion controller
Modern hardware and software development has led to an evolution of user interfaces from command-line to natural user interfaces for virtual immersive environments. Gestures imitating real-world interaction tasks increasingly replace classical two-dimensional interfaces based on Windows/Icons/Menus/Pointers (WIMP) or touch metaphors. Thus, the purpose of this paper is to survey the state-of-the-art Human-Computer Interaction (HCI) techniques with a focus on the special field of three-dimensional interaction. This includes an overview of currently available interaction devices, their applications of usage and underlying methods for gesture design and recognition. Focus is on interfaces based on the Leap Motion Controller (LMC) and corresponding methods of gesture design and recognition. Further, a review of evaluation methods for the proposed natural user interfaces is given
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