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The main assumption behind the COOP conferences is that co-operative systems design requires a deep understanding of the co-operative work of dyads, groups and organizations, involving both artefacts and social conventions. The key topic of COOP'2000 was The Use of Theories and Models in Designing Cooperative Systems. Two opposite methodological approaches to co-operative system design can be clearly identified - a pragmatic approach or an approach based on theories and models. Objectives of the COOP'2000 Conference included: clarifying the reasons why one needs or does not need to use a theory or a model for design, comparing the pragmatic and the theory/model-based approaches, and identifying possible joint points between them, discussing the relevance of the theories/models with respect to the design of co-operative systems, to better delimit the respective application fields of the various theories/models, and to identify their possible joint points.
Cooperative Control Design: A Systematic, Passivity-Based Approach discusses multi-agent coordination problems, including formation control, attitude coordination, and synchronization. The goal of the book is to introduce passivity as a design tool for multi-agent systems, to provide exemplary work using this tool, and to illustrate its advantages in designing robust cooperative control algorithms. The discussion begins with an introduction to passivity and demonstrates how passivity can be used as a design tool for motion coordination. Followed by the case of adaptive redesigns for reference velocity recovery while describing a basic design, a modified design and the parameter convergence problem. Formation control is presented as it relates to relative distance control and relative position control. The coverage is concluded with a comprehensive discussion of agreement and the synchronization problem with an example using attitude coordination.
A recent conference brought together researchers who contribute to the design of cooperative systems and their integration into organizational settings. The aim of the conference was to advance the understanding and modeling of collaborative work situations which are mediated by technological artefacts, and to highlight the development of design methodologies for cooperative work analysis and cooperative systems design. Papers from the conference reflect the multidisciplinary nature of this area, representing fields such as computer and information sciences, knowledge engineering, distributed artificial intelligence, organizational and management sciences, and ergonomics. There is no subject index. Annotation : 2004 Book News, Inc., Portland, OR (booknews.com).
Cooperative systems design requires a deep understanding of the cooperative work of groups and organizations. The papers included in this book draw from an empirical background including studies in healthcare, homecare, software-development, architectural design, marine insurance industry and learning in university settings.
Annotation The main goal of the COOP conferences is to contribute to the solution of problems related to the design of cooperative systems, and to the integration of these systems in organizational settings. The main assumption behind the COOP conferences is that cooperative design requires a deep understanding of cooperative work in groups and organizations, involving both artifacts and social practices. The COOP 2002 conference is mainly devoted to the following issues: the gap between 'virtual' and 'material' artifacts in human collaboration; collaboration among mobile actors; the WWW as a platform for cooperative systems and changing practices and organizations in the wake of the cooperative systems.
An invaluable introduction to the new ‘ethnographic’ approach to designing effective and user friendly collaborative and interactive systems. Here, designers are shown how to analyse the social circumstances in which a particular system will be used. Consisting of four sections the book covers: the requirements problem; how to describe and analyse cooperative work; the design process; and how to evaluate systems supporting cooperative work. Practical examples are provided throughout, based on the development case of a collaborative library database system.
COOP 2012 is the tenth COOP conference, marking twenty years from the first conference in 1992. In this special anniversary edition we asked researchers and practitioners to reflect on what have been the successes and the failures in designing cooperative systems, and what challenges still need to be addressed. We have come a long way in understanding the intricacies of cooperation and in designing systems that support work practices and collective activities. These advances would not have been possible without the concerted effort of contributions from a plethora of domains including CSCW, HCI, Information Systems, Knowledge Engineering, Multi-agent systems, organizational and management sciences, sociology, psychology, anthropology, ergonomics, linguistics, etc. The COOP community is going from strength to strength in developing new technologies, advancing and proposing new methodological approaches, and forging theories.
This book, on the ergonomics of human−machine systems, is aimed at engineers specializing in informatics, automation, production or robotics, who are faced with a significant dilemma during the conception of human−machine systems. On the one hand, the human operator guarantees the reliability of the system and has been known to salvage numerous critical situations through an ability to reason in unplanned, imprecise and uncertain situations; on the other hand, the human operator can be unpredictable and create disturbances in the automated system. The first part of the book is dedicated to the methods of human-centered design, from three different points of view, the various chapters focusing on models developed by human engineers and functional models to explain human behavior in their environment, models of cognitive psychology and models in the domain of automobile driving. Part 2 develops the methods of evaluation of the human−machine systems, looking at the evaluation of the activity of the human operator at work and human error analysis methods. Finally, Part 3 is dedicated to human−machine cooperation, where the authors show that a cooperative agent comprises a know-how and a so-called know-how-to-cooperate and show the way to design and evaluate that cooperation in real industrial contexts.
Stability theory has allowed us to study both qualitative and quantitative properties of dynamical systems, and control theory has played a key role in designing numerous systems. Contemporary sensing and communication n- works enable collection and subscription of geographically-distributed inf- mation and such information can be used to enhance signi?cantly the perf- manceofmanyofexisting systems. Throughasharedsensing/communication network,heterogeneoussystemscannowbecontrolledtooperaterobustlyand autonomously; cooperative control is to make the systems act as one group and exhibit certain cooperative behavior, and it must be pliable to physical and environmental constraints as well as be robust to intermittency, latency and changing patterns of the information ?ow in the network. This book attempts to provide a detailed coverage on the tools of and the results on analyzing and synthesizing cooperative systems. Dynamical systems under consideration can be either continuous-time or discrete-time, either linear or non-linear, and either unconstrained or constrained. Technical contents of the book are divided into three parts. The ?rst part consists of Chapters 1, 2, and 4. Chapter 1 provides an overview of coope- tive behaviors, kinematical and dynamical modeling approaches, and typical vehicle models. Chapter 2 contains a review of standard analysis and design tools in both linear control theory and non-linear control theory. Chapter 4 is a focused treatment of non-negativematrices and their properties,multipli- tive sequence convergence of non-negative and row-stochastic matrices, and the presence of these matrices and sequences in linear cooperative systems.
The phrases the information superhighway and the the information societyare on almost everyone's lips. CSCW and groupware systems are the key to bringing those phrases to life. To an extent that would scarcely have been imaginable a few years ago, the contributions in this volume speak to each other and to a broader interdisciplinary context. The areas of ethnography and design, the requirements and principles of CSCW design, CSCW languages and environments, and the evaluation of CSCW systems are brought together, to bring to light how activities in working domains are really in practice, carried out. The aim above all is to do justice to the creativity and versatility of those whose work they aim to support.