933 research outputs found

    A Three Cycle View of Design Science Research

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    As a commentary to Juhani Iivari’s insightful essay, I briefly analyze design science research as an embodiment of three closely related cycles of activities. The Relevance Cycle inputs requirements from the contextual environment into the research and introduces the research artifacts into environmental field testing. The Rigor Cycle provides grounding theories and methods along with domain experience and expertise from the foundations knowledge base into the research and adds the new knowledge generated by the research to the growing knowledge base. The central Design Cycle supports a tighter loop of research activity for the construction and evaluation of design artifacts and processes. The recognition of these three cycles in a research project clearly positions and differentiates design science from other research paradigms. The commentary concludes with a claim to the pragmatic nature of design science

    The Knowledge Innovation Matrix (KIM): A Clarifying Lens for Innovation

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    Team Synergy in Software Inspections: A Group Behavior Analysis

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    Inspections provide many benefits in the software development process. However, the cost effectiveness of inspections has been criticized. Also, many organizations simply do not have the time to perform complete inspections of all software artifacts within the development schedule. Due to its pragmatic and domain-specific nature, little formal research has been performed on inspections. We propose to begin a study of software development inspections by surveying several relevant research papers on group behavior theory. We applythis research to inspections and outline a laboratory experiment for future researc

    Box-Structured Requirement Determination Methods

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    Requirements determination is an iterative process of eliciting, gathering, modeling, specifying, and analyzing system requirements information. It is the most critical, yet least understood, phase of systems development. This paper presents a rigorous approach for performing requirements determination with box-structured methods. By capturing requirements information in black box transactions and transaction hierarchies, intellectual control is maintained over large amounts of requirements information. The results of the box-structured requirements determination methods provide the basis for formal system design techniques. A concise example of box-structured requirements determination is included in an appendix

    A Proficiency Model for Design Science Research Education

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    Design science research (DSR) produces knowledge via the design and evaluation of innovative solutions to real-world problems. DSR provides an improved understanding of how and why the solutions work. While DSR is being widely embraced in many research disciplines, its educational pedagogy so far remains immature with little guidance on how best to inform and train various audiences on relevant and rigorous DSR skillsets. Grounded on the authors’ wide experience in designing and delivering DSR courses over the past decades, we develop a “DSR Proficiency Model” to highlight key skills required to succeed in planning, applying, and communicating DSR. We recognize the different educational environments and student backgrounds that DSR courses must accommodate and provide actionable guidance for mapping the proficiency model to academic, training, and executive audiences. Informative examples demonstrate how we have structured DSR curricula for different academic and executive education programs

    Box-Structured Methods for Systems-Development with Objects

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    Editorial Statement: Information Technology and Systems (ITS) Department

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    This paper introduces the Information and Technology Systems (ITS) Department of CAIS. The department focuses on articles in design science. The goal of design-science research is the development and evaluation of technologies that extend the boundaries of human and organizational information-processing capabilities. Research must demonstrate the utility of such technologies to address problems or tasks not previously thought to be amenable to IT support. The article presents the objectives, concepts, and publication procedures for the ITS Department

    The Design of a System for Online Psychosocial Care: Balancing Privacy and Accountability in Sensitive Online Healthcare Environments

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    The design of sensitive online healthcare systems must balance the requirements of privacy and accountability for the good of individuals, organizations, and society. Via a design science research approach, we build and evaluate a sophisticated software system for the online provision of psychosocial healthcare to distributed and vulnerable populations. Multidisciplinary research capabilities are embedded within the system to investigate the effectiveness of online treatment protocols. Throughout the development cycles of the system, we build an emergent design theory of scrutiny that applies a multi-layer protocol to support governance of privacy and accountability in sensitive online applications. The design goal is to balance stakeholder privacy protections with the need to provide for accountable interventions in critical and well-defined care situations. The research implications for the development and governance of online applications in numerous privacy-sensitive application areas are explore

    Research in Information Systems Analysis and Design: Introduction to the Special Theme Papers

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    Information systems analysis and design are basic topics in the Information Systems (IS) curriculum. A large number of IS graduates are employed as information systems developers. However, research in the IS field pays relatively little attention to IS analysis and design topics. Few of the articles published in leading IS research journals in the last decade deal with these topics In response, CAIS and JAIS are jointly presenting Special Themes on Research in Information Systems Analysis and Design to begin to fill this void and to attract attention of researchers to this important area

    Towards a NeuroIS Research Methodology: Intensifying the Discussion on Methods, Tools, and Measurement

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    The genesis of the Neuro-Information Systems (NeuroIS) field took place in 2007. Since then, a considerable number of IS scholars and academics from related disciplines have started to use theories, methods, and tools from neuroscience and psychophysiology to better understand human cognition, emotion, and behavior in IS contexts, and to develop neuro-adaptive information systems (i.e., systems that recognize the physiological state of the user and that adapt, based on that information, in real-time). However, because the NeuroIS field is still in a nascent stage, IS scholars need to become familiar with the methods, tools, and measurements that are used in neuroscience and psychophysiology. Against the background of the increased importance of methodological discussions in the NeuroIS field, the Journal of the Association for Information Systems published a special issue call for papers entitled “Methods, tools, and measurement in NeuroIS research” in 2012. We, the special issue’s guest editors, accepted three papers after a stringent review process, which appear in this special issue. In addition to these three papers, we hope to intensify the discussion on NeuroIS research methodology, and to this end we present the current paper. Importantly, our observations during the review process (particularly with respect to methodology) and our own reading of the literature and the scientific discourse during conferences served as input for this paper. Specifically, we argue that six factors, among others that will become evident in future discussions, are critical for a rigorous NeuroIS research methodology; namely, reliability, validity, sensitivity, diagnosticity, objectivity, and intrusiveness of a measurement instrument. NeuroIS researchers—independent from whether their role is editor, reviewer, or author—should carefully give thought to these factors. We hope that the discussion in this paper instigates future contributions to a growing understanding towards a NeuroIS research methodology
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