3,648 research outputs found

    Semantic discovery and reuse of business process patterns

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    Patterns currently play an important role in modern information systems (IS) development and their use has mainly been restricted to the design and implementation phases of the development lifecycle. Given the increasing significance of business modelling in IS development, patterns have the potential of providing a viable solution for promoting reusability of recurrent generalized models in the very early stages of development. As a statement of research-in-progress this paper focuses on business process patterns and proposes an initial methodological framework for the discovery and reuse of business process patterns within the IS development lifecycle. The framework borrows ideas from the domain engineering literature and proposes the use of semantics to drive both the discovery of patterns as well as their reuse

    A Systematic Literature Review on Innovative Technologies Adopted in Logistics Management

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    Many innovative technologies have been successfully adopted in logistics and supply chain management processes to increase efficiency, reduce costs or enhance communication. In recent years, considerable attention from both practitioners and academics has been focused on evaluating the impacts of innovative technologies adoption. However, the current body of literature on technology adoption, implementation and evaluation in logistics is quite fragmented; thus, an updated and structured overview of the scientific literature in this field might be useful. To this end, this work presents a systematic literature review (SLR) that aims to increase the understanding of the trend toward new technologies in logistics and identify the main research trends and gaps. The principal research trends that emerged from the SLR involve the technologies, their evolution over time and their relationships with the research methodologies. The main literature gaps concern integration and communication, technology-adoption processes and differences between inbound and outbound logistics

    A Study of Technology Innovations and Applications in Transforming Safety and Security in Healthcare Facility Management

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    The increasing complexity of construction projects has transformed the Architecture, Engineering, and Construction (AEC) industry through technology adoption over the last decade. But, Facility Management (FM) as an industry has been slow in technology adoption. Growing market competition, corporate demands and new ways of attracting clients for owners are compelling FM professionals to be more efficient. This requirement is driving technology adoption by FM professionals. This study identifies technologies adopted by Healthcare Facility Management (HFM) professionals for improving safety and security of users that have capabilities and conceived and/or developed applications that can or in some cases are at present used in HFM. Simultaneously, it also looks into potentials and capabilities of a handful of other technologies in further improving safety and security. Using Literature-Based Discovery (LBD), the technology applications and innovations aimed towards safety and security are discovered from the literature that falls within the purview of HFM to form a picture of how these technologies enhance the practice of FM. The study aims at detecting how technologies have contributed towards transforming user experience. Also, this study identifies existing technologies and innovation demands (knowledge and gaps in knowledge), a general understanding of technology, its use and capabilities, and its recognition by users and industry professionals (adoption/rejection). They serve to illustrate how and to what degree the technologies will come to be used in facility management. Technologies, as they mature, will come to be used by facility managers in similar functions and hypothetically, entirely new ones. One should create a better user experience tailored to the functionality demanded. It is important for facility managers to partner with technology companies presenting innovative solutions to create a platform that is tailored to user-specific needs. Acceptance of a unified process, together with input from users, facility managers, and an assessment of current technologies and new advances in practice are productive ways to develop technologies that drive user satisfaction. This paper works to illustrate a future vision of HFM based on these technologies. Healthcare facility managers will have a reference that assembles multiple technological proficiencies that can function in their practice going forward

    An Inside Look at RFID Technology

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    RFID (Radio Frequency Identification) is considered one of the “hottest” technologies due to its particular capabilities to track and trace in real-time objects across the extended supply chain. This article gives an inside look at the RFID world in order to improve the level of understanding of this technology and the EPC Network. An introduction to RFID’s systems, RFID’s potential to improve the efficiency of operations, different areas of application, as well as a roadmap approach to undertake an RFID implementation will be discussed in this article.La Identificación por Rediofrecuencias (RFID) es considerada hoy en día una de las tecnologías “de punta” debido a su capacidad especializada de identificar y trazar objetos a lo largo de una cadena de provisión en tiempo real. El siguiente artículo hace una revisión de RFID en el mundo con el objetivo de entender ésta tecnología y la red EPC. Una introducción a los sistemas de RFID, y el potencial de éste sistema para mejorar la eficiencia de sus operaciones, las diferentes áreas de su aplicación, y una aproximación de un mapa de implementación de RFID es discutida a continuación.RFID (Radio Frequency Identification) is considered one of the “hottest” technologies due to its particular capabilities to track and trace in real-time objects across the extended supply chain. This article gives an inside look at the RFID world in order to improve the level of understanding of this technology and the EPC Network. An introduction to RFID’s systems, RFID’s potential to improve the efficiency of operations, different areas of application, as well as a roadmap approach to undertake an RFID implementation will be discussed in this article

    Impact of Radio-Frequency Identification (RFID) Technologies on the Hospital Supply Chain: A Literature Review

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    Supply costs account for more than one-third of the average operating budget and constitute the second largest expenditure in hospitals. As hospitals have sought to reduce these costs, radio-frequency identification (RFID) technology has emerged as a solution. This study reviews existing literature to gauge the recent and potential impact and direction of the implementation of RFID in the hospital supply chain to determine current benefits and barriers of adoption. Findings show that the application of RFID to medical equipment and supplies tracking has resulted in efficiency increases in hospitals with lower costs and increased service quality. RFID technology can reduce costs, improve patient safety, and improve supply chain management effectiveness by increasing the ability to track and locate equipment, as well as monitoring theft prevention, distribution management, and patient billing. Despite ongoing RFID implementation in the hospital supply chain, barriers to widespread and rapid adoption include significant total expenditures, unclear return on investment, and competition with other strategic imperatives

    Healthcare RFID In Germany: An Integrated Pharmaceutical Supply Chain Perspective

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    Today’s healthcare environments are characterized by a variety of products, services, and associated data and information that are transferred across many healthcare sector participants. Pharmaceutical supply chains in particular are one example of fragmented information flows among supply chain participants. Pharmaceutical supply chain processes have a crucial influence on medication quality and ultimate patient outcomes. When manufacturing problems arise, temperature control cannot be maintained throughout the supply chain, counterfeit medications enter the supply chain, containers are damaged or sensitive medication is improperly transported and stored, the drugs’ effectiveness can be affected and this can result in serious consequences, including patient sickens or even death. In this paper, we analyze Radio Frequency Identification Technology (RFID), a technology that can improve communication of data and information, reduce counterfeiting, and enable monitoring of drug quality in pharmaceutical supply chains. The study is conducted in the context of an RFID platform implemented in Germany. The paper extends and complements previous studies by analyzing the RFID implementation and business value in an end-to-end supply chain process across multiple stakeholders in the pharmaceutical supply chain, from the manufacturer via the wholesaler to pharmacies and hospitals. The results confirm that RFID benefits are realized when supply chain processes are changed with the help of technology, but that different supply chain participants have different benefit realization perceptions. The analysis further reveals specific types of process changes for each supply chain participant and their corresponding benefits

    Logistics Projects: How to Assess the Right System? The Case of RFID Solutions in Healthcare

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    RFID is very promising for the healthcare industry. However, RFID solutions and contexts of use vary a lot from one place to another and as a consequence its impact on performance can vary as well. Moreover, it can be complex to assess its potential benefits relatively to other solutions before its implementation. We analyze a real project which gathers 18 partners working together to implement RFID solutions and/or datamatrix in health related processes in hospitals. We show the complexity of assessing such a project: diversity of the domains involved, interdependencies between them and impact of representation of the project on its assessment. Instead of providing an evaluation tool ready to use, we suggest a meta-evaluation tool which determines what the appropriate scope and abstraction level are to represent and grasp what has to be assessed. Practitioners could then use it to design their own customized evaluation tool on the field

    A Conceptual Foresight Model to Investigate the Adoption of Radio Frequency Identification Technology in the English National Health Service

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    Radio Frequency Identification Technology (RFID) adoption in healthcare settings has the potential to reduce errors, improve patient safety, streamline operational processes and enable the sharing of information throughout supply chains. RFID adoption in the English NHS is limited to isolated pilot studies. Firstly, this study investigates the drivers and inhibitors to RFID adoption in the English NHS from the perspective of the GS1 Healthcare User Group (HUG) tasked with coordinating adoption across private and public sectors. Secondly a conceptual model has been developed and deployed, combining two of foresight’s most popular methods; scenario planning and technology roadmapping. The model addresses the weaknesses of each foresight technique as well as capitalizing on their individual, inherent strengths. Semi structured interviews, scenario planning workshops and a technology roadmapping exercise were conducted with the members of the HUG over an 18-month period. An action research mode of enquiry was utilized with a thematic analysis approach for the identification and discussion of the drivers and inhibitors of RFID adoption. The results of the conceptual model are analysed in comparison to other similar models. There are implications for managers responsible for RFID adoption in both the NHS and its commercial partners, and for foresight practitioners. Managers can leverage the insights gained from identifying the drivers and inhibitors to RFID adoption by making efforts to influence the removal of inhibitors and supporting the continuation of the drivers. The academic contribution of this aspect of the thesis is in the field of RFID adoption in healthcare settings. Drivers and inhibitors to RFID adoption in the English NHS are compared to those found in other settings. The implication for technology foresight practitioners is a proof of concept of a model combining scenario planning and technology roadmapping using a novel process. The academic contribution to the field of technology foresight is the conceptual development of foresight model that combines two popular techniques and then a deployment of the conceptual foresight model in a healthcare setting exploring the future of RFID technology

    A Framework for the Implementation of RFID Systems

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    There are an increasing number of organizations planning to implement Radio Frequency Identification (RFID) systems to enhance their competitiveness. Due to the novelty of the technology, many managerial challenges exist in determining and planning for the implementation of such systems. These challenges often lead to wasted efforts and resources, as well as to failed implementations. This paper presents a systematic and holistic RFID implementation framework which has been validated by both users and experts. The framework outlines the important tasks to be performed in each step of the implementation process. To enable practitioners to make informed go/no‐go decisions, essential considerations of implementation are also discussed in this paper. Furthermore, the critical success factors for the deployment of such systems are also elaborated
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