The Experts below are selected from a list of 365538 Experts worldwide ranked by ideXlab platform
Tomaz Javornik - One of the best experts on this subject based on the ideXlab platform.
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wireless sensor network based infrastructure for experimentally Driven Research
International Symposium on Wireless Communication Systems, 2013Co-Authors: Mihael Mohorcic, Miha Smolnikar, Tomaz JavornikAbstract:The availability of suitable infrastructure represents one of the key factors for sustainable development of society and economy. The concept of smart cities exposed the importance of sensorial infrastructure combined with powerful analytical data processing to enable deep insight and better understanding of natural and social processes to provide various services to citizens. The aim of this paper is to present the LOGa-TEC sensor network and its role in experimentally Driven Research and development. The LOG-a-TEC testbed is based on wireless sensor network technology and its initial phase was deployed on public infrastructure in Logatec, Slovenia, subsequently being complemented with additional locations for different application areas. In all cases the wireless sensor network implementation is based on the VESNA platform, a versatile platform for sensor network applications. To support the evaluation of different principles and solutions, the VESNA platform allows remote reprogramming as well as expansion with new sensors and other functional modules. As an example we present LOG-a-TEC experimental infrastructure based applications for radio spectrum occupancy sensing, environmental monitoring, smart grids and the sensors as a service concept making sensors and their measurements directly accessible for ad hoc use. Keywords—LOG-a-TEC; wireless sensor network; VESNA platform; experimentally Driven Research; smart infrastructure and services
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wireless sensor network based infrastructure for experimentally Driven Research
International Symposium on Wireless Communication Systems, 2013Co-Authors: Mihael Mohorcic, Miha Smolnikar, Tomaz JavornikAbstract:The availability of suitable infrastructure represents one of the key factors for sustainable development of society and economy. The concept of smart cities exposed the importance of sensorial infrastructure combined with powerful analytical data processing to enable deep insight and better understanding of natural and social processes to provide various services to citizens. The aim of this paper is to present the LOGa-TEC sensor network and its role in experimentally Driven Research and development. The LOG-a-TEC testbed is based on wireless sensor network technology and its initial phase was deployed on public infrastructure in Logatec, Slovenia, subsequently being complemented with additional locations for different application areas. In all cases the wireless sensor network implementation is based on the VESNA platform, a versatile platform for sensor network applications. To support the evaluation of different principles and solutions, the VESNA platform allows remote reprogramming as well as expansion with new sensors and other functional modules. As an example we present LOG-a-TEC experimental infrastructure based applications for radio spectrum occupancy sensing, environmental monitoring, smart grids and the sensors as a service concept making sensors and their measurements directly accessible for ad hoc use. Keywords—LOG-a-TEC; wireless sensor network; VESNA platform; experimentally Driven Research; smart infrastructure and services
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ISWCS - Wireless Sensor Network Based Infrastructure for Experimentally Driven Research
2013Co-Authors: Mihael Mohorcic, Miha Smolnikar, Tomaz JavornikAbstract:The availability of suitable infrastructure represents one of the key factors for sustainable development of society and economy. The concept of smart cities exposed the importance of sensorial infrastructure combined with powerful analytical data processing to enable deep insight and better understanding of natural and social processes to provide various services to citizens. The aim of this paper is to present the LOGa-TEC sensor network and its role in experimentally Driven Research and development. The LOG-a-TEC testbed is based on wireless sensor network technology and its initial phase was deployed on public infrastructure in Logatec, Slovenia, subsequently being complemented with additional locations for different application areas. In all cases the wireless sensor network implementation is based on the VESNA platform, a versatile platform for sensor network applications. To support the evaluation of different principles and solutions, the VESNA platform allows remote reprogramming as well as expansion with new sensors and other functional modules. As an example we present LOG-a-TEC experimental infrastructure based applications for radio spectrum occupancy sensing, environmental monitoring, smart grids and the sensors as a service concept making sensors and their measurements directly accessible for ad hoc use. Keywords—LOG-a-TEC; wireless sensor network; VESNA platform; experimentally Driven Research; smart infrastructure and services
Mihael Mohorcic - One of the best experts on this subject based on the ideXlab platform.
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wireless sensor network based infrastructure for experimentally Driven Research
International Symposium on Wireless Communication Systems, 2013Co-Authors: Mihael Mohorcic, Miha Smolnikar, Tomaz JavornikAbstract:The availability of suitable infrastructure represents one of the key factors for sustainable development of society and economy. The concept of smart cities exposed the importance of sensorial infrastructure combined with powerful analytical data processing to enable deep insight and better understanding of natural and social processes to provide various services to citizens. The aim of this paper is to present the LOGa-TEC sensor network and its role in experimentally Driven Research and development. The LOG-a-TEC testbed is based on wireless sensor network technology and its initial phase was deployed on public infrastructure in Logatec, Slovenia, subsequently being complemented with additional locations for different application areas. In all cases the wireless sensor network implementation is based on the VESNA platform, a versatile platform for sensor network applications. To support the evaluation of different principles and solutions, the VESNA platform allows remote reprogramming as well as expansion with new sensors and other functional modules. As an example we present LOG-a-TEC experimental infrastructure based applications for radio spectrum occupancy sensing, environmental monitoring, smart grids and the sensors as a service concept making sensors and their measurements directly accessible for ad hoc use. Keywords—LOG-a-TEC; wireless sensor network; VESNA platform; experimentally Driven Research; smart infrastructure and services
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wireless sensor network based infrastructure for experimentally Driven Research
International Symposium on Wireless Communication Systems, 2013Co-Authors: Mihael Mohorcic, Miha Smolnikar, Tomaz JavornikAbstract:The availability of suitable infrastructure represents one of the key factors for sustainable development of society and economy. The concept of smart cities exposed the importance of sensorial infrastructure combined with powerful analytical data processing to enable deep insight and better understanding of natural and social processes to provide various services to citizens. The aim of this paper is to present the LOGa-TEC sensor network and its role in experimentally Driven Research and development. The LOG-a-TEC testbed is based on wireless sensor network technology and its initial phase was deployed on public infrastructure in Logatec, Slovenia, subsequently being complemented with additional locations for different application areas. In all cases the wireless sensor network implementation is based on the VESNA platform, a versatile platform for sensor network applications. To support the evaluation of different principles and solutions, the VESNA platform allows remote reprogramming as well as expansion with new sensors and other functional modules. As an example we present LOG-a-TEC experimental infrastructure based applications for radio spectrum occupancy sensing, environmental monitoring, smart grids and the sensors as a service concept making sensors and their measurements directly accessible for ad hoc use. Keywords—LOG-a-TEC; wireless sensor network; VESNA platform; experimentally Driven Research; smart infrastructure and services
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ISWCS - Wireless Sensor Network Based Infrastructure for Experimentally Driven Research
2013Co-Authors: Mihael Mohorcic, Miha Smolnikar, Tomaz JavornikAbstract:The availability of suitable infrastructure represents one of the key factors for sustainable development of society and economy. The concept of smart cities exposed the importance of sensorial infrastructure combined with powerful analytical data processing to enable deep insight and better understanding of natural and social processes to provide various services to citizens. The aim of this paper is to present the LOGa-TEC sensor network and its role in experimentally Driven Research and development. The LOG-a-TEC testbed is based on wireless sensor network technology and its initial phase was deployed on public infrastructure in Logatec, Slovenia, subsequently being complemented with additional locations for different application areas. In all cases the wireless sensor network implementation is based on the VESNA platform, a versatile platform for sensor network applications. To support the evaluation of different principles and solutions, the VESNA platform allows remote reprogramming as well as expansion with new sensors and other functional modules. As an example we present LOG-a-TEC experimental infrastructure based applications for radio spectrum occupancy sensing, environmental monitoring, smart grids and the sensors as a service concept making sensors and their measurements directly accessible for ad hoc use. Keywords—LOG-a-TEC; wireless sensor network; VESNA platform; experimentally Driven Research; smart infrastructure and services
Matthew R. Golden - One of the best experts on this subject based on the ideXlab platform.
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Public Health Practice-Driven Research to Improve HIV Prevention in the United States.
JAIDS Journal of Acquired Immune Deficiency Syndromes, 2019Co-Authors: Julia C. Dombrowski, Mary K. Irvine, Denis Nash, Graham Harriman, Matthew R. GoldenAbstract:BACKGROUND The evidence-practice gap in HIV prevention and the care continuum in the United States often reflects a mismatch between the perspectives of Researchers and public health practitioners. The traditional Research paradigm of sequential progress from efficacy Research to implementation in practice and widespread scale-up is not well-aligned with the reality of health department program implementation. SETTING This article focuses on public health practice carried out by state and local health departments in the United States and the Research intended to inform it. METHODS AND RESULTS In this narrative review, we discuss approaches to HIV prevention and care continuum Research that are shaped by and responsive to public health practice implementation priorities and what is needed to promote productive and successful university-health department Research partnerships. We review Research methods of particular relevance to health departments to evaluate the effectiveness of HIV prevention and care continuum interventions and how these approaches diverge from traditional Research approaches. Finally, we highlight the roles of federal agencies in supporting practice-Driven HIV implementation Research. CONCLUSIONS Health departments are key stakeholders, consumers, and generators of the evidence base for public health practice. High-impact Research to improve HIV prevention and the care continuum is informed by health department priorities and current practice from the start. Long-term, equitable relationships between universities and health departments are crucial to advance practice-Driven Research.
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Public Health Practice-Driven Research to Improve HIV Prevention in the United States.
Journal of acquired immune deficiency syndromes (1999), 2019Co-Authors: Julia C. Dombrowski, Denis Nash, Graham Harriman, Mary Irvine, Matthew R. GoldenAbstract:The evidence-practice gap in HIV prevention and the care continuum in the United States often reflects a mismatch between the perspectives of Researchers and public health practitioners. The traditional Research paradigm of sequential progress from efficacy Research to implementation in practice and widespread scale-up is not well-aligned with the reality of health department program implementation. This article focuses on public health practice carried out by state and local health departments in the United States and the Research intended to inform it. In this narrative review, we discuss approaches to HIV prevention and care continuum Research that are shaped by and responsive to public health practice implementation priorities and what is needed to promote productive and successful university-health department Research partnerships. We review Research methods of particular relevance to health departments to evaluate the effectiveness of HIV prevention and care continuum interventions and how these approaches diverge from traditional Research approaches. Finally, we highlight the roles of federal agencies in supporting practice-Driven HIV implementation Research. Health departments are key stakeholders, consumers, and generators of the evidence base for public health practice. High-impact Research to improve HIV prevention and the care continuum is informed by health department priorities and current practice from the start. Long-term, equitable relationships between universities and health departments are crucial to advance practice-Driven Research.
Jorge L. C. Sanz - One of the best experts on this subject based on the ideXlab platform.
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Trends in Enterprise Architecture Research and Practice-Driven Research on Enterprise Transformation: 7th Workshop, TEAR 2012, and 5th Working
2012Co-Authors: Stephan Aier, Erik Proper, Mathias Ekstedt, Florian Matthes, Jorge L. C. SanzAbstract:This volume constitutes the proceedings of the combined 7th International Workshop on Trends in Enterprise Architecture Research (TEAR 2012) and the 5th Working Conference on Practice-Driven Research on Enterprise Transformation (PRET-5), held in Barcelona, Spain, October 23-24, 2012, and co-located with The Open Group's Conference on Enterprise Architecture, Cloud Computing, and Security. Joining the forces of the two events with The Open Group Conference provided the unique opportunity for an intensive exchange between practitioners as well as for discussions on standardization efforts and academic Research in the areas of enterprise transformation and enterprise architecture (EA). Based on careful reviews by at least three Program Committee members, 18 papers were chosen for inclusion in these proceedings. They were presented in six sessions on enterprise architecture management (EAM) effectivity, languages for EA, EAM and the ability to change, advanced topics in EA, governing enterprise transformations, and EA applications.
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Trends in Enterprise Architecture Research and Practice-Driven Research on Enterprise Transformation - Trends in Enterprise Architecture Research and Practice-Driven Research on Enterprise Transformation: 7th Workshop, TEAR 2012, and 5th Working Conf
Lecture Notes in Business Information Processing, 2012Co-Authors: Stephan Aier, Erik Proper, Mathias Ekstedt, Florian Matthes, Jorge L. C. SanzAbstract:Trends in Enterprise Architecture Research and Practice-Driven Research on Enterprise Transformation : 7th Workshop, TEAR 2012, and 5th Working Conference, PRET 2012, Held at The Open Group Conference 2012, Barcelona, Spain, October 23-24, 2012. Proceedings
Miha Smolnikar - One of the best experts on this subject based on the ideXlab platform.
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wireless sensor network based infrastructure for experimentally Driven Research
International Symposium on Wireless Communication Systems, 2013Co-Authors: Mihael Mohorcic, Miha Smolnikar, Tomaz JavornikAbstract:The availability of suitable infrastructure represents one of the key factors for sustainable development of society and economy. The concept of smart cities exposed the importance of sensorial infrastructure combined with powerful analytical data processing to enable deep insight and better understanding of natural and social processes to provide various services to citizens. The aim of this paper is to present the LOGa-TEC sensor network and its role in experimentally Driven Research and development. The LOG-a-TEC testbed is based on wireless sensor network technology and its initial phase was deployed on public infrastructure in Logatec, Slovenia, subsequently being complemented with additional locations for different application areas. In all cases the wireless sensor network implementation is based on the VESNA platform, a versatile platform for sensor network applications. To support the evaluation of different principles and solutions, the VESNA platform allows remote reprogramming as well as expansion with new sensors and other functional modules. As an example we present LOG-a-TEC experimental infrastructure based applications for radio spectrum occupancy sensing, environmental monitoring, smart grids and the sensors as a service concept making sensors and their measurements directly accessible for ad hoc use. Keywords—LOG-a-TEC; wireless sensor network; VESNA platform; experimentally Driven Research; smart infrastructure and services
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wireless sensor network based infrastructure for experimentally Driven Research
International Symposium on Wireless Communication Systems, 2013Co-Authors: Mihael Mohorcic, Miha Smolnikar, Tomaz JavornikAbstract:The availability of suitable infrastructure represents one of the key factors for sustainable development of society and economy. The concept of smart cities exposed the importance of sensorial infrastructure combined with powerful analytical data processing to enable deep insight and better understanding of natural and social processes to provide various services to citizens. The aim of this paper is to present the LOGa-TEC sensor network and its role in experimentally Driven Research and development. The LOG-a-TEC testbed is based on wireless sensor network technology and its initial phase was deployed on public infrastructure in Logatec, Slovenia, subsequently being complemented with additional locations for different application areas. In all cases the wireless sensor network implementation is based on the VESNA platform, a versatile platform for sensor network applications. To support the evaluation of different principles and solutions, the VESNA platform allows remote reprogramming as well as expansion with new sensors and other functional modules. As an example we present LOG-a-TEC experimental infrastructure based applications for radio spectrum occupancy sensing, environmental monitoring, smart grids and the sensors as a service concept making sensors and their measurements directly accessible for ad hoc use. Keywords—LOG-a-TEC; wireless sensor network; VESNA platform; experimentally Driven Research; smart infrastructure and services
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ISWCS - Wireless Sensor Network Based Infrastructure for Experimentally Driven Research
2013Co-Authors: Mihael Mohorcic, Miha Smolnikar, Tomaz JavornikAbstract:The availability of suitable infrastructure represents one of the key factors for sustainable development of society and economy. The concept of smart cities exposed the importance of sensorial infrastructure combined with powerful analytical data processing to enable deep insight and better understanding of natural and social processes to provide various services to citizens. The aim of this paper is to present the LOGa-TEC sensor network and its role in experimentally Driven Research and development. The LOG-a-TEC testbed is based on wireless sensor network technology and its initial phase was deployed on public infrastructure in Logatec, Slovenia, subsequently being complemented with additional locations for different application areas. In all cases the wireless sensor network implementation is based on the VESNA platform, a versatile platform for sensor network applications. To support the evaluation of different principles and solutions, the VESNA platform allows remote reprogramming as well as expansion with new sensors and other functional modules. As an example we present LOG-a-TEC experimental infrastructure based applications for radio spectrum occupancy sensing, environmental monitoring, smart grids and the sensors as a service concept making sensors and their measurements directly accessible for ad hoc use. Keywords—LOG-a-TEC; wireless sensor network; VESNA platform; experimentally Driven Research; smart infrastructure and services