The Experts below are selected from a list of 888438 Experts worldwide ranked by ideXlab platform
R P Subasinghe - One of the best experts on this subject based on the ideXlab platform.
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a risk analysis framework for aquatic animal Health Management in marine stock enhancement programmes
Fisheries Research, 2006Co-Authors: Devin M Bartley, Melba G Bondadreantaso, R P SubasingheAbstract:Abstract In light of limited supplies of fish from natural populations, stock enhancement is being considered as one means of helping to meet the demand for seafood products from an ever-increasing human population. The technology to produce large numbers of early-life stage aquatic organisms in hatcheries is well-developed, and the use of alien species, although controversial, has also created new fisheries in some countries. Stock enhancement often requires technical interventions in the rearing process of aquatic organisms that may substantially change how an organism interacts with pathogens. Aquatic animal Health risk analysis in stock enhancement programmes involves consideration of: the source of animals to be released, the populations to be managed, hazard identification, risk assessment, risk Management, quarantine, diagnostic and treatment procedures, mitigation measures, monitoring, reporting the disease status of hatchery and wild populations, and the establishment of aquatic animal Health standards. Information and guidelines to assist in aquatic animal Health Management include the FAO Conduct for Responsible Fisheries, the ICES code of practice on introductions, the OIE aquatic animal Health standards, the Asian regional guidelines on Health Management for the responsible movement of aquatic animals and the WTO's Sanitary and Phytosanitary Agreement.
Wu Shi-da - One of the best experts on this subject based on the ideXlab platform.
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Occupational Health Management and service for small-scale industries in Shanghai.
Toxicology, 2004Co-Authors: Lu Wei, Wu Shi-daAbstract:Because occupational hazards of small-scale industries were severe and the occupational Health Management lagged behind in Shanghai, we selected some districts as experimental units to explore a model of community Management and service for the occupational Health in small-scale industries for controlling occupational hazards. The results indicated that the model is useful. The features of occupational Health in these small-scale industries have been improved markedly. For example, the monitoring rate of occupational hazards increased, the rate for occupational Health recording and training also increased, and the knowledge of the occupational Health among managers and employees has been also enhanced after implementing the new Management model. The practice has shown that it is a low-cost and wide-covered, effective model. The communities may offer the standard, agreeable and low-price occupational Health Management and service to the small-scale industries which are able to pay the service fee although their economic base is comparatively weak. A solution for protecting the occupational population with relatively high mobility and keeping small-scale industries sustainable development has been reported.
Michael G. Pecht - One of the best experts on this subject based on the ideXlab platform.
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IoT-Based Prognostics and Systems Health Management for Industrial Applications
IEEE Access, 2016Co-Authors: Daeil Kwon, Melinda R. Hodkiewicz, Jiajie Fan, Tadahiro Shibutani, Michael G. PechtAbstract:Prognostics and systems Health Management (PHM) is an enabling discipline that uses sensors to assess the Health of systems, diagnoses anomalous behavior, and predicts the remaining useful performance over the life of the asset. The advent of the Internet of Things (IoT) enables PHM to be applied to all types of assets across all sectors, thereby creating a paradigm shift that is opening up significant new business opportunities. This paper introduces the concepts of PHM and discusses the opportunities provided by the IoT. Developments are illustrated with examples of innovations from manufacturing, consumer products, and infrastructure. From this review, a number of challenges that result from the rapid adoption of IoT-based PHM are identified. These include appropriate analytics, security, IoT platforms, sensor energy harvesting, IoT business models, and licensing approaches.
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Prognostics and Health Management of Electronics.
IEEE Transactions on Components & Packaging Technologies, 2006Co-Authors: Nikhil M Vichare, Michael G. PechtAbstract:There has been a growing interest in monitoring the ongoing ‘Health’ of products and systems in order to predict failures and provide warning to avoid catastrophic failure. Here, Health is defined as the extent of degradation or deviation from an expected normal condition. While the application of Health monitoring, also referred to as prognostics, is well established for assessment of mechanical systems, this is not the case for electronic systems. However, electronic systems are integral to the functionality of most systems today, and their reliability is often critical for system reliability. This paper presents the state-of-practice and the current state-of-research in the area of electronics prognostics and Health Management. Four current approaches include built-in-test (BIT), use of fuses and canary devices, monitoring and reasoning of failure precursors, and modeling accumulated damage based on measured life-cycle loads. Examples are provided for these different approaches, and the implementation challenges are discussed. [ABSTRACT FROM AUTHOR]
Devin M Bartley - One of the best experts on this subject based on the ideXlab platform.
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a risk analysis framework for aquatic animal Health Management in marine stock enhancement programmes
Fisheries Research, 2006Co-Authors: Devin M Bartley, Melba G Bondadreantaso, R P SubasingheAbstract:Abstract In light of limited supplies of fish from natural populations, stock enhancement is being considered as one means of helping to meet the demand for seafood products from an ever-increasing human population. The technology to produce large numbers of early-life stage aquatic organisms in hatcheries is well-developed, and the use of alien species, although controversial, has also created new fisheries in some countries. Stock enhancement often requires technical interventions in the rearing process of aquatic organisms that may substantially change how an organism interacts with pathogens. Aquatic animal Health risk analysis in stock enhancement programmes involves consideration of: the source of animals to be released, the populations to be managed, hazard identification, risk assessment, risk Management, quarantine, diagnostic and treatment procedures, mitigation measures, monitoring, reporting the disease status of hatchery and wild populations, and the establishment of aquatic animal Health standards. Information and guidelines to assist in aquatic animal Health Management include the FAO Conduct for Responsible Fisheries, the ICES code of practice on introductions, the OIE aquatic animal Health standards, the Asian regional guidelines on Health Management for the responsible movement of aquatic animals and the WTO's Sanitary and Phytosanitary Agreement.
Lu Wei - One of the best experts on this subject based on the ideXlab platform.
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Occupational Health Management and service for small-scale industries in Shanghai.
Toxicology, 2004Co-Authors: Lu Wei, Wu Shi-daAbstract:Because occupational hazards of small-scale industries were severe and the occupational Health Management lagged behind in Shanghai, we selected some districts as experimental units to explore a model of community Management and service for the occupational Health in small-scale industries for controlling occupational hazards. The results indicated that the model is useful. The features of occupational Health in these small-scale industries have been improved markedly. For example, the monitoring rate of occupational hazards increased, the rate for occupational Health recording and training also increased, and the knowledge of the occupational Health among managers and employees has been also enhanced after implementing the new Management model. The practice has shown that it is a low-cost and wide-covered, effective model. The communities may offer the standard, agreeable and low-price occupational Health Management and service to the small-scale industries which are able to pay the service fee although their economic base is comparatively weak. A solution for protecting the occupational population with relatively high mobility and keeping small-scale industries sustainable development has been reported.
