The Experts below are selected from a list of 30000 Experts worldwide ranked by ideXlab platform
Nasa - One of the best experts on this subject based on the ideXlab platform.
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The DFVLR main department for central Data Processing, 1976 - 1983
2019Co-Authors: NasaAbstract:Data Processing, Equipment and systems operation, operative and user systems, user services, computer networks and communications, text Processing, computer graphics, and high power computers are discussed.
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Tiros ii radiation Data catalog, volume one
2019Co-Authors: Nasa, Weather BureauAbstract:Catalog of mapping procedures for tiros ii radiation Data utilizing automatic Data-Processing Equipment
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Automatic Data Processing Equipment (ADPE) acquisition plan for the medical sciences
2013Co-Authors: NasaAbstract:An effective mechanism for meeting the SLSD/MSD Data handling/Processing requirements for Shuttle is discussed. The ability to meet these requirements depends upon the availability of a general purpose high speed digital computer system. This system is expected to implement those Data base management and Processing functions required across all SLSD/MSD programs during training, laboratory operations/analysis, simulations, mission operations, and post mission analysis/reporting.
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Goddard Real Time Programming System. Volume I - Introduction
2013Co-Authors: NasaAbstract:Data Processing Equipment and procedures for real time programming system used with Gemini manned missions
Jianyuan Huang - One of the best experts on this subject based on the ideXlab platform.
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Automatic Data-Processing Equipment of moon mark of nail for verifying some experiential theory of Traditional Chinese Medicine.
Technology and Health Care, 2016Co-Authors: Renjie Niu, Jianyuan HuangAbstract:Background Doctors who practice Traditional Chinese Medicine (TCM) diagnose using four methods - inspection, auscultation and olfaction, interrogation, and pulse feeling/palpation. The shape and shape changes of the moon marks on the nails are an important indication when judging the patient's health. There are a series of classical and experimental theories about moon marks in TCM, which does not have support from statistical Data. Objective To verify some experiential theories on moon mark in TCM by automatic Data-Processing Equipment. Methods This paper proposes the Equipment that utilizes image Processing technology to collect moon mark Data of different target groups conveniently and quickly, building a Database that combines this information with that gathered from the health and mental status questionnaire in each test. Results This Equipment has a simple design, a low cost, and an optimized algorithm. The practice has been proven to quickly complete automatic acquisition and preservation of key Data about moon marks. Conclusion In the future, some conclusions will likely be obtained from these Data; some changes of moon marks related to a special pathological change will be established with statistical methods.
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Automatic Data-Processing Equipment of moon mark of nail for verifying some experiential theory of Traditional Chinese Medicine.
Technology and health care : official journal of the European Society for Engineering and Medicine, 2016Co-Authors: Renjie Niu, Jianyuan HuangAbstract:Doctors who practice Traditional Chinese Medicine (TCM) diagnose using four methods - inspection, auscultation and olfaction, interrogation, and pulse feeling/palpation. The shape and shape changes of the moon marks on the nails are an important indication when judging the patient's health. There are a series of classical and experimental theories about moon marks in TCM, which does not have support from statistical Data. To verify some experiential theories on moon mark in TCM by automatic Data-Processing Equipment. This paper proposes the Equipment that utilizes image Processing technology to collect moon mark Data of different target groups conveniently and quickly, building a Database that combines this information with that gathered from the health and mental status questionnaire in each test. This Equipment has a simple design, a low cost, and an optimized algorithm. The practice has been proven to quickly complete automatic acquisition and preservation of key Data about moon marks. In the future, some conclusions will likely be obtained from these Data; some changes of moon marks related to a special pathological change will be established with statistical methods.
Renjie Niu - One of the best experts on this subject based on the ideXlab platform.
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Automatic Data-Processing Equipment of moon mark of nail for verifying some experiential theory of Traditional Chinese Medicine.
Technology and Health Care, 2016Co-Authors: Renjie Niu, Jianyuan HuangAbstract:Background Doctors who practice Traditional Chinese Medicine (TCM) diagnose using four methods - inspection, auscultation and olfaction, interrogation, and pulse feeling/palpation. The shape and shape changes of the moon marks on the nails are an important indication when judging the patient's health. There are a series of classical and experimental theories about moon marks in TCM, which does not have support from statistical Data. Objective To verify some experiential theories on moon mark in TCM by automatic Data-Processing Equipment. Methods This paper proposes the Equipment that utilizes image Processing technology to collect moon mark Data of different target groups conveniently and quickly, building a Database that combines this information with that gathered from the health and mental status questionnaire in each test. Results This Equipment has a simple design, a low cost, and an optimized algorithm. The practice has been proven to quickly complete automatic acquisition and preservation of key Data about moon marks. Conclusion In the future, some conclusions will likely be obtained from these Data; some changes of moon marks related to a special pathological change will be established with statistical methods.
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Automatic Data-Processing Equipment of moon mark of nail for verifying some experiential theory of Traditional Chinese Medicine.
Technology and health care : official journal of the European Society for Engineering and Medicine, 2016Co-Authors: Renjie Niu, Jianyuan HuangAbstract:Doctors who practice Traditional Chinese Medicine (TCM) diagnose using four methods - inspection, auscultation and olfaction, interrogation, and pulse feeling/palpation. The shape and shape changes of the moon marks on the nails are an important indication when judging the patient's health. There are a series of classical and experimental theories about moon marks in TCM, which does not have support from statistical Data. To verify some experiential theories on moon mark in TCM by automatic Data-Processing Equipment. This paper proposes the Equipment that utilizes image Processing technology to collect moon mark Data of different target groups conveniently and quickly, building a Database that combines this information with that gathered from the health and mental status questionnaire in each test. This Equipment has a simple design, a low cost, and an optimized algorithm. The practice has been proven to quickly complete automatic acquisition and preservation of key Data about moon marks. In the future, some conclusions will likely be obtained from these Data; some changes of moon marks related to a special pathological change will be established with statistical methods.
Weather Bureau - One of the best experts on this subject based on the ideXlab platform.
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Tiros ii radiation Data catalog, volume one
2019Co-Authors: Nasa, Weather BureauAbstract:Catalog of mapping procedures for tiros ii radiation Data utilizing automatic Data-Processing Equipment
Ak Trivedi - One of the best experts on this subject based on the ideXlab platform.
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Wear Testing for Office and Data Processing Equipment
Selection and Use of Wear Tests for Metals, 1Co-Authors: Rg Bayer, Ak TrivediAbstract:The metallic wear situations frequently encountered in office and Data Processing Equipment are reviewed. Motions producing the wear and the nature of the interfaces are discussed. The reasons for wear testing for these applications are identified and a test methodology is discussed. The more frequently encountered wear tests (for example, ball-plane, pin-on-disk, and block-ring tests) are evaluated in terms of this background. An overview is established based on these considerations.
