The Experts below are selected from a list of 719922 Experts worldwide ranked by ideXlab platform
Bruce Knuteson - One of the best experts on this subject based on the ideXlab platform.
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Systematic Analysis of HEP collider data
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment, 2004Co-Authors: Bruce KnutesonAbstract:Abstract These proceedings outline steps toward a Systematic Analysis of frontier energy collider data: specifically, those data collected at Tevatron Runs I and II, LEP Run II, HERA Runs I and II, and the future LHC. Algorithms designed to understand the gross features of the data (V ista ), to Systematically and model-independently search for new physics at the electroweak scale (S leuth ), to automate tests of specific hypotheses against those data (Q uaero ), to turn an existing full detector simulation into a fast simulation (T urbo S im ), and to infer the physics underlying any hint observed in the data (B ard ) are reviewed. A somewhat non-conventional viewpoint is adopted throughout.
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Systematic Analysis of HEP collider data
Nuclear Instruments and Methods in Physics Research Section A: Accelerators Spectrometers Detectors and Associated Equipment, 2004Co-Authors: Bruce KnutesonAbstract:These proceedings outline steps toward a Systematic Analysis of frontier energy collider data: specifically, those data collected at Tevatron Runs I and II, LEP Run II, HERA Runs I and II, and the future LHC. Algorithms designed to understand the gross features of the data (Vista), to Systematically and model-independently search for new physics at the electroweak scale (Sleuth), to automate tests of specific hypotheses against those data (Quaero), to turn an existing full detector simulation into a fast simulation (TurboSim), and to infer the physics underlying any hint observed in the data (Bard) are reviewed. A somewhat non-conventional viewpoint is adopted throughout.Comment: Invited plenary talk at ACAT 2003, KEK; 8 page
Akio Kotani - One of the best experts on this subject based on the ideXlab platform.
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Systematic Analysis of 4f Core Photoemission Spectra in Actinide Oxides
Journal of the Physical Society of Japan, 1991Co-Authors: Takao Yamazaki, Akio KotaniAbstract:Systematic Analysis is carried out for 4 f core photoemission spectra of actinide oxides AcO 2 for Ac=Th∼Bk, using the impurity Anderson model including the exchange interaction J between 5 f electrons. The effect of J is important in explaining the observed photoemission spectra, especially for PuO 2 , AmO 2 and CmO 2 . It is shown that PuO 2 and BkO 2 are strongly mixed valence compounds.
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Systematic Analysis of 3d core photoemission spectra in rare earth oxides
Journal of Electron Spectroscopy and Related Phenomena, 1990Co-Authors: Akio Kotani, T. Ikeda, Kozo Okada, Haruhiko OgasawaraAbstract:Abstract Systematic Analysis is carried out for 3 d core photoemission spectra of rare earth oxides R 2 O 3 and RO 2 for various rare earth elements R with the use of the impurity Anderson model. We estimate the values of the charge transfer energy, the hybridization strength, etc, and discuss the mechanism of the splitting of these photoemission spectra. We also point out the reason why the RO 2 structure is stable only for R = Ce 1 , Pr and Tb.
Zhang Feng - One of the best experts on this subject based on the ideXlab platform.
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The Approach of Systematic Analysis the User Needs in Product Design
Development & Innovation of Machinery & Electrical Products, 2009Co-Authors: Zhang FengAbstract:For any product designer, the importance of user's needs Analysis are unquestionable.This paper Analysis the decisive function of user's needs in product design contents, the Systematic Analysis and classification methods of the user needs, and make some different examples to explain the application of this Systematic Analysis in product design process.
C. Seguin - One of the best experts on this subject based on the ideXlab platform.
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Task Model-Based Systematic Analysis of Both System Failures and Human Errors
IEEE Transactions on Human-Machine Systems, 2016Co-Authors: Célia Martinie, Philippe Palanque, Racim Fahssi, J.-p. Blanquart, Camille Fayollas, C. SeguinAbstract:The overall dependability of an interactive system is one of its weakest components, which is usually its user interface. The presented approach integrates techniques from the dependable computing field and elements of the user-centered design. Risk Analysis and fault-tolerance techniques are used in combination with task Analysis and modeling to describe and analyze the impact of system faults on human activities and the impact of human deviation or errors on system performance and overall mission performance. A technique for Systematic Analysis of human errors, effects, and criticality (HEECA) is proposed. It is inspired and adapted from the Failure Mode, Effects, and Criticality Analysis technique. The key points of the approach are: 1) the HEECA technique combining a Systematic Analysis of the effects of system faults and of human errors; and 2) a task modeling notation to describe and to assess the impact of system faults and human errors on operators’ activities and system performance. These key points are illustrated on an example extracted from a case study of the space domain. It demonstrates the feasibility of this approach as well as its benefits in terms of identifying opportunities for redesigning the system, redesigning the operations, and for modifying operators’ training.
Haruhiko Ogasawara - One of the best experts on this subject based on the ideXlab platform.
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Systematic Analysis of 3d core photoemission spectra in rare earth oxides
Journal of Electron Spectroscopy and Related Phenomena, 1990Co-Authors: Akio Kotani, T. Ikeda, Kozo Okada, Haruhiko OgasawaraAbstract:Abstract Systematic Analysis is carried out for 3 d core photoemission spectra of rare earth oxides R 2 O 3 and RO 2 for various rare earth elements R with the use of the impurity Anderson model. We estimate the values of the charge transfer energy, the hybridization strength, etc, and discuss the mechanism of the splitting of these photoemission spectra. We also point out the reason why the RO 2 structure is stable only for R = Ce 1 , Pr and Tb.
