Trusted computing platforms: TCPA technology in context
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In: Hewlett-Packard professional books
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In: Urban Planning, Band 3, Heft 1, S. 47-57
This article provides an overview of the specifications of web-based computing platforms for urban data analytics and computational urban planning practice. There are currently a variety of tools and platforms that can be used in urban computing practices, including scientific computing languages, interactive web languages, data sharing platforms and still many desktop computing environments, e.g., GIS software applications. We have reviewed a list of technologies considering their potential and applicability in urban planning and urban data analytics. This review is not only based on the technical factors such as capabilities of the programming languages but also the ease of developing and sharing complex data processing workflows. The arena of web-based computing platforms is currently under rapid development and is too volatile to be predictable; therefore, in this article we focus on the specification of the requirements and potentials from an urban planning point of view rather than speculating about the fate of computing platforms or programming languages. The article presents a list of promising computing technologies, a technical specification of the essential data models and operators for geo-spatial data processing, and mathematical models for an ideal urban computing platform.
In: Computers, Environment and Urban Systems, Band 54, S. 144-153
In: Computers, environment and urban systems: CEUS ; an international journal, Band 54, S. 144-153
ISSN: 0198-9715
The risk of space debris is now perceived as primordial by government and international space agencies. Since the last decade, international space agencies have developed tools to simulate the re-entry of satellites and orbital stations in order to assess casualty risk on the ground. Nevertheless , all current tools provide deterministic solutions, though models include various parameters that are not well known. Therefore, the provided results are strongly dependent on the as-sumptions made. One solution to obtain relevant and exploitable results is to include uncertainties around those parame-ters in order to perform Monte-Carlo analysis. But such a study is very time consuming due to the large parameter space to explore (that necessitate hundreds of thousands simulations). As part of this thesis work we propose a new satellite atmospheric reentry simulation to perform statistical analysis. To master computing time this tool takes advantage of Taguchi method to restrain the amount of parameter to study and also takes advantage of computing accelerators like Graphic Processing Units (GPUs) and Intel Xeon Phi. ; Les risques liés aux débris spatiaux sont à présent considérés comme critiques par les gouvernements et les agences spa-tiales internationales. Durant la dernière décennie les agences spatiales ont développé des logiciels pour simuler la rentrée atmosphérique des satellites et des stations orbitales afin de déterminer les risques et possibles dommages au sol. Néan-moins les outils actuels fournissent des résultats déterministes alors que les modèles employés utilisent des valeurs de paramètres qui sont mal connues. De plus les résultats obtenus dépendent fortement des hypothèses qui sont faites. Une solution pour obtenir des résultats pertinents et exploitables est de prendre en considération les incertitudes que l'on a sur les différents paramètres de la modélisation afin d'effectuer des analyses de type Monte-Carlo. Mais une telle étude est particulièrement gourmande en temps de calcul à cause du grand ...
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The risk of space debris is now perceived as primordial by government and international space agencies. Since the last decade, international space agencies have developed tools to simulate the re-entry of satellites and orbital stations in order to assess casualty risk on the ground. Nevertheless , all current tools provide deterministic solutions, though models include various parameters that are not well known. Therefore, the provided results are strongly dependent on the as-sumptions made. One solution to obtain relevant and exploitable results is to include uncertainties around those parame-ters in order to perform Monte-Carlo analysis. But such a study is very time consuming due to the large parameter space to explore (that necessitate hundreds of thousands simulations). As part of this thesis work we propose a new satellite atmospheric reentry simulation to perform statistical analysis. To master computing time this tool takes advantage of Taguchi method to restrain the amount of parameter to study and also takes advantage of computing accelerators like Graphic Processing Units (GPUs) and Intel Xeon Phi. ; Les risques liés aux débris spatiaux sont à présent considérés comme critiques par les gouvernements et les agences spa-tiales internationales. Durant la dernière décennie les agences spatiales ont développé des logiciels pour simuler la rentrée atmosphérique des satellites et des stations orbitales afin de déterminer les risques et possibles dommages au sol. Néan-moins les outils actuels fournissent des résultats déterministes alors que les modèles employés utilisent des valeurs de paramètres qui sont mal connues. De plus les résultats obtenus dépendent fortement des hypothèses qui sont faites. Une solution pour obtenir des résultats pertinents et exploitables est de prendre en considération les incertitudes que l'on a sur les différents paramètres de la modélisation afin d'effectuer des analyses de type Monte-Carlo. Mais une telle étude est particulièrement gourmande en temps de calcul à cause du grand ...
BASE
The risk of space debris is now perceived as primordial by government and international space agencies. Since the last decade, international space agencies have developed tools to simulate the re-entry of satellites and orbital stations in order to assess casualty risk on the ground. Nevertheless , all current tools provide deterministic solutions, though models include various parameters that are not well known. Therefore, the provided results are strongly dependent on the as-sumptions made. One solution to obtain relevant and exploitable results is to include uncertainties around those parame-ters in order to perform Monte-Carlo analysis. But such a study is very time consuming due to the large parameter space to explore (that necessitate hundreds of thousands simulations). As part of this thesis work we propose a new satellite atmospheric reentry simulation to perform statistical analysis. To master computing time this tool takes advantage of Taguchi method to restrain the amount of parameter to study and also takes advantage of computing accelerators like Graphic Processing Units (GPUs) and Intel Xeon Phi. ; Les risques liés aux débris spatiaux sont à présent considérés comme critiques par les gouvernements et les agences spa-tiales internationales. Durant la dernière décennie les agences spatiales ont développé des logiciels pour simuler la rentrée atmosphérique des satellites et des stations orbitales afin de déterminer les risques et possibles dommages au sol. Néan-moins les outils actuels fournissent des résultats déterministes alors que les modèles employés utilisent des valeurs de paramètres qui sont mal connues. De plus les résultats obtenus dépendent fortement des hypothèses qui sont faites. Une solution pour obtenir des résultats pertinents et exploitables est de prendre en considération les incertitudes que l'on a sur les différents paramètres de la modélisation afin d'effectuer des analyses de type Monte-Carlo. Mais une telle étude est particulièrement gourmande en temps de calcul à cause du grand ...
BASE
The risk of space debris is now perceived as primordial by government and international space agencies. Since the last decade, international space agencies have developed tools to simulate the re-entry of satellites and orbital stations in order to assess casualty risk on the ground. Nevertheless , all current tools provide deterministic solutions, though models include various parameters that are not well known. Therefore, the provided results are strongly dependent on the as-sumptions made. One solution to obtain relevant and exploitable results is to include uncertainties around those parame-ters in order to perform Monte-Carlo analysis. But such a study is very time consuming due to the large parameter space to explore (that necessitate hundreds of thousands simulations). As part of this thesis work we propose a new satellite atmospheric reentry simulation to perform statistical analysis. To master computing time this tool takes advantage of Taguchi method to restrain the amount of parameter to study and also takes advantage of computing accelerators like Graphic Processing Units (GPUs) and Intel Xeon Phi. ; Les risques liés aux débris spatiaux sont à présent considérés comme critiques par les gouvernements et les agences spa-tiales internationales. Durant la dernière décennie les agences spatiales ont développé des logiciels pour simuler la rentrée atmosphérique des satellites et des stations orbitales afin de déterminer les risques et possibles dommages au sol. Néan-moins les outils actuels fournissent des résultats déterministes alors que les modèles employés utilisent des valeurs de paramètres qui sont mal connues. De plus les résultats obtenus dépendent fortement des hypothèses qui sont faites. Une solution pour obtenir des résultats pertinents et exploitables est de prendre en considération les incertitudes que l'on a sur les différents paramètres de la modélisation afin d'effectuer des analyses de type Monte-Carlo. Mais une telle étude est particulièrement gourmande en temps de calcul à cause du grand ...
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As the harsh environment of mines and complicated production processes may easily cause safety production accidents, safety training becomes one of the important ways to reduce personal injuries and property damages. Safety training and education have formed a set of standardized system in the mining enterprises, however, there are still many problems in the operation process of safety training. In order to solve these issues, Augmented Reality (AR) could be used in the traditional safety training based on the comparative analysis of the differences between traditional training and augmented reality-based training. A novel safety training framework is proposed based on AR and Cloud Computing (CC) platform. This framework chooses marker-based AR technology as the research method combined with CC platform for its multiple functions, large-scale and high reliability. Several modules are designed in this framework, which includes mine basic knowledge, equipment cognitive module, intelligent maintenance module, standardized operation module, remote help module, collaborative work module, capability assessment module as well as other functional modules. This framework also achieves the functions such as user registration and login, role management, safety knowledge production training, practical training and periodic assessment functions based on augmented reality. The basic knowledge of mines module is a comprehensive class which contains all the training classes and the regulations to enhance knowledge standard of workers. The equipment cognitive module aims to enhance the employee's mastery of the device. The standardized operation module and intelligent maintenance module utilizes the marker-based AR to improve the technical proficiency of actual practices and skills. The ability assessment module can judge the worker's quality of his work in mines. The background management module is designed for the system administrators to maintain the system and data on cloud platform. In this safety training system, the equipment profile, operating procedures and other training knowledge can be displayed in a more intuitive form. And the abstract training concepts are visualized and interactive. This safety training system can merge the training with the actual operation to improving training efficiency. In this way, it can break through the limitation of safety training methods, time, location, etc. in the traditional safety training. Moreover, it can increase employees understanding of theoretical knowledge and proficiency in operational skills. The AR and CC based training system can not only be used in mines, but also can be designed according to different needs of the corresponding system. It would have significant influence of practice and application to the universities, enterprises, government departments and other fields.
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In: International Journal of Research in Business and Social Science: IJRBS, Band 11, Heft 7, S. 78-91
ISSN: 2147-4478
Cloud computing changed our way of doing things because we now maintain our systems and data on global online platforms. The research aimed to investigate the predictive factors determining the quality of personal users' cloud computing and their effect on platform performance. The study adopted a cross-sectional, descriptive, quantitative design conducted within South African communities and received 254 responses, a response rate of 66.1%. The measurement model (SRMR = 0.071) results demonstrated that cost-effectiveness, reliability, flexibility, availability, security effectiveness, and scalability collectively define the quality of cloud computing platforms utilized by personal users. AVE (0.575 – 0.694), CR (0.844 – 0.901), Fornell-Larcker criterion, and cross-loadings confirmed convergent validity, reliability, and discriminant validity. Security effectiveness, scalability, and reliability have a statistically significant effect on platform performance with small to medium effect sizes. The theoretical implication is an enhanced domestication theory of technology based on cloud computing, thus providing insights into the needs required to fit within the prevailing environment and context. In addition, it helped understand the personal users' decisions on cloud computing. The study enhances cloud computing at a personal level through understanding that the decision and value may differ from well-researched organizational levels.
We present a routine for 3D magnetotelluric (MT) modeling based upon high-order edge finite element method (HEFEM), tailored and unstructured tetrahedral meshes, and high-performance computing (HPC). This implementation extends the PETGEM modeller capabilities, initially developed for active-source electromagnetic methods in frequency-domain. We assess the accuracy, robustness, and performance of the code using a set of reference models developed by the MT community in well-known reported workshops. The scale and geological properties of these 3D MT setups are challenging, making them ideal for addressing a rigorous validation. Our numerical assessment proves that this new algorithm can produce the expected solutions for arbitrarily 3D MT models. Also, our extensive experimental results reveal four main insights: (1) high-order discretizations in conjunction with tailored meshes can offer excellent accuracy; (2) a rigorous mesh design based on the skin-depth principle can be beneficial for the solution of the 3D MT problem in terms of numerical accuracy and run-time; (3) high-order polynomial basis functions achieve better speed-up and parallel efficiency ratios than low-order polynomial basis functions on cutting-edge HPC platforms; (4) a triple helix approach based on HEFEM, tailored meshes, and HPC can be extremely competitive for the solution of realistic and complex 3D MT models and geophysical electromagnetics in general. ; This project has been 65% cofinanced by the European Regional Development Fund (ERDF) through the Interreg V-A Spain–France– Andorra program (POCTEFA2014-2020). POCTEFA aims to reinforce the economic and social integration of the French–Spanish–Andorran border. Its support is focused on developing economic, social and environmental cross-border activities through joint strategies favoring sustainable territorial development. BSC authors received funding from the European Union's Horizon 2020 programme, grant agreement N◦828947 and N◦777778, and from the Mexican Department of Energy, ...
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We present a routine for 3D magnetotelluric (MT) modeling based upon high-order edge finite element method (HEFEM), tailored and unstructured tetrahedral meshes, and high-performance computing (HPC). This imple- mentation extends the PETGEM modeller capabilities, initially developed for active-source electromagnetic methods in frequency-domain. We assess the accuracy, robustness, and performance of the code using a set of reference models developed by the MT community in well-known reported workshops. The scale and geological properties of these 3D MT setups are challenging, making them ideal for addressing a rigorous validation. Our numerical assessment proves that this new algorithm can produce the expected solutions for arbitrarily 3D MT models. Also, our extensive experimental results reveal four main insights: (1) high-order discretizations in conjunction with tailored meshes can offer excellent accuracy; (2) a rigorous mesh design based on the skin-depth principle can be beneficial for the solution of the 3D MT problem in terms of numerical accuracy and run-time; (3) high-order polynomial basis functions achieve better speed-up and parallel efficiency ratios than low-order polynomial basis functions on cutting-edge HPC platforms; (4) a triple helix approach based on HEFEM, tailored meshes, and HPC can be extremely competitive for the solution of realistic and complex 3D MT models and geophysical electromagnetics in general. ; This project has been 65% cofinanced by the European Regional Development Fund (ERDF) through the Interreg V-A Spain–France– Andorra program (POCTEFA2014-2020). POCTEFA aims to reinforce the economic and social integration of the French–Spanish–Andorran border. Its support is focused on developing economic, social and environmental cross-border activities through joint strategies favoring sustainable territorial development. BSC authors received funding from the European Union's Horizon 2020 programme, grant agreement N◦828947 and N◦777778, and from the Mexican Department of Energy, CONACYT-SENER Hidrocarburos grant agreement N◦B-S-69926. ; Peer Reviewed ; Postprint (published version)
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In: Computers and Electronics in Agriculture, Band 145, S. 27-34
In: Iraqi journal of science, S. 59-67
ISSN: 0067-2904
The digital transformation invites several solutions to optimize professional training. Its particularity lies in the management, conservation and securing of their data to each of the players. The use of the electronic learning booklet with Cloud computing aims to be simple and intuitive, it creates interaction and makes it possible to strengthen the links of the trinomial (Student, Educational tutor, supervisor on a training)We thought of using a online platform tool using Cloud Computing Technology to overcome the limitations of the "paper" learning booklet. This technical-pedagogical system makes it possible to save all data of the apprentice through evaluation grids and follow-up sheets, both during training periods and in theoretical training, according to periods decided by the training institution. The adoption of this imperative of qualification and technological integration retains the role of each of the actors: the student, the pedagogical supervisor and the supervisor on a training course. In this strategic vision, we have conceptualized and implemented an Electronic Learning Booklet (ELB) for integrative professionalization.Our Research Methodology is based on an engineering of the training devices. Initially we will present the context of the research project ELB. In this framework, we will present our problematic centered on the management of technical invention and pedagogical innovation in the framework of training of Midwives in Morocco. In a second step, we will discuss the qualitative and quantitative results of the statistical analysis of our target sample.By crossing the results of the study with the validation interviews, which confound and invalidate our starting hypothesis. LEA is a powerful vector of quality and academic performance of midwifery training.