The Experts below are selected from a list of 75639 Experts worldwide ranked by ideXlab platform
Jiman Hong - One of the best experts on this subject based on the ideXlab platform.
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security Software Module update for heterogeneous vot
Symposium on Applied Computing, 2017Co-Authors: Kiwook Kang, Kyoungmin Kim, Jinwoo Lee, Joonhyouk Jang, Jiman HongAbstract:In recent years, IoT technology and concepts have evolved through the distribution of wireless Internet and smart devices. Based on this trend, virtualized high performance IoT management, VoT (Virtualization of Things), has appeared. Because high performance services of VoT provide various pieces of information to users, more private information can often be revealed by attacks. However, existing VoTs are not protected by well-made security systems. In this paper, we propose a security Software Module update using double encryption to increase the security level for protecting private information from attacks.
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SAC - Security Software Module update for heterogeneous VoT
Proceedings of the Symposium on Applied Computing, 2017Co-Authors: Kiwook Kang, Kyoungmin Kim, Jinwoo Lee, Joonhyouk Jang, Jiman HongAbstract:In recent years, IoT technology and concepts have evolved through the distribution of wireless Internet and smart devices. Based on this trend, virtualized high performance IoT management, VoT (Virtualization of Things), has appeared. Because high performance services of VoT provide various pieces of information to users, more private information can often be revealed by attacks. However, existing VoTs are not protected by well-made security systems. In this paper, we propose a security Software Module update using double encryption to increase the security level for protecting private information from attacks.
Kiwook Kang - One of the best experts on this subject based on the ideXlab platform.
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security Software Module update for heterogeneous vot
Symposium on Applied Computing, 2017Co-Authors: Kiwook Kang, Kyoungmin Kim, Jinwoo Lee, Joonhyouk Jang, Jiman HongAbstract:In recent years, IoT technology and concepts have evolved through the distribution of wireless Internet and smart devices. Based on this trend, virtualized high performance IoT management, VoT (Virtualization of Things), has appeared. Because high performance services of VoT provide various pieces of information to users, more private information can often be revealed by attacks. However, existing VoTs are not protected by well-made security systems. In this paper, we propose a security Software Module update using double encryption to increase the security level for protecting private information from attacks.
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SAC - Security Software Module update for heterogeneous VoT
Proceedings of the Symposium on Applied Computing, 2017Co-Authors: Kiwook Kang, Kyoungmin Kim, Jinwoo Lee, Joonhyouk Jang, Jiman HongAbstract:In recent years, IoT technology and concepts have evolved through the distribution of wireless Internet and smart devices. Based on this trend, virtualized high performance IoT management, VoT (Virtualization of Things), has appeared. Because high performance services of VoT provide various pieces of information to users, more private information can often be revealed by attacks. However, existing VoTs are not protected by well-made security systems. In this paper, we propose a security Software Module update using double encryption to increase the security level for protecting private information from attacks.
M. Kaffenberger - One of the best experts on this subject based on the ideXlab platform.
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SimCarb QuenchTemp – Ein neues Softwaremodul zur Simulation des Härteverlaufs beim Einsatzhärten. SimCarb QuenchTemp – A new Software Module for the simulation of hardness distributions in case hardening
Materialwissenschaft Und Werkstofftechnik, 2010Co-Authors: J??rgen Gegner, M. KaffenbergerAbstract:Die SimCarb-Programmfolge bietet als leistungsfahige Stand-Alone-Losung benutzungsfreundliche Windows-ExpertenSoftware fur die rechnergestutzte Verfahrensauslegung des Einsatzhartens in Forschung und industrieller Warmebehandlung. Es wird ein neues Simulationswerkzeug zur Vorhersage der Tiefenverlaufe von Abschreck- und Anlassharte aus einem gegebenen Aufkohlungsprofil unter Berucksichtigung von Stahlzusammensetzung, Bauteilgeometrie und Prozessbedingungen vorgestellt. In der aktuellen Version setzt das Softwaremodul SimCarb QuenchTemp ein empirisches Modell um, dessen Grundlagen und technologischer Hintergrund ausfuhrlich erlautert werden. Die Abschreckharte wird durch Auswertung berechneter Jominy-Kurvenscharen fur die Kohlenstoffgehalte der Einsatzschicht am masgeblichen Stirnflachenabstand abgeleitet. Der reprasentative Zylinderdurchmesser beschreibt den Werkstuckeinfluss. Die Kuhlwirkung des Mediums wird durch die Grossman'sche Abschreckintensitat ausgedruckt. Die Bestimmung der Anlassharte uber Abminderungsfaktoren fur Martensit beruht auf einer vereinfachten Gefugeanalyse. Umfangreiches Datenmaterial ist im Programm hinterlegt und in Bibliotheken verfugbar. Bedienung und praktische Anwendung der Software werden anhand von Screenshots und Simulationsbeispielen veranschaulicht. The SimCarb program suite as a powerful stand-alone solution provides user-friendly Windows expert Software for computer-aided case hardening engineering in research and industrial heat treatment. A new simulation tool is presented for the prediction of the depth distributions of the quenching and tempering hardness from a given carburization profile by taking into account the steel composition, component geometry, and process conditions. In the current version, the SimCarb QuenchTemp Software Module implements an empirical model, the basic principles and technological background of which are explained in detail. The quenching hardness is derived by evaluating calculated sets of Jominy curves for the carbon contents in the case at the applicable distance from the end face. The representative cylinder diameter characterizes the influence of the workpiece. The cooling ability of the medium is quantified by the Grossman quench severity. The determination of the tempering hardness by diminution factors for martensite is based on a simplified microstructure analysis. Large data sets are stored in the program and available in libraries. Operation and practical application of the Software are illustrated by means of screenshots and simulation examples.
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simcarb quenchtemp ein neues Softwaremodul zur simulation des harteverlaufs beim einsatzharten simcarb quenchtemp a new Software Module for the simulation of hardness distributions in case hardening
Materialwissenschaft Und Werkstofftechnik, 2010Co-Authors: J??rgen Gegner, M. KaffenbergerAbstract:Die SimCarb-Programmfolge bietet als leistungsfahige Stand-Alone-Losung benutzungsfreundliche Windows-ExpertenSoftware fur die rechnergestutzte Verfahrensauslegung des Einsatzhartens in Forschung und industrieller Warmebehandlung. Es wird ein neues Simulationswerkzeug zur Vorhersage der Tiefenverlaufe von Abschreck- und Anlassharte aus einem gegebenen Aufkohlungsprofil unter Berucksichtigung von Stahlzusammensetzung, Bauteilgeometrie und Prozessbedingungen vorgestellt. In der aktuellen Version setzt das Softwaremodul SimCarb QuenchTemp ein empirisches Modell um, dessen Grundlagen und technologischer Hintergrund ausfuhrlich erlautert werden. Die Abschreckharte wird durch Auswertung berechneter Jominy-Kurvenscharen fur die Kohlenstoffgehalte der Einsatzschicht am masgeblichen Stirnflachenabstand abgeleitet. Der reprasentative Zylinderdurchmesser beschreibt den Werkstuckeinfluss. Die Kuhlwirkung des Mediums wird durch die Grossman'sche Abschreckintensitat ausgedruckt. Die Bestimmung der Anlassharte uber Abminderungsfaktoren fur Martensit beruht auf einer vereinfachten Gefugeanalyse. Umfangreiches Datenmaterial ist im Programm hinterlegt und in Bibliotheken verfugbar. Bedienung und praktische Anwendung der Software werden anhand von Screenshots und Simulationsbeispielen veranschaulicht. The SimCarb program suite as a powerful stand-alone solution provides user-friendly Windows expert Software for computer-aided case hardening engineering in research and industrial heat treatment. A new simulation tool is presented for the prediction of the depth distributions of the quenching and tempering hardness from a given carburization profile by taking into account the steel composition, component geometry, and process conditions. In the current version, the SimCarb QuenchTemp Software Module implements an empirical model, the basic principles and technological background of which are explained in detail. The quenching hardness is derived by evaluating calculated sets of Jominy curves for the carbon contents in the case at the applicable distance from the end face. The representative cylinder diameter characterizes the influence of the workpiece. The cooling ability of the medium is quantified by the Grossman quench severity. The determination of the tempering hardness by diminution factors for martensite is based on a simplified microstructure analysis. Large data sets are stored in the program and available in libraries. Operation and practical application of the Software are illustrated by means of screenshots and simulation examples.
Jinwoo Lee - One of the best experts on this subject based on the ideXlab platform.
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security Software Module update for heterogeneous vot
Symposium on Applied Computing, 2017Co-Authors: Kiwook Kang, Kyoungmin Kim, Jinwoo Lee, Joonhyouk Jang, Jiman HongAbstract:In recent years, IoT technology and concepts have evolved through the distribution of wireless Internet and smart devices. Based on this trend, virtualized high performance IoT management, VoT (Virtualization of Things), has appeared. Because high performance services of VoT provide various pieces of information to users, more private information can often be revealed by attacks. However, existing VoTs are not protected by well-made security systems. In this paper, we propose a security Software Module update using double encryption to increase the security level for protecting private information from attacks.
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SAC - Security Software Module update for heterogeneous VoT
Proceedings of the Symposium on Applied Computing, 2017Co-Authors: Kiwook Kang, Kyoungmin Kim, Jinwoo Lee, Joonhyouk Jang, Jiman HongAbstract:In recent years, IoT technology and concepts have evolved through the distribution of wireless Internet and smart devices. Based on this trend, virtualized high performance IoT management, VoT (Virtualization of Things), has appeared. Because high performance services of VoT provide various pieces of information to users, more private information can often be revealed by attacks. However, existing VoTs are not protected by well-made security systems. In this paper, we propose a security Software Module update using double encryption to increase the security level for protecting private information from attacks.
Kyoungmin Kim - One of the best experts on this subject based on the ideXlab platform.
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security Software Module update for heterogeneous vot
Symposium on Applied Computing, 2017Co-Authors: Kiwook Kang, Kyoungmin Kim, Jinwoo Lee, Joonhyouk Jang, Jiman HongAbstract:In recent years, IoT technology and concepts have evolved through the distribution of wireless Internet and smart devices. Based on this trend, virtualized high performance IoT management, VoT (Virtualization of Things), has appeared. Because high performance services of VoT provide various pieces of information to users, more private information can often be revealed by attacks. However, existing VoTs are not protected by well-made security systems. In this paper, we propose a security Software Module update using double encryption to increase the security level for protecting private information from attacks.
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SAC - Security Software Module update for heterogeneous VoT
Proceedings of the Symposium on Applied Computing, 2017Co-Authors: Kiwook Kang, Kyoungmin Kim, Jinwoo Lee, Joonhyouk Jang, Jiman HongAbstract:In recent years, IoT technology and concepts have evolved through the distribution of wireless Internet and smart devices. Based on this trend, virtualized high performance IoT management, VoT (Virtualization of Things), has appeared. Because high performance services of VoT provide various pieces of information to users, more private information can often be revealed by attacks. However, existing VoTs are not protected by well-made security systems. In this paper, we propose a security Software Module update using double encryption to increase the security level for protecting private information from attacks.
