The Experts below are selected from a list of 324 Experts worldwide ranked by ideXlab platform
M. Renovell - One of the best experts on this subject based on the ideXlab platform.
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FPL - A Specific Test Methodology for Symmetric SRAM-Based FPGAs
Lecture Notes in Computer Science, 2000Co-Authors: M. RenovellAbstract:This paper describes a Test Methodology for symmetric SRAM-based FPGAs. From a fundamental point of view, a Test Methodology for FPGAs differs from the Test Methodology for ASICs mainly due to the configurability of such flexible devices. In the paper, the FPGA architecture is first analyzed identifying the Test problems specific to FPGAs as well as the Test properties. This architecture is divided into different architectural elements such as the logic cells, the interconnect cells and the RAM cells. For each architectural element appropriated fault models are proposed, and Test configurations and Test vectors are derived targeting the proposed fault models.
Samet Ganal - One of the best experts on this subject based on the ideXlab platform.
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developing a penetration Test Methodology in ensuring router security and Testing it in a virtual laboratory
Security of Information and Networks, 2015Co-Authors: Ecir Ugur Kucuksille, Mehmet Ali Yalcinkaya, Samet GanalAbstract:In today's world of informatics, penetration Tests becoming one of the most important factors in ensuring corporate information security. Penetration Test methodologies provided to this day for ensuring information security have mostly concentrated on network components such as servers and firewalls. The fact that there has not been sufficient focus on router security in the penetration Tests that have been conducted leads to major problems in ensuring corporate information security. This study presents a router penetration Test Methodology consisting of three steps to ensure full range router security. The effectiveness of the Methodology presented was analyzed in a virtual penetration Test laboratory, for which the design is provided in this study. Following the Test trials, it was observed that the presented Test Methodology enables the common security vulnerabilities occurring on routers to be controlled in order.
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SIN - Developing a penetration Test Methodology in ensuring router security and Testing it in a virtual laboratory
Proceedings of the 8th International Conference on Security of Information and Networks, 2015Co-Authors: Ecir Ugur Kucuksille, Mehmet Ali Yalcinkaya, Samet GanalAbstract:In today's world of informatics, penetration Tests becoming one of the most important factors in ensuring corporate information security. Penetration Test methodologies provided to this day for ensuring information security have mostly concentrated on network components such as servers and firewalls. The fact that there has not been sufficient focus on router security in the penetration Tests that have been conducted leads to major problems in ensuring corporate information security. This study presents a router penetration Test Methodology consisting of three steps to ensure full range router security. The effectiveness of the Methodology presented was analyzed in a virtual penetration Test laboratory, for which the design is provided in this study. Following the Test trials, it was observed that the presented Test Methodology enables the common security vulnerabilities occurring on routers to be controlled in order.
Thomas Brandmeier - One of the best experts on this subject based on the ideXlab platform.
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Test Methodology for rain influence on automotive surround sensors
IEEE Conference on Intelligent Transportation Systems Proceedings ITSC, 2016Co-Authors: Sinan Hasirlioglu, Alexander Kamann, Igor Doric, Thomas BrandmeierAbstract:— Automotive safety systems aim to provide maxi-mum protection to vehicle occupants and vulnerable road users. These safety features rely on data from surround sensors such as radar, lidar and camera, which provide detailed information about the environment of the vehicle. A minor error in the measurements of these sensors can lead to major injuries or death. Hence, the reliability and accuracy of these sensor systems is mandatory. The performance of surround sensors depends on their local environment, because of the attenuation of the ambient atmosphere. Environmental influences such as rain additionally affects the accuracy of sensor systems. Therefore, these sensors must be Tested under various weather conditions. This paper presents a new Test Methodology for rain influence on automotive surround sensors. Therefore, a rain simulator was designed and validated. The proposed Test Methodology was applied to radar, lidar and camera sensors in an experimental setup.
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ITSC - Test Methodology for rain influence on automotive surround sensors
2016 IEEE 19th International Conference on Intelligent Transportation Systems (ITSC), 2016Co-Authors: Sinan Hasirlioglu, Alexander Kamann, Igor Doric, Thomas BrandmeierAbstract:Automotive safety systems aim to provide maximum protection to vehicle occupants and vulnerable road users. These safety features rely on data from surround sensors such as radar, lidar and camera, which provide detailed information about the environment of the vehicle. A minor error in the measurements of these sensors can lead to major injuries or death. Hence, the reliability and accuracy of these sensor systems is mandatory. The performance of surround sensors depends on their local environment, because of the attenuation of the ambient atmosphere. Environmental influences such as rain additionally affects the accuracy of sensor systems. Therefore, these sensors must be Tested under various weather conditions. This paper presents a new Test Methodology for rain influence on automotive surround sensors. Therefore, a rain simulator was designed and validated. The proposed Test Methodology was applied to radar, lidar and camera sensors in an experimental setup.
Ecir Ugur Kucuksille - One of the best experts on this subject based on the ideXlab platform.
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developing a penetration Test Methodology in ensuring router security and Testing it in a virtual laboratory
Security of Information and Networks, 2015Co-Authors: Ecir Ugur Kucuksille, Mehmet Ali Yalcinkaya, Samet GanalAbstract:In today's world of informatics, penetration Tests becoming one of the most important factors in ensuring corporate information security. Penetration Test methodologies provided to this day for ensuring information security have mostly concentrated on network components such as servers and firewalls. The fact that there has not been sufficient focus on router security in the penetration Tests that have been conducted leads to major problems in ensuring corporate information security. This study presents a router penetration Test Methodology consisting of three steps to ensure full range router security. The effectiveness of the Methodology presented was analyzed in a virtual penetration Test laboratory, for which the design is provided in this study. Following the Test trials, it was observed that the presented Test Methodology enables the common security vulnerabilities occurring on routers to be controlled in order.
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SIN - Developing a penetration Test Methodology in ensuring router security and Testing it in a virtual laboratory
Proceedings of the 8th International Conference on Security of Information and Networks, 2015Co-Authors: Ecir Ugur Kucuksille, Mehmet Ali Yalcinkaya, Samet GanalAbstract:In today's world of informatics, penetration Tests becoming one of the most important factors in ensuring corporate information security. Penetration Test methodologies provided to this day for ensuring information security have mostly concentrated on network components such as servers and firewalls. The fact that there has not been sufficient focus on router security in the penetration Tests that have been conducted leads to major problems in ensuring corporate information security. This study presents a router penetration Test Methodology consisting of three steps to ensure full range router security. The effectiveness of the Methodology presented was analyzed in a virtual penetration Test laboratory, for which the design is provided in this study. Following the Test trials, it was observed that the presented Test Methodology enables the common security vulnerabilities occurring on routers to be controlled in order.
Sang Woo Oh - One of the best experts on this subject based on the ideXlab platform.
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Virtual drop Test Methodology for a MEMS-based sensor
Electronic Materials Letters, 2011Co-Authors: Sang Woo OhAbstract:Virtual drop Test Methodology based on a set of simulations is developed to evaluate the shock reliability of a MEMS (Micro Electro Mechanical System)-based sensor. The Methodology consists of (1) FEM (Finite Element Method) analyses to extract the equivalent parameters of the packaged sensor, (2) a high-level simulation to determine the overall responses caused by an impact on a rigid concrete floor, and (3) another FEM simulation to evaluate whether or not the device withstands the shock by comparing the maximum stress level to the yield strengths of the materials that comprise the device. The proposed Methodology accounts for the dynamic shock response as well as the stress distribution in the microstructure encapsulated by the package and thus provide insight into methods of improving the design of the device. Hence, it is expected that the proposed Methodology will contribute to the effective development of robust MEMS-based sensors and their successful commercialization.
