Numerous PETs have how ot reduce a pdf file size proposed for all kinds of purposes, but are difficult to be compared with each other. The challenge here lies in the fact that information privacy is a comprehensive concept with solutions being diverse, with different focus and aims.
It provides the reader with a tool for the systematic comparison of different PETs. This helps in identifying limitations of existing PETs, complementary technologies, and potential research directions. To demonstrate its applicability, the proposed taxonomy is applied to a set of key technologies covering different disciplines such as data anonymization, privacy-preserving data querying, communication protection, and identity hiding. Check if you have access through your login credentials or your institution. He received his Master’s degree in business informatics from the Vienna University of Technology. His research focuses on privacy-enhancing technologies, especially pseudonymization techniques, as well as privacy and integrity issues of untrusted databases, smart card-based authentication, and health record archiving, where he has published several papers in refereed journals and at international conferences.
Master’s degree in business informatics from the Vienna University of Technology. His research interests include privacy in general and technical solutions for privacy preservation. He received a Master in Business Informatics from the University of Vienna and a Master in Computer Science from the Vienna University of Technology. In addition, he has more than 15 years of professional experience. Internet Computing from Vienna University of Technology, a master’s degree in Political Science from University of Vienna, a master’s degree in Business Informatics from Vienna University of Technology, and a Ph. Computer Science from Vienna University of Technology. In 2008 and 2009, Stefan worked as an information security lecturer at Konkuk University and University of Applied Sciences Technikum Vienna.
In 2010, Stefan worked as a visiting scholar at Stanford Center for Biomedical Informatics Research at Stanford University. He is a member of the IFIP WG 11. 2020 but production and fiscal shortfalls will restrict the number built to just 100 by 2020. 2020, tanks will be transferred only after the completion of all state tests. Featuring a number of innovative characteristics, the T-14 represents a new generation of Russian main battle tanks.
The most significant novelty is an unmanned turret, with the crew of three seated in an armored capsule in the front of the hull. The development of the tank took five years. 5 km at night through the thermal imaging channel. The laser rangefinder has a theoretical maximum range of 7. The crew uses a high-definition camera with a 360-degree field. The main gun is visible. The 2A82-1M 125 mm cannon can fire high-powered munitions, including armor-piercing discarding sabot projectiles, guided missiles, shaped-charges and other types of munitions.
100 m to 5 km and can also engage low-flying air targets such as helicopters. These missiles can be used for air defense. The secondary armament consists of a 12. All guns are remotely controlled. In addition, another 1,000 rounds can be stored separately. 7 mm machine gun is installed above the turret roof-mounted commander’s sight, which avoids visual obstructions, while the turret front has a peculiar slit that is speculated to be intended for the coaxial 7.
In the future, the T-14 may use the 2A83 152 mm gun instead of its current 2A82 125 mm gun. However, Russian engineers have so far kept the 125 mm-size gun, assessing that improvements in ammunition could be enough to increase effectiveness, while concluding that a larger bore weapon would offer few practical advantages. The T-14 can use anti-aircraft missiles. A 30 mm anti-aircraft gun may be installed in the near future along with the 12. 10,000 hours at moderated 1,200 hp. The engine is electronically controlled.