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Design of Industrial Solutions ISMS
Havlík, Michal ; Popelář, Ondřej (referee) ; Sedlák, Petr (advisor)
Thesis deals with industrial solutions of ISMS mainly network infrastructure. First introduction into theoretical background of the thesis. Further analysis of the current situation in the company and its evaluation. Consequently, the design of solution done to meet the standards of ISO / IEC 27000.
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Ant Colony Optimization: Implementace a testování biologicky inspirované optimalizační metody
Havlík, Michal
Havlík, M. Ant Colony Optimization: Implementation and testing of bio-inspired optimization method. Diploma thesis. Brno, 2015. This thesis deals with the implementation and testing of algorithm Ant Colony Optimization as a representative of the family of bio-inspired opti-mization methods. A given algorithm is described, analyzed and subsequently put into context with the problems which can be solved. Based on the collec-ted information is designed implementation that solves the Traveling sale-sman problem. Implementation contains graphical user interface to track the algorithm. Implementation is further optimized using parallel programming and other methods. Finally the implementation compared and summarized results.
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Design of Industrial Solutions ISMS
Havlík, Michal ; Popelář, Ondřej (referee) ; Sedlák, Petr (advisor)
Thesis deals with industrial solutions of ISMS mainly network infrastructure. First introduction into theoretical background of the thesis. Further analysis of the current situation in the company and its evaluation. Consequently, the design of solution done to meet the standards of ISO / IEC 27000.
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Ant Colony Optimization: Implementace a testování biologicky inspirované optimalizační metody
Havlík, Michal
Havlík, M. Ant Colony Optimization: Implementation and testing of bio-inspired optimization method. Diploma thesis. Brno, 2015. This thesis deals with the implementation and testing of algorithm Ant Colony Optimization as a representative of the family of bio-inspired opti-mization methods. A given algorithm is described, analyzed and subsequently put into context with the problems which can be solved. Based on the collec-ted information is designed implementation that solves the Traveling sale-sman problem. Implementation contains graphical user interface to track the algorithm. Implementation is further optimized using parallel programming and other methods. Finally the implementation compared and summarized results.
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