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The paper deals with the design and testing of a low-voltage high-current half bridge converter built for powering a switched reluctance machine (SRM). The machine will provide traction power for a light electric vehicle, in particular for a powered wheel chair dedicated for persons with physical disabilities. The paper reveals the control strategy of the SRM that the converter must be able to fulfill,...
The paper details the background of design, modeling, building and experimental validation of a low power switched reluctance machine (SRM) together with its attached custom made electronic converter. Aspects regarding the design of the machine highlight the main analytical involved procedures. The model of the machine is firstly validated through simulation wise involving two strategies, one based...
Taking inspiration from biological organism's cell based structure, the paper is focused on modeling and implementation of bio-inspired artificial hardware structures for high reliability industrial control applications. As it known, living organisms offers the ability to grow with fault-tolerance and self-repair. These remarkable capabilities can be associated with principles to engine complex novel...
It is well-known, biological organisms offers the ability to grow with fault-tolerance and self-repair behaviors. By adapting basic properties and capabilities from nature, scientific approaches have helped researches understand related phenomena and associated with principles to engine complex novel digital systems and improve their capability. Founded by these observations, the paper is focused...
As it is known, the immune system found in biological organisms is robust and able to identify a large scale of diseases, infectious pathogens, or other harmful effects. Built on a huge cell-based structure in a well organized hierarchical mechanism, this system expresses remarkable self-healing, surviving and evolution abilities. The basic idea of the paper is to take inspiration of these mechanisms...
It's well-known, biological organisms offer the ability to grow with fault-tolerance and self-organization behaviors. By adapting basic properties and capabilities from nature, scientific approaches have helped researches understand related phenomena and associated with principles to engine complex novel digital systems and improve their capability. Founded by these observations, the paper is focused...
Network communication algorithms development is presented in the paper, with the purpose to implement bio-inspired hardware systems which exhibit the abilities of living organisms, such as: evolution capabilities, self-healing and fault-tolerance. In the first steps of these research efforts an embryonic system with bi-dimensional FPGA-based artificial cell network is designed and tested through careful...
The cell-based structure, which makes up the majority of biological organisms offers the ability to grow with fault-tolerance abilities and self-repair. By adapting these mechanisms and capabilities from nature, scientific approaches have helped researches understand related phenomena and associated with principles to engine complex novel digital systems and improve their capability. Founded by these...
The cell-based structure, which makes up the majority of biological organisms offers the ability to grow with fault-tolerance abilities and self-repair. By adapting these mechanisms and capabilities from nature, scientific approaches have helped researches understand related phenomena and associated with principles to engine complex novel digital systems and improve their capability. Founded by these...
The paper deals through computer-aided modeling, numerical simulation and experimental research with the bio-inspired digital systems, in order to implement VLSI hardware which exhibits the abilities of living organisms, such as: evolution capabilities, self-healing and fault-tolerance. The theoretical backgrounds of the work are founded in cellular embryology's basic concepts. In the first stage...
Bio-inspired hardware systems computer-aided modeling, simulation and experimental research are presented in the paper, with the purpose to design and experiment digital systems with abilities of biological organisms. Original model for an FPGA-based artificial cell provided also with strongly network communication behaviors and fault-tolerant operation mode is proposed and developed. The complex...
The paper deals through modeling, numerical simulations and experimental research with the multi-cellular artificial organisms, with the purpose to design and experimentation of digital systems with abilities of biological organisms (evolution capabilities, self-organization, and fault-tolerance). From theoretical point of view, concepts from cellular embryology are used for VLSI digital systems design...
The paper is focused on the multi-cellular artificial organism's computer-aided modeling, numerical simulation and experimental research, with the purpose to design and experimentation of digital systems with abilities of biological organisms (evolution capabilities, self-organization, and fault-tolerance). In the first stage of the researches an original model for an FPGA-based artificial cell is...
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