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001-es BibID:	BIBFORM013544
Első szerző:	Husi Géza (gépészmérnök, mechatronikai mérnök, számítógépes tervezőmérnök)
Cím:	Artificial immune system implementation upon embryonic machine for hardware fault-tolerant industrial control applications / Géza Husi, Csaba Szász, Virgil Chindris
Dátum:	2010
ISSN:	0975-4350 0975-4172
Megjegyzések:	Living organisms demonstrate through millions of years evolution remarkably fault-tolerance, robustness and self-healing abilities. Taking inspiration from biological immune systems and embryonic processes which acquire some of these fault-tolerant properties, the paper presents the implementation of an embryonic machine with FPGA-based multi cellular architecture, which is able to imitate cells or artificial organism operation mode, with similar robustness and fault-tolerance properties like their biological equivalents from nature. This VLSI hardware structure was upgraded through specially developed algorithms, provided with strongly network communication capabilities and self-healing behaviors. Several casual faults were considered also through the test operations. Detection and localization of these hardware faults were achieved through special reconfiguration operations of active and spare artificial cells inside the embryonic array. Laboratory experiments prove high validity of the considered background theoretical approaches, the developed hardware immune system express remarkable surviving and self-healing capabilities.
Tárgyszavak:	Műszaki tudományok Gépészeti tudományok idegen nyelvű folyóiratközlemény külföldi lapban artifical cell embryonic machine hardware immune system POE architecture FPGA circuit
Megjelenés:	Global Journal of Computer Science and Technology. - 10 : 4 (2010), p. 60-66. -
További szerzők:	Szász Csaba Chindris, Virgil
Internet cím:	Intézményi repozitóriumban (DEA) tárolt változat
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001-es BibID:	BIBFORM009894
Első szerző:	Szász Csaba
Cím:	Embryonic systems implementation with FPGA-based artificial cell network hardware architectures / Csaba Szász, Virgil Chindris, Géza Husi
Dátum:	2010
ISSN:	1934-6093
Megjegyzések:	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 to nature, scientific approaches have promoted research for understanding related phenomena and associated principles to engine complex novel digital systems and improve their capability. Founded by these observations, the paper is focused on computer-aided modeling, simulation and experimental research of embryonic systems, with the purpose to implement very large scale integrated hardware structures which are able to imitate cells or artificial organism operation mode, with similar robustness and fault-tolerance properties like their biological equivalents from nature. Field Programmable Gate Array (FPGA)-based artificial cell model configuration provided with strongly network communication capabilities is proposed and developed. The presented theoretical and simulation approaches were tested on a laboratory prototype embryonic system (embryonic machine), for study and implementation of basic abilities of living organisms.
Tárgyszavak:	Műszaki tudományok Gépészeti tudományok idegen nyelvű folyóiratközlemény külföldi lapban Artificial cell artificial organism FPGA circuit POE-type architecture embryonic system
Megjelenés:	Asian Journal of Control. - 12 : 2 (2010), p. 208-215. -
További szerzők:	Chindris, Virgil Husi Géza (1962-) (gépészmérnök, mechatronikai mérnök, számítógépes tervezőmérnök)
Internet cím:	DOI Intézményi repozitóriumban (DEA) tárolt változat
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