Daniel Mange
Zitiert von
Zitiert von
A phylogenetic, ontogenetic, and epigenetic view of bio-inspired hardware systems
M Sipper, E Sanchez, D Mange, M Tomassini, A Pérez-Uribe, A Stauffer
IEEE Transactions on Evolutionary Computation 1 (1), 83-97, 1997
Toward robust integrated circuits: The embryonics approach
D Mange, M Sipper, A Stauffer, G Tempesti
Proceedings of the IEEE 88 (4), 516-543, 2000
Bio-inspired computing machines: Towards novel computational architectures
D Mange, M Tomassini
PPUR presses polytechniques, 1998
Embryonics: A new methodology for designing field-programmable gate arrays with self-repair and self-replicating properties
D Mange, E Sanchez, A Stauffer, G Tempesti, P Marchal, C Piguet
IEEE Transactions on Very Large Scale Integration (VLSI) Systems 6 (3), 387-399, 1998
Poetic tissue: An integrated architecture for bio-inspired hardware
AM Tyrrell, E Sanchez, D Floreano, G Tempesti, D Mange, JM Moreno, ...
Evolvable Systems: From Biology to Hardware: 5th International Conference …, 2003
Embryonics: A new family of coarse-grained field-programmable gate array with self-repair and self-reproducing properties
D Mange, M Goeke, D Madon, A Stauffer, G Tempesti, S Durand
Towards Evolvable Hardware: The Evolutionary Engineering Approach, 197-220, 1996
Phylogeny, ontogeny, and epigenesis: Three sources of biological inspiration for softening hardware
E Sanchez, D Mange, M Sipper, M Tomassini, A Perez-Uribe, A Stauffer
Lecture Notes in Computer Science 1259, 35-54, 1997
Embryonics: A bio-inspired cellular architecture with fault-tolerant properties
C Ortega-Sanchez, D Mange, S Smith, A Tyrrell
Genetic Programming and Evolvable Machines 1, 187-215, 2000
Self-replicating loop with universal construction
D Mange, A Stauffer, E Petraglio, G Tempesti
Physica D: Nonlinear Phenomena 191 (1-2), 178-192, 2004
Embryological development on silicon
P Marchal
Artificial life, 365-370, 1994
Bio-inspired computing tissues: towards machines that evolve, grow, and learn
C Teuscher, D Mange, A Stauffer, G Tempesti
Biosystems 68 (2-3), 235-244, 2003
Synthesis of minimal binary decision trees
E Cerny, D Mange, E Sanchez
IEEE Transactions on Computers 28 (07), 472-482, 1979
The biowall: An electronic tissue for prototyping bio-inspired systems
G Tempesti, D Mange, A Stauffer, C Teuscher
Proceedings 2002 NASA/DoD Conference on Evolvable Hardware, 221-230, 2002
Introduction to embryonics: Towards new self-repairing and self-reproducing hardware based on biological-like properties
D Mange, A Stauffer
Artificial Life and Virtual Reality, 61-72, 1994
Toward self-repairing and self-replicating hardware: the embryonics approach
D Mange, M Sipper, A Stauffer, G Tempesti
Proceedings. The Second NASA/DoD Workshop on Evolvable Hardware, 205-214, 2000
Von Neumann revisited: A Turing machine with self-repair and self-reproduction properties
D Mange, D Madon, A Stauffer, G Tempesti
Robotics and Autonomous Systems 22 (1), 35-58, 1997
Embryonics: The birth of synthetic life
P Marchal, P Nussbaum, C Piguet, S Durand, D Mange, E Sanchez, ...
Towards Evolvable Hardware: The Evolutionary Engineering Approach, 166-196, 2005
A robust multiplexer-based FPGA inspired by biological systems
G Tempesti, D Mange, A Stauffer
Journal of Systems Architecture 43 (10), 719-733, 1997
A macroscopic view of self-replication
D Mange, A Stauffer, L Peparaolo, G Tempesti
Proceedings of the IEEE 92 (12), 1929-1945, 2004
Self-replicating and self-repairing multicellular automata
G Tempesti, D Mange, A Stauffer
Artificial Life 4 (3), 259-282, 1998
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