AbstractThis paper covers the authors’ recent research in the area of evolutionary design optimisation in electronic application domain (Evolvable Hardware). This will be also presented in the context of biologically inspired systems where Evolvable Hardware is concerned with evolutionary synthesis of self-healing systems and potentially hardware capable of online adaptation to dynamically changing environment. We will also illustrate how EAs can produce novel and unintuitive design solutions, and possibly new design principles. The novelty of this research project addresses this compelling change in the traditional landscape of the associated research disciplines by seeking to provide a novel biologically inspired mechanism to support the ...
Biological inspiration in the design of computing machines could allow the creation of new machines ...
Embryomorphic Engineering, a particular instance of Morpho-genetic Engineering, takes its inspiratio...
Artificial Cells, , Artificial Ecologies, Artificial Intelligence, Bio-Inspired Hardware Systems, C...
This paper covers the authors’ recent research in the area of evolutionary design optimisation in el...
AbstractThis paper covers the authors’ recent research in the area of evolutionary design optimisati...
Automatic design of digital electronic circuits via evolutionary algorithms is a promising area of r...
Electronic systems, no matter how clever and intelligent they are, cannot yet demonstrate the reliab...
This chapter explores how principles underlying natural evo-devo (evolution and development) continu...
This paper presents an analysis of the fault tolerance achieved by an autonomous, fully embedded evo...
Evolvable Hardware (EHW) refers to HW design and self-reconfiguration using evolutionary/genetic mec...
AbstractAs aerospace vehicles travel in a hellish environment, the reliability of the measuring and ...
The multicellular structure of biological organisms and the interpretation in each of their cells of...
Among the challenges for nature-inspired engineering is how to build synthetic devices capable of em...
Abstract — The design of a new biologically inspired artificial developmental system is described in...
Traditional approaches to evolvable hardware (EHW), using a direct encoding, have not scaled well wi...
Biological inspiration in the design of computing machines could allow the creation of new machines ...
Embryomorphic Engineering, a particular instance of Morpho-genetic Engineering, takes its inspiratio...
Artificial Cells, , Artificial Ecologies, Artificial Intelligence, Bio-Inspired Hardware Systems, C...
This paper covers the authors’ recent research in the area of evolutionary design optimisation in el...
AbstractThis paper covers the authors’ recent research in the area of evolutionary design optimisati...
Automatic design of digital electronic circuits via evolutionary algorithms is a promising area of r...
Electronic systems, no matter how clever and intelligent they are, cannot yet demonstrate the reliab...
This chapter explores how principles underlying natural evo-devo (evolution and development) continu...
This paper presents an analysis of the fault tolerance achieved by an autonomous, fully embedded evo...
Evolvable Hardware (EHW) refers to HW design and self-reconfiguration using evolutionary/genetic mec...
AbstractAs aerospace vehicles travel in a hellish environment, the reliability of the measuring and ...
The multicellular structure of biological organisms and the interpretation in each of their cells of...
Among the challenges for nature-inspired engineering is how to build synthetic devices capable of em...
Abstract — The design of a new biologically inspired artificial developmental system is described in...
Traditional approaches to evolvable hardware (EHW), using a direct encoding, have not scaled well wi...
Biological inspiration in the design of computing machines could allow the creation of new machines ...
Embryomorphic Engineering, a particular instance of Morpho-genetic Engineering, takes its inspiratio...
Artificial Cells, , Artificial Ecologies, Artificial Intelligence, Bio-Inspired Hardware Systems, C...