Add to ORKGOntogenetic hardware, along with epigenetic (neural) hardware and phylogenetic (evolvable) hardware, are the key representatives of a new hardware conception paradigm known as bio-inspired hardware. Ontogenesis is the process that allows living beings to develop by means of mechanisms as growing, self-replication, and self-repair. During the last few years, such ontogenetic mechanisms have been presented as a solution for the design of complex electronic circuits, with the goal of coping with the increasing complexity envisioned for future nano-technology devices. This paper presents an ontogenetic mechanism that allows a system, implemented in a reconfigurable device, to self-replicate, generating an identical copy of itself, by partially ...
Self-replication is a process critical to natural and artificial life, but has been investigated to ...
Bio-inspired electronic systems are inspired by processes and structures typically found in plants a...
This article describes an implementation of a basic multi-processor system that exhibits replication...
Ontogenetic hardware, along with epigenetic (neural) hardware and phylogenetic (evolvable) hardware,...
The multicellular structure of biological organisms and the interpretation in each of their cells of...
AbstractThis paper covers the authors’ recent research in the area of evolutionary design optimisati...
This paper presents the physical hardware realization of a novel bio-inspired architecture, called P...
Biological inspiration in the design of computing machines could allow the creation of new machines ...
Summary. The goal of this contribution is to describe how a universal Turing ma-chine was embedded i...
In this article, we introduce the approach to the realization of ontogenetic development and fault t...
Biological inspiration in the design of computing machines could allow the cre-ation of new machines...
This paper introduces the ubichip, a custom reconfigurable electronic device capable of implementing...
The growth and the operation of all living beings are directed through the interpretation, in each o...
Abstract. The space of bio-inspired hardware can be partitioned along three axes: phylogeny, ontogen...
Evolvable Hardware (EHW) refers to HW design and self-reconfiguration using evolutionary/genetic mec...
Self-replication is a process critical to natural and artificial life, but has been investigated to ...
Bio-inspired electronic systems are inspired by processes and structures typically found in plants a...
This article describes an implementation of a basic multi-processor system that exhibits replication...
Ontogenetic hardware, along with epigenetic (neural) hardware and phylogenetic (evolvable) hardware,...
The multicellular structure of biological organisms and the interpretation in each of their cells of...
AbstractThis paper covers the authors’ recent research in the area of evolutionary design optimisati...
This paper presents the physical hardware realization of a novel bio-inspired architecture, called P...
Biological inspiration in the design of computing machines could allow the creation of new machines ...
Summary. The goal of this contribution is to describe how a universal Turing ma-chine was embedded i...
In this article, we introduce the approach to the realization of ontogenetic development and fault t...
Biological inspiration in the design of computing machines could allow the cre-ation of new machines...
This paper introduces the ubichip, a custom reconfigurable electronic device capable of implementing...
The growth and the operation of all living beings are directed through the interpretation, in each o...
Abstract. The space of bio-inspired hardware can be partitioned along three axes: phylogeny, ontogen...
Evolvable Hardware (EHW) refers to HW design and self-reconfiguration using evolutionary/genetic mec...
Self-replication is a process critical to natural and artificial life, but has been investigated to ...
Bio-inspired electronic systems are inspired by processes and structures typically found in plants a...
This article describes an implementation of a basic multi-processor system that exhibits replication...