In this paper, we introduce the general architecture of a new electronic tissue called POEtic. This reconfigurable circuit is designed to ease the implementation of bio-inspired systems that bring cellular applications into play. It contains special features that allow a developer to realize systems that require evolution (Phylogenesis), development (Ontogenesis), and/or learning (Epigenesis). A dynamic routing algorithm has been added to a structure similar to that of common commercial FPGAs, in order to allow the creation of data paths between cells. As the creation of these paths is dynamic, it is possible to add new cells or to repair faulty ones at runtime
Bio-inspired electronic systems are inspired by processes and structures typically found in plants a...
Biological inspiration in the design of computing machines could allow the creation of new machines ...
Biological inspiration in the design of computing machines could allow the creation of new machines ...
In this paper, we introduce the general architecture of a new electronic tissue called POEtic. This ...
In this paper, we introduce the general architecture of a new electronic tissue called POEtic. This ...
In this paper we present a new dynamic routing algorithm specially implemented for a new electronic ...
The implementation of bio-inspired systems in hardware has traditionally been more a matter of artis...
Abstract. It is clear to all, after a moments thought, that nature has much we might be inspired by ...
Abstract. It is clear to all, after a moments thought, that nature has much we might be inspired by ...
This paper presents the physical hardware realization of a novel bio-inspired architecture, called P...
A novel multi-cellular electronic circuit capable of evolution and development is described here. Th...
One of the major obstacles found when trying to construct artefacts derived from principles observed...
In this article, we introduce the approach to the realization of ontogenetic development and fault t...
A novel multi-cellular electronic circuit capable of evolution and development is described here. Th...
In the recent years, Xilinx devices, like the XC6200, were the preferred solutions for evolving digi...
Bio-inspired electronic systems are inspired by processes and structures typically found in plants a...
Biological inspiration in the design of computing machines could allow the creation of new machines ...
Biological inspiration in the design of computing machines could allow the creation of new machines ...
In this paper, we introduce the general architecture of a new electronic tissue called POEtic. This ...
In this paper, we introduce the general architecture of a new electronic tissue called POEtic. This ...
In this paper we present a new dynamic routing algorithm specially implemented for a new electronic ...
The implementation of bio-inspired systems in hardware has traditionally been more a matter of artis...
Abstract. It is clear to all, after a moments thought, that nature has much we might be inspired by ...
Abstract. It is clear to all, after a moments thought, that nature has much we might be inspired by ...
This paper presents the physical hardware realization of a novel bio-inspired architecture, called P...
A novel multi-cellular electronic circuit capable of evolution and development is described here. Th...
One of the major obstacles found when trying to construct artefacts derived from principles observed...
In this article, we introduce the approach to the realization of ontogenetic development and fault t...
A novel multi-cellular electronic circuit capable of evolution and development is described here. Th...
In the recent years, Xilinx devices, like the XC6200, were the preferred solutions for evolving digi...
Bio-inspired electronic systems are inspired by processes and structures typically found in plants a...
Biological inspiration in the design of computing machines could allow the creation of new machines ...
Biological inspiration in the design of computing machines could allow the creation of new machines ...