The implementation of bio-inspired systems in hardware has traditionally been more a matter of artistry than of method. The reasons are multiple, but one of the main problems has always been the lack of a universal platform, of a standardized architecture, and of a proper methodology for the implementation of such systems.The ideas presented in this article are the first results of a new research project, "Reconfigurable POEtic Tissue". The goal of the project is the development of a hardware platform capable of implementing systems inspired by all the three major axes (phylogenesis, ontogenesis, and epigenesis) of bio-inspiration in digital hardware.A novel cellular architecture, capable of exploiting the main features of the future POEtic...
In this paper we explain how the POEtic chip can be used for rapid prototyping. The POEtic chip, cur...
In this article, we present the BioWall, a giant reconfigurable computing tissue developed to implem...
A unique, scientific research instrument and art piece, the BioWall models bio-inspired electronic t...
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...
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 introduce the general architecture of a new electronic tissue called POEtic. This ...
This paper will present the final hardware realization of a new family of programmable devices that ...
Biological inspiration in the design of computing machines could allow the cre-ation of new machines...
One of the major obstacles found when trying to construct artefacts derived from principles observed...
Biological inspiration in the design of computing machines could allow the creation of new machines ...
In this article, we introduce the approach to the realization of ontogenetic development and fault t...
Bio-inspired electronic systems are inspired by processes and structures typically found in plants a...
In this paper we explain how the POEtic chip can be used for rapid prototyping. The POEtic chip, cur...
In this article, we present the BioWall, a giant reconfigurable computing tissue developed to implem...
A unique, scientific research instrument and art piece, the BioWall models bio-inspired electronic t...
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...
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 introduce the general architecture of a new electronic tissue called POEtic. This ...
This paper will present the final hardware realization of a new family of programmable devices that ...
Biological inspiration in the design of computing machines could allow the cre-ation of new machines...
One of the major obstacles found when trying to construct artefacts derived from principles observed...
Biological inspiration in the design of computing machines could allow the creation of new machines ...
In this article, we introduce the approach to the realization of ontogenetic development and fault t...
Bio-inspired electronic systems are inspired by processes and structures typically found in plants a...
In this paper we explain how the POEtic chip can be used for rapid prototyping. The POEtic chip, cur...
In this article, we present the BioWall, a giant reconfigurable computing tissue developed to implem...
A unique, scientific research instrument and art piece, the BioWall models bio-inspired electronic t...