Add to ORKGAbstract We have constructed a second generation CPG chip capable of generating the necessary timing to control the leg of a walking machine. We demonstrate improvements over a previous chip by moving toward a significantly more versatile device. This includes a larger number of silicon neurons, more sophisticated neurons including voltage dependent charging and relative and absolute refractory periods, and enhanced programmability of neural networks. This chip builds on the basic results achieved on a previous chip and expands its versatility to get closer to a self-contained locomotion controller for walking robots
International audienceThis paper proposes an embedded system on a chip to generate locomotion patter...
detail the behavior of an inhibitory Central Pattern Generator (CPG) network for robot control. A fo...
detail the behavior of an inhibitory Central Pattern Generator (CPG) network for robot control. A fo...
The biological foundation of most natural locomotory systems is the Central Pattern Generator (CPG)....
The rhythmic locomotion of animals, such as walking, swimming, and #ying, is controlled by groups of...
In this report, we propose an analog circuit that im-plements a locomotion controller for a quadrupe...
To control the walking gaits of a four-legged robot we present a novel neuromorphic VLSI chip that c...
To control the walking gaits of a four-legged robot we present a novel neuromorphic VLSI chip that c...
We present a simple neuromorphic central pattern generators (CPG) circuit module, which is essential...
We present a simple neuromorphic central pattern generators (CPG) circuit module, which is essential...
This paper proposes a neuromorphic analog CMOS controller for interlimb coordination in quadruped lo...
This paper proposes a neuromorphic analog CMOS controller for interlimb coordination in quadruped lo...
Abstract- The locomotor controller for walking, running, swimming, and flying animals is based on a ...
International audienceThis paper proposes an embedded system on a chip to generate locomotion patter...
We propose an analog CMOS circuit that implements a class of cellular neural networks (CNNs) for loc...
International audienceThis paper proposes an embedded system on a chip to generate locomotion patter...
detail the behavior of an inhibitory Central Pattern Generator (CPG) network for robot control. A fo...
detail the behavior of an inhibitory Central Pattern Generator (CPG) network for robot control. A fo...
The biological foundation of most natural locomotory systems is the Central Pattern Generator (CPG)....
The rhythmic locomotion of animals, such as walking, swimming, and #ying, is controlled by groups of...
In this report, we propose an analog circuit that im-plements a locomotion controller for a quadrupe...
To control the walking gaits of a four-legged robot we present a novel neuromorphic VLSI chip that c...
To control the walking gaits of a four-legged robot we present a novel neuromorphic VLSI chip that c...
We present a simple neuromorphic central pattern generators (CPG) circuit module, which is essential...
We present a simple neuromorphic central pattern generators (CPG) circuit module, which is essential...
This paper proposes a neuromorphic analog CMOS controller for interlimb coordination in quadruped lo...
This paper proposes a neuromorphic analog CMOS controller for interlimb coordination in quadruped lo...
Abstract- The locomotor controller for walking, running, swimming, and flying animals is based on a ...
International audienceThis paper proposes an embedded system on a chip to generate locomotion patter...
We propose an analog CMOS circuit that implements a class of cellular neural networks (CNNs) for loc...
International audienceThis paper proposes an embedded system on a chip to generate locomotion patter...
detail the behavior of an inhibitory Central Pattern Generator (CPG) network for robot control. A fo...
detail the behavior of an inhibitory Central Pattern Generator (CPG) network for robot control. A fo...