Add to ORKGA key challenge in designing analog-to-digital converters for cortically implanted prosthesis is to sense and process high-dimensional neural signals recorded by the micro-electrode arrays. In this paper, we describe a novel architecture for analog-to-digital (A/D) conversion that combines Σ ∆ conversion with spatial de-correlation within a single module. The architecture called multiple-input multiple-output (MIMO) Σ ∆ is based on a min-max gradient descent optimization of a regularized linear cost function that naturally lends to an A/D formulation. Using an online formulation, the architecture can adapt to slow variations in cross-channel correlations, observed due to relative motion of the microelectrodes with respect to the signal sour...
Implantable neural interfaces are microelectronic systems, which have the potential to enable a wide...
International audienceIn order to understand the dynamics of large neural networks, where informatio...
Clinically viable and minimally invasive neural interfaces stand to revolutionize disease care for p...
Integrated neural implants interface with the brain using biocompatible electrodes to provide high y...
Neural recording systems that interface with implanted microelectrodes are used extensively in exper...
Brain-Machine Interfaces (BMIs) have been developed in the past few decades to establish a bridge be...
This thesis presents the design, testing, implantation and limitations of neural recording arrays wi...
This paper deals with an improved neural based analog to digital converter. New architecture is prop...
Efficient Analog-Digital Converters (ADC) are one of the mainstays of mixed-signal integrated circui...
This paper presents a low-area low-power Switched-Capacitor (SC)-based Programmable-Gain Analog-to-D...
Paralysis has impacted the lives of millions of people, limiting not just their movement and quality...
Efficient Analog-Digital Converters (ADC) are one of the mainstays of mixed-signal integrated circui...
Neuroscience research into how complex brain functions are implemented at an extra-cellular level r...
The rapid progress of technology in the semiconductor industry over the last decades allowed the dev...
We present a bidirectional neural interface with a 4-channel biopotential analog-to-digital converte...
Implantable neural interfaces are microelectronic systems, which have the potential to enable a wide...
International audienceIn order to understand the dynamics of large neural networks, where informatio...
Clinically viable and minimally invasive neural interfaces stand to revolutionize disease care for p...
Integrated neural implants interface with the brain using biocompatible electrodes to provide high y...
Neural recording systems that interface with implanted microelectrodes are used extensively in exper...
Brain-Machine Interfaces (BMIs) have been developed in the past few decades to establish a bridge be...
This thesis presents the design, testing, implantation and limitations of neural recording arrays wi...
This paper deals with an improved neural based analog to digital converter. New architecture is prop...
Efficient Analog-Digital Converters (ADC) are one of the mainstays of mixed-signal integrated circui...
This paper presents a low-area low-power Switched-Capacitor (SC)-based Programmable-Gain Analog-to-D...
Paralysis has impacted the lives of millions of people, limiting not just their movement and quality...
Efficient Analog-Digital Converters (ADC) are one of the mainstays of mixed-signal integrated circui...
Neuroscience research into how complex brain functions are implemented at an extra-cellular level r...
The rapid progress of technology in the semiconductor industry over the last decades allowed the dev...
We present a bidirectional neural interface with a 4-channel biopotential analog-to-digital converte...
Implantable neural interfaces are microelectronic systems, which have the potential to enable a wide...
International audienceIn order to understand the dynamics of large neural networks, where informatio...
Clinically viable and minimally invasive neural interfaces stand to revolutionize disease care for p...