In this paper we present SpikeOnChip, a custom embedded platform for neuronal activity recording and online analysis. The SpikeOnChip platform was developed in the context of automated drug testing and toxicology assessments on neural tissue made from human induced pluripotent stem cells. The system was developed with the following goals: to be small, autonomous and low power, to handle micro-electrode arrays with up to 256 electrodes, to reduce the amount of data generated from the recording, to be able to do computation during acquisition, and to be customizable. This led to the choice of a Field Programmable Gate Array System-On-Chip platform. This paper focuses on the embedded system for acquisition and processing with key features bein...
This paper reports an integrated 64-channel neural spike recording sensor, together with all the cir...
This paper presents a multimodal multichannel neural activity readout IC which can perform not only ...
In this paper we present a measurement system for in vivo multichannel recordings of the electro-phy...
Objective.Neural activity represents a functional readout of neurons that is increasingly important ...
This paper presents a chip-based electrophysiological platform enabling the study of micro- and macr...
In this paper, we present a modular Data Acquisition (DAQ) system for simultaneous electrical stimul...
Technological advancements in analog and digital systems have enabled new approaches to study networ...
This thesis delves in the issue of processing huge volume of neural data recorded using in-vitro mon...
The recent progress in both neurobiology and microelectronics suggests the creation of new, powerful...
This paper presents a novel 64-channel ultra-low power/low noise neural recording System-on-Chip (So...
Neurons cultured in vitro on MicroElectrode Array (MEA) devices connect to each other, forming a net...
The paper describes a multi-channel neural spike recording system sensing and processing the action ...
This paper reports a 128-channel neural recording integrated circuit (IC) with on-the-fly spike feat...
In recent years Multi-Electrode Arrays (MEAs) have emerged as a powerful tool to study brain (dys)fu...
This paper presents a Real-Time Neural Spikes (RT-Neu) Imaging system on FPGA that processes and det...
This paper reports an integrated 64-channel neural spike recording sensor, together with all the cir...
This paper presents a multimodal multichannel neural activity readout IC which can perform not only ...
In this paper we present a measurement system for in vivo multichannel recordings of the electro-phy...
Objective.Neural activity represents a functional readout of neurons that is increasingly important ...
This paper presents a chip-based electrophysiological platform enabling the study of micro- and macr...
In this paper, we present a modular Data Acquisition (DAQ) system for simultaneous electrical stimul...
Technological advancements in analog and digital systems have enabled new approaches to study networ...
This thesis delves in the issue of processing huge volume of neural data recorded using in-vitro mon...
The recent progress in both neurobiology and microelectronics suggests the creation of new, powerful...
This paper presents a novel 64-channel ultra-low power/low noise neural recording System-on-Chip (So...
Neurons cultured in vitro on MicroElectrode Array (MEA) devices connect to each other, forming a net...
The paper describes a multi-channel neural spike recording system sensing and processing the action ...
This paper reports a 128-channel neural recording integrated circuit (IC) with on-the-fly spike feat...
In recent years Multi-Electrode Arrays (MEAs) have emerged as a powerful tool to study brain (dys)fu...
This paper presents a Real-Time Neural Spikes (RT-Neu) Imaging system on FPGA that processes and det...
This paper reports an integrated 64-channel neural spike recording sensor, together with all the cir...
This paper presents a multimodal multichannel neural activity readout IC which can perform not only ...
In this paper we present a measurement system for in vivo multichannel recordings of the electro-phy...