Optical recording of neural activity using calcium or voltage indicators requires cameras capable of detecting small temporal contrast in light intensity with sample rates of 10 Hz to 1 kHz. Large pixel scientific CMOS image sensors (sCMOS) are typically used due to their high resolution, high frame rate, and low noise. However, using such sensors for long-term recording is challenging due to their high data rates of up to 1 Gb/s. Here we studied the use of dynamic vision sensor (DVS) event cameras for neural recording. DVS have high dynamic range and a sparse asynchronous output consisting of brightness change events. Using DVS for neural recording could avoid transferring and storing redundant information. We compared the use of a Hamamat...
International audienceThis chapter presents three examples of imaging brain activity with voltage- o...
Advances in neurotechnology have been integral to the investigation of neural circuit function in sy...
Recent improvements in high performance fluorescent sensors and scientific CMOS cameras enable optic...
Optical recording of neural activity using calcium or voltage indicators requires cameras capable of...
Applications requiring detection of small visual contrast require high sensitivity. Event cameras ca...
Traditional visual sensor technology is firmly rooted in the concept of sequences of image frames. T...
The recent interest in modelling the human retina opens the doors to neuromorphic imagers. Neuromorp...
Two-photon calcium imaging of neuronal populations enables optical recording of spiking activity in ...
This paper describes results obtained with a novel imaging system based on a fast CCD device. Sensor...
Fluorescent calcium (Ca(2+)) indicator proteins (FCIPs) are promising tools for functional imaging o...
Neural circuitry has evolved to form distributed networks that act dynamically across large volumes....
The brain is the most complex and least understood biological system known to man. New imaging techn...
Calcium- and voltage-sensitive indicators allow for the optical monitoring of neuronal activity at b...
We have configured a widefield fast imaging system that allows imaging at 1000 frames per second (51...
Genetically encoded calcium indicators for visualizing dynamic cellular activity have greatly expand...
International audienceThis chapter presents three examples of imaging brain activity with voltage- o...
Advances in neurotechnology have been integral to the investigation of neural circuit function in sy...
Recent improvements in high performance fluorescent sensors and scientific CMOS cameras enable optic...
Optical recording of neural activity using calcium or voltage indicators requires cameras capable of...
Applications requiring detection of small visual contrast require high sensitivity. Event cameras ca...
Traditional visual sensor technology is firmly rooted in the concept of sequences of image frames. T...
The recent interest in modelling the human retina opens the doors to neuromorphic imagers. Neuromorp...
Two-photon calcium imaging of neuronal populations enables optical recording of spiking activity in ...
This paper describes results obtained with a novel imaging system based on a fast CCD device. Sensor...
Fluorescent calcium (Ca(2+)) indicator proteins (FCIPs) are promising tools for functional imaging o...
Neural circuitry has evolved to form distributed networks that act dynamically across large volumes....
The brain is the most complex and least understood biological system known to man. New imaging techn...
Calcium- and voltage-sensitive indicators allow for the optical monitoring of neuronal activity at b...
We have configured a widefield fast imaging system that allows imaging at 1000 frames per second (51...
Genetically encoded calcium indicators for visualizing dynamic cellular activity have greatly expand...
International audienceThis chapter presents three examples of imaging brain activity with voltage- o...
Advances in neurotechnology have been integral to the investigation of neural circuit function in sy...
Recent improvements in high performance fluorescent sensors and scientific CMOS cameras enable optic...