Modern-day biomedical science and technology have progressed with implantable neural recording systems. There is a demand for miniaturised devices that can be emplaced into the brain for an efficient neural recording process. In contrast to the commercial gadgets, the design of implantable devices is critical, as they are placed in vital regions of the brain. The design techniques and its specifications should be properly addressed to increase the efficiency of the device. Low power is a vital parameter for the implantable devices, as it is essential that the power consumed is minimised, otherwise the battery would be rapidly drained out. The replacement of the battery comes at the cost of frequent surgery which is not a viable solution. Th...
Background: Inner ear evoked potentials are small amplitude (<1 μVpk) signals that require a low ...
Background: Inner ear evoked potentials are small amplitude (<1 μVpk) signals that require a low ...
AbstractNew ideas are necessary to improve the quality of electroencephalogram (EEG) type bio-signal...
This report introduces the background of Neural Amplifiers, the research contents and methods. ...
This report introduces the background of Neural Amplifiers, the research contents and methods. ...
Development of brain-machine interfaces and treatment of neurological diseases can benefit from anal...
Development of brain-machine interfaces and treatment of neurological diseases can benefit from anal...
The authors performed initial clinical testing of a novel EEG transduction module (ETM), designed to...
Implantable devices are ideal for recording biological signals in animal models as they have minimal...
The design of a low power amplifier for recording EEG signals is presented. The low noise design tec...
The design of a low power amplifier for recording EEG signals is presented. The low noise design tec...
Abstract—This paper discusses certain important issues in-volved in the design of a nerve signal pre...
Electrophysiological signals from biological sources have been measured and used in modern medicine ...
[[abstract]]Brain Computer Interface (BCI) provides a novel communication method for patients with n...
Brain signals such as electroencephalography (EEG) and electrocorticography (ECoG) are used to diagn...
Background: Inner ear evoked potentials are small amplitude (<1 μVpk) signals that require a low ...
Background: Inner ear evoked potentials are small amplitude (<1 μVpk) signals that require a low ...
AbstractNew ideas are necessary to improve the quality of electroencephalogram (EEG) type bio-signal...
This report introduces the background of Neural Amplifiers, the research contents and methods. ...
This report introduces the background of Neural Amplifiers, the research contents and methods. ...
Development of brain-machine interfaces and treatment of neurological diseases can benefit from anal...
Development of brain-machine interfaces and treatment of neurological diseases can benefit from anal...
The authors performed initial clinical testing of a novel EEG transduction module (ETM), designed to...
Implantable devices are ideal for recording biological signals in animal models as they have minimal...
The design of a low power amplifier for recording EEG signals is presented. The low noise design tec...
The design of a low power amplifier for recording EEG signals is presented. The low noise design tec...
Abstract—This paper discusses certain important issues in-volved in the design of a nerve signal pre...
Electrophysiological signals from biological sources have been measured and used in modern medicine ...
[[abstract]]Brain Computer Interface (BCI) provides a novel communication method for patients with n...
Brain signals such as electroencephalography (EEG) and electrocorticography (ECoG) are used to diagn...
Background: Inner ear evoked potentials are small amplitude (<1 μVpk) signals that require a low ...
Background: Inner ear evoked potentials are small amplitude (<1 μVpk) signals that require a low ...
AbstractNew ideas are necessary to improve the quality of electroencephalogram (EEG) type bio-signal...