Now showing items 1-6 of 6
Quantifying information coding limits in sensory systems
Neurons code information about sensory stimuli temporally in the times of occurrence of action potentials as well as spatially in the joint discharge patterns of neurons within an ensemble. In this work, we present a ...
Mechanisms of frequency-entrainment in neuromodulated, synaptically driven pacing and bursting cells
The development of quantitative models that describe how neural inputs control the electrophysiological behavior of two cellular oscillators is presented. These cellular oscillators are a spontaneously beating mammalian ...
A semi-autonomous mobile robot/teleoperator with applications as an aid for severely handicapped people
A framework for a practical, easy-to-use system which can allow severely handicapped people to control and interact with their home and work environments is presented. Software written for a personal computer allows the ...
Mechanisms of repolarization and conduction in a mathematical model of electrophysiological responses in the human atrium
We have developed a mathematical model of the human atrial myocyte, based on averaged voltage-clamp data recorded from isolated single myocytes. This formulation can reconstruct action potential data which are representative ...
A model of the aortic baroreceptor in rat
The baroreceptor, a stretch-sensitive neuron, senses static and dynamic arterial blood pressure and responds by producing a frequency-modulated train of action potentials. The size and anatomy of baroreceptor nerve endings ...
Adaptive regularization based on noise estimation and its application to the inverse problem in electrocardiography
The inverse problem was solved to reconstruct endocardial electrograms from cavitary electrograms measured with a noncontact multielectrode probe. Noise levels were estimated at each time instant by extrapolating noise ...