Publications by authors named "Sergey A Lobov"
Article Synopsis
- Mathematical and computer simulations of learning in neural networks focus on synaptic connections (weights), which are thought to be key for learning and memory through synaptic plasticity.
- The study explores a model of structural plasticity that involves adaptive changes in synaptic connections based on neural activity, enhancing the effects of spike-timing-dependent plasticity (STDP) in response to external stimulation.
- The research introduces a measure for the stability and reproducibility of network dynamics over time, using a vector field approach to analyze patterns in functional and anatomical connectomes.
The paper describes a bioinspired propulsion system for a robotic fish model. The system is based on a combination of an elastic chord with a tail fin fixed on it. The tail fin is connected to a servomotor by two symmetric movable thrusts simulating muscle contractions.
View Article and Find Full Text PDFThe design of modern convolutional artificial neural networks (ANNs) composed of formal neurons copies the architecture of the visual cortex. Signals proceed through a hierarchy, where receptive fields become increasingly more complex and coding sparse. Nowadays, ANNs outperform humans in controlled pattern recognition tasks yet remain far behind in cognition.
View Article and Find Full Text PDFCognitive maps and spatial memory are fundamental paradigms of brain functioning. Here, we present a spiking neural network (SNN) capable of generating an internal representation of the external environment and implementing spatial memory. The SNN initially has a non-specific architecture, which is then shaped by Hebbian-type synaptic plasticity.
View Article and Find Full Text PDFDevelopment of spiking neural networks (SNNs) controlling mobile robots is one of the modern challenges in computational neuroscience and artificial intelligence. Such networks, being replicas of biological ones, are expected to have a higher computational potential than traditional artificial neural networks (ANNs). The critical problem is in the design of robust learning algorithms aimed at building a "living computer" based on SNNs.
View Article and Find Full Text PDFOne of the modern trends in the design of human-machine interfaces (HMI) is to involve the so called spiking neuron networks (SNNs) in signal processing. The SNNs can be trained by simple and efficient biologically inspired algorithms. In particular, we have shown that sensory neurons in the input layer of SNNs can simultaneously encode the input signal based both on the spiking frequency rate and on varying the latency in generating spikes.
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