Add to ORKGWe identify and describe the key qualitative rhythmic states in various 3-cell network motifs of a multi-functional central pattern generator (CPG). Such CPGs are neural microcircuits of cells whose synergetic interactions produce multiple states with distinct phase-locked patterns of bursting activity. To study biologically plausible CPG models, we develop a suite of computational tools that reduce the problem of stability and existence of rhythmic patterns in networks to the bifurcation analysis of fixed points and invariant curves of a Poincare ́ return maps for phase lags between cells. We explore different functional possibilities for motifs involving symmetry breaking and heterogeneity. This is achieved by varying coupling properties ...
Short-term synaptic plasticity is found in many areas of the central nervous system. In the inhibito...
We study a heteroclinic bifurcation leading to the onset of robust phase-lag jittering in bursting r...
The study of the synchronization patterns of small neuron networks that control several biological p...
We identify and describe the key qualitative rhythmic states in various 3-cell network motifs of a m...
We demonstrate a motif of three reciprocally inhibitory cells that is able to produce multiple patte...
We compare multistability in central pattern genera-tor (CPG) motifs comprised either of biologicall...
A multifunctional central pattern generator (CPG) can produce bursting polyrhythms that determine lo...
Central pattern generators (CPGs) are localized, autonomous neuronal networks that coordinate the mu...
Abstract We describe a novel computational approach to reduce detailed models of central pattern gen...
We discovered a variety of mechanisms by which a central pattern generator (CPG) can produce multipl...
We describe and expand on a novel computational approach to reduce detailed models of central patter...
Central pattern generators (CPGs) are small neural circuits of coupled cells stably producing a rang...
The origin of rhythmic activity in brain circuits and CPG-like motor networks is still not fully und...
Oscillatory activity, paramount in the central nervous system, is of special significance in the pro...
How can we develop simple yet realistic models of the small neural circuits known as central pattern...
Short-term synaptic plasticity is found in many areas of the central nervous system. In the inhibito...
We study a heteroclinic bifurcation leading to the onset of robust phase-lag jittering in bursting r...
The study of the synchronization patterns of small neuron networks that control several biological p...
We identify and describe the key qualitative rhythmic states in various 3-cell network motifs of a m...
We demonstrate a motif of three reciprocally inhibitory cells that is able to produce multiple patte...
We compare multistability in central pattern genera-tor (CPG) motifs comprised either of biologicall...
A multifunctional central pattern generator (CPG) can produce bursting polyrhythms that determine lo...
Central pattern generators (CPGs) are localized, autonomous neuronal networks that coordinate the mu...
Abstract We describe a novel computational approach to reduce detailed models of central pattern gen...
We discovered a variety of mechanisms by which a central pattern generator (CPG) can produce multipl...
We describe and expand on a novel computational approach to reduce detailed models of central patter...
Central pattern generators (CPGs) are small neural circuits of coupled cells stably producing a rang...
The origin of rhythmic activity in brain circuits and CPG-like motor networks is still not fully und...
Oscillatory activity, paramount in the central nervous system, is of special significance in the pro...
How can we develop simple yet realistic models of the small neural circuits known as central pattern...
Short-term synaptic plasticity is found in many areas of the central nervous system. In the inhibito...
We study a heteroclinic bifurcation leading to the onset of robust phase-lag jittering in bursting r...
The study of the synchronization patterns of small neuron networks that control several biological p...