期刊: BIOLOGICAL CYBERNETICS, 2020; 114 (3)
In order to explore the neural mechanism underlying salamander terrestrial turning, an improved biomechanical model is proposed by modifying the forel......
期刊: BIOLOGICAL CYBERNETICS, 2020; 114 (4-5)
Decoding the direction of translating objects in front of cluttered moving backgrounds, accurately and efficiently, is still a challenging problem. In......
期刊: BIOLOGICAL CYBERNETICS, 2019; 113 (5-6)
Roboticists have long drawn inspiration from nature to develop navigation and simultaneous localization and mapping (SLAM) systems such as RatSLAM. An......
期刊: BIOLOGICAL CYBERNETICS, 2018; 112 (3)
Nonlinear oscillators are usually utilized by bionic scientists for establishing central pattern generator models for imitating rhythmic motions by bi......
期刊: BIOLOGICAL CYBERNETICS, 2018; 112 (4)
A salamander is an ideal animal for studying the spinal locomotor network mechanism of vertebrates from an evolutionary perspective since it represent......
期刊: BIOLOGICAL CYBERNETICS, 2018; 112 (4)
Experimental data have shown that inherent bursting of the neuron plays an important role in the generation of rhythmic movements in spinal networks. ......
期刊: BIOLOGICAL CYBERNETICS, 2017; 111 (2)
Alteration of channel functions (channelopathies) has been encountered in various hereditary muscle diseases. channel mutations lead to aberrant excit......
期刊: BIOLOGICAL CYBERNETICS, 2017; 111 (3-4)
Phenomenologically inspired by dolphins' unihemispheric sleep, we introduce a minimal model for random walks with physiological memory. The physiologi......
期刊: BIOLOGICAL CYBERNETICS, 2022; 116 (1)
Brain-machine interface (BMI) can realize information interaction between the brain and external devices, and yet the control accuracy is limited by t......
期刊: BIOLOGICAL CYBERNETICS, 2022; 116 (5-6)
Neuronal network synchronization has received wide interest. In the present manuscript, we study the influence of initial membrane potentials together......
