(1) One may view the transition probability as a function of a state variable x and its time derivative x’, that is, (2)The dynamical systems law is written by (3)Then,…

Fig. 1 Structure of septo-hippocampal network model. Three hippocampal neuron populations and one medial septal population are modeled explicitly. Two medial septal populations are modeled indirectly by their rhythmic or…

Fig. 1 An example of the stimulus artifacts removal in a stimulation task. (a) The first figure shows the communicated sEMG, and the other one is the filtered result. (b)…

Fig. 1 Basic structure of the model. The model consists of multiple layers, of which the unit is given as spiking module (S-module) and oscillatory module (O-module). The unit receives…

Fig. 1 The event sequence in the path-planning task. Green, red and yellow squares denote the cursor, final-goal, and GO signals, respectively 2 Methods The details of the experimental procedures…

Fig. 1 The computational model of the ITD detection neural circuit. The input signal of each ear has the same frequency, and ∆T is the ITD signal The inner hair…

Fig. 1 64 superimposed band pass filtered ECoGs In this review we focus on the process by which brains use sensory information (I) to create fragments of knowledge (K) in…

Fig. 1 Preference matrix; columns – subjects (11); lines – objects (22); greenish – rather ‘yes’, p > 0.5; reddish – rather ‘no’, p < 0.5 Fig. 2 Impact matrix; columns – subjects (11);…

(1) where is the input to the jth neuronal oscillator from the kth neuronal oscillator, ε is weak coupling constant, N is the total number of neuronal oscillators, t n…

(1) The first two terms in the right side of Eq. 1 are the ionic currents responsible for the generation of the action potential; the third term is the leakage current;…