>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> >> modules name: vdg >> >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> Ivd: > Current due to a voltage-dependent conductance > >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> >------------------------------->---------------------------------------> > > _ p > > 1 > G= (g+R) x A x B (1) > > filename.A >A< > activation function > > filename.B >B< > inactivation function > > filename.R >R< > random fluctuations > > xxx.xx >g uS or S/cm2< > use S/cm2 if using area > > xxx.xx >P< > > > xxx.xx >E mV< > Ivd = G x (V -E) > > > > >------------------------------->---------------------------------------> > > _ p > > 2 > Ivd= (g+R) x m x h (2) > > filename.m >m< > HH activation function > > filename.h >h< > HH inactivation function > > filename.R >R< > random fluctuations > > xxx.xx >g uS or S/cm2< > use S/cm2 if using area > > xxx.xx >P< > > > xxx.xx >E mV< > Ivd = G x (V -E) > > > > >------------------------------->---------------------------------------> > > _ p > 3 > G= (g+R) x A (3) > SN_Ks.A >A< > activation function > vdg.R >R< > random fluctuations > 0.62 >g uS or S/cm2< > use S/cm2 if using area > 1 >P< > > -70.0 >E mV< > Ivd = G x (V -E) > > > > >------------------------------->---------------------------------------> > > _ p > > 4 > Ivd= (g+R) x m (4) > > filename.m >m< > HH activation function > > filename.R >R< > random fluctuations > > xxx.xx >g uS or S/cm2< > use S/cm2 if using area > > xxx.xx >P< > > > xxx.xx >E mV< > Ivd = G x (V -E) > > > > >------------------------------->---------------------------------------> > > > > 5 > Ivd = (G+R) x (V -E) (5) > > filename.R >R< > random fluctuations > > xxx.xx >g uS or S/cm2< > use S/cm2 if using area > > xxx.xx >E mV< > > > > > >------------------------------->---------------------------------------> END