%
% plot_sr_AHP_60 like plot_sr_AHP, but for high input
%
% $Revision:$
%
function plot_sr_AHP_60(FN, sim, nn_inputs, LW, nn_pars, off)
%
% bugfix for wrong sim.instrument.spiketrain
%
for i=1:sim.N_nn,
[spi, spt,act ] = ...
calc_spiketrain(reshape(sim.instrument.allvm(1,i,off:end),1,sim.T_upd-off+1), sim);
iisi = [spi sim.T_upd] - [0 spi];
m_isi(i) = mean(iisi(2:end-1));
s_isi(i) = std(iisi(2:end-1));
end;
%[m_isi, s_isi] =calc_isi_plot(sim, off, 0);
N =sim.N_nn;
x_val= -120*(sim.T_upd/1000);
figure;
%------------------------------------------------------------------
% plot VM for 1,2,or 3 neurons
%------------------------------------------------------------------
subplot(5,1,1);
vm=reshape(sim.instrument.allvm(1,1,1:sim.T_upd),sim.T_upd,1);
plot(vm(off:end), 'b', 'Linewidth',LW);
hold on;
if (N > 1),
vm=reshape(sim.instrument.allvm(1,2,1:sim.T_upd),sim.T_upd,1);
plot(vm(off:end), 'r', 'Linewidth',LW);
end;
if (N > 2),
vm=reshape(sim.instrument.allvm(1,3,1:sim.T_upd),sim.T_upd,1);
plot(vm(off:end), 'g', 'Linewidth',LW);
end;
axis([0,sim.T_upd-off,-90,40]);
hold on;
plot([0,0],[-20,30],'Linewidth',3);
text(x_val,10,'50mV','FontSize',[16]);
text(x_val,-70,'V_m','FontSize',[16]);
set(gca,'Visible','off');
%------------------------------------------------------------------
% plot Input
%------------------------------------------------------------------
subplot(5,1,3);
%
% Input
%
plot(-nn_inputs(1,off:end), 'Linewidth',LW);
minp = max(-nn_inputs(1,off:end));
rs=minp/8;
%axis([0,sim.T_upd-off,-3,8]);
axis([0,sim.T_upd-off,-3*rs,minp]);
set(gca,'Visible','off');
hold on;
text(x_val,0,'I_s','FontSize',[16]);
%
% time-line
%
plot([0,sim.T_upd-off],[-2.5*rs,-2.5*rs],'Linewidth',LW);
for i=0:50:sim.T_upd-off,
plot([i,i],[-2.6*rs,-2.1*rs],'Linewidth',2);
end;
plot([sim.T_upd-50-off, sim.T_upd],[-2.9*rs,-2.9*rs],'Linewidth',2);
text(sim.T_upd-50-off,-5.3*rs,'50ms','FontSize',[16]);
%
% integrated input
%
inp_amount = -sum(nn_inputs(1,off:end))*sim.ts;
inp = sprintf('|I_s| = %.2f\\muAscm^{-2}', inp_amount/1000);
text(0,-6.3*rs, inp, 'FontSize',[12]);
%
% mu parameters -now obsolete
%
%if (nn_pars(1:3) ~= [0;0;0]),
% text1=sprintf('mu(%s) = [%.2f %.2f %.2f]', sim.exp, ...
% nn_pars(1), nn_pars(2), nn_pars(3));
%
% text(300,-5.3*rs,text1,'FontSize',[12]);
% end;
%
%
% Input scaling
%
if (1 == 0),
hold on;
plot([0,0],rs*[4,6],'Linewidth',3);
%text(5,5,'2\muA/cm^2','FontSize',[16]);
%text(x_val,0,'I_s','FontSize',[16]);
text(-120,rs*5,'2\muAcm^{-2}','FontSize',[16]);
text(x_val,-2,'I_s','FontSize',[16]);
end;
% integral (mean of Input....)
% n_fire = sprintf('%3d',...
% neuron_activity(sim.instrument.allvm(1,i,:),off,sim));
% text(sim.T_upd-off,sim.N_nn-i+1,n_fire, 'FontSize',[12]);
%------------------------------------------------------------------
% print dots for selected neuron into input
%------------------------------------------------------------------
if (1==0),
subplot(5,1,3);
sel=1;
sp=find(sim.instrument.allvm(1,sel,off:end)> sim.activity_thr);
if (length(sp) > 0),
spp=zeros(1,length(sp))+3;
plot(ti(sp),spp,'r.','MarkerSize',8);
end;
end;
%------------------------------------------------------------------
% print rasterplot
%------------------------------------------------------------------
subplot(5,1,2);
ti=1:sim.T_upd-off+5;
hold off;
for i=1:sim.N_nn,
sp=find(sim.instrument.allvm(1,i,off:end) > sim.activity_thr);
if (length(sp) > 0),
spp=zeros(1,length(sp))+sim.N_nn-i+1;
plot(ti(sp),spp,'.','MarkerSize',8);
hold('on');
end;
%
% activity rate [Hz]
%
n_fire = sprintf('%3.1dHz',...
1000*neuron_activity(sim.instrument.allvm(1,i,:),off,sim)/ ...
(sim.T_upd-off+1));
text(sim.T_upd-off,sim.N_nn-i+1,n_fire, 'FontSize',[12]);
%
% ISI and sigma^2
%
text_isi = sprintf('I=%.1f[%.1f]', m_isi(i), s_isi(i));
text(1.3*x_val,sim.N_nn-i+1,text_isi, 'FontSize',[12]);
% n_fire = sprintf('%3.1d',...
% neuron_activity(sim.instrument.allvm(1,i,:),off,sim));
% text(-130,sim.N_nn-i+1,n_fire, 'FontSize',[16]);
end;
hold off;
axis([1,sim.T_upd-off,0,sim.N_nn+1]);
set(gca,'Visible','off');
%------------------------------------------------------------------
% print Ca_i and iAHP
%------------------------------------------------------------------
subplot(5,1,4);
%cai=reshape(sim.instrument.I_Channels.Cai(1,1:sim.T_upd),sim.T_upd,1);
cai=sim.instrument.I_Channels(1).Cai;
plot(cai(off:end), 'b', 'Linewidth',LW);
hold on;
if (N > 1),
% cai=reshape(sim.instrument.I_Channels.Cai(2,1:sim.T_upd),sim.T_upd,1);
cai=sim.instrument.I_Channels(2).Cai;
plot(cai(off:end), 'r', 'Linewidth',LW);
end;
if (N > 2),
% cai=reshape(sim.instrument.I_Channels.Cai(3,1:sim.T_upd),sim.T_upd,1);
cai=sim.instrument.I_Channels(3).Cai;
plot(cai(off:end), 'g', 'Linewidth',LW);
end;
text(x_val,0,'Ca_i','FontSize',[16]);
set(gca,'Visible','off');
%------------------------------------------------------------------
% print iAHP
%------------------------------------------------------------------
subplot(5,1,5);
%iahp=reshape(sim.instrument.I_Channels.I_AHP(1,1:sim.T_upd),sim.T_upd,1);
iahp=sim.instrument.I_Channels(1).I_AHP;
plot(iahp(off:end), 'b', 'Linewidth',LW);
hold on;
mx=max(iahp);
if (N > 1),
% iahp=reshape(sim.instrument.I_Channels.I_AHP(2,1:sim.T_upd),sim.T_upd,1);
iahp=sim.instrument.I_Channels(2).I_AHP;
plot(iahp(off:end), 'r', 'Linewidth',LW);
mx=max(mx,max(iahp));
end;
if (N > 2),
% iahp=reshape(sim.instrument.I_Channels.I_AHP(3,1:sim.T_upd),sim.T_upd,1);
iahp=sim.instrument.I_Channels(3).I_AHP;
plot(iahp(off:end), 'g', 'Linewidth',LW);
mx=max(mx,max(iahp));
end;
text(x_val,0,'I_{AHP}','FontSize',[16]);
% hold on;
% plot([0,0],[mx,mx-1],'Linewidth',3);
% text(-120,mx,'2\muAcm^{-2}','FontSize',[16]);
set(gca,'Visible','off');
%------------------------------------------------------------------
% print the stuff to file
%------------------------------------------------------------------
fn_eps =sprintf('%s.eps', FN);
print('-depsc', fn_eps);
fn_jpg =sprintf('%s.jpg', FN);
print('-djpeg', fn_jpg);