|
rmeddis@9
|
1 function vectorStrength=testAN(targetFrequency,BFlist, levels)
|
|
rmeddis@0
|
2 % testIHC used either for IHC I/O function ...
|
|
rmeddis@0
|
3 % or receptive field (doReceptiveFields=1)
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rmeddis@0
|
4
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rmeddis@0
|
5 global experiment method stimulusParameters
|
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rmeddis@9
|
6 global IHC_VResp_VivoParams IHC_cilia_RPParams IHCpreSynapseParams
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rmeddis@0
|
7 global AN_IHCsynapseParams
|
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rmeddis@13
|
8
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rmeddis@15
|
9 global ANoutput ANdt CNoutput ICoutput ICmembraneOutput tauCas
|
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rmeddis@15
|
10 global ARattenuation MOCattenuation
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rmeddis@15
|
11
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rmeddis@0
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12 dbstop if error
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rmeddis@0
|
13
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rmeddis@0
|
14 addpath (['..' filesep 'MAP'], ['..' filesep 'utilities'], ...
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rmeddis@0
|
15 ['..' filesep 'parameterStore'], ['..' filesep 'wavFileStore'],...
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rmeddis@0
|
16 ['..' filesep 'testPrograms'])
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rmeddis@0
|
17
|
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rmeddis@9
|
18 if nargin<3
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rmeddis@9
|
19 levels=-10:10:80;
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rmeddis@9
|
20 % levels=80:10:90;
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|
rmeddis@9
|
21 end
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rmeddis@9
|
22
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rmeddis@0
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23 nLevels=length(levels);
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rmeddis@0
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24
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rmeddis@0
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25 toneDuration=.2;
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rmeddis@0
|
26 rampDuration=0.002;
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rmeddis@0
|
27 silenceDuration=.02;
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rmeddis@0
|
28 localPSTHbinwidth=0.001;
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rmeddis@0
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29
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rmeddis@0
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30 % Use only the first frequency in the GUI targetFrequency box to defineBF
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rmeddis@9
|
31 % targetFrequency=stimulusParameters.targetFrequency(1);
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rmeddis@9
|
32 % BFlist=targetFrequency;
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rmeddis@0
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33
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rmeddis@0
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34 AN_HSRonset=zeros(nLevels,1);
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rmeddis@0
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35 AN_HSRsaturated=zeros(nLevels,1);
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rmeddis@0
|
36 AN_LSRonset=zeros(nLevels,1);
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rmeddis@0
|
37 AN_LSRsaturated=zeros(nLevels,1);
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rmeddis@0
|
38 CNLSRrate=zeros(nLevels,1);
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|
rmeddis@0
|
39 CNHSRsaturated=zeros(nLevels,1);
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rmeddis@0
|
40 ICHSRsaturated=zeros(nLevels,1);
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rmeddis@0
|
41 ICLSRsaturated=zeros(nLevels,1);
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rmeddis@0
|
42 vectorStrength=zeros(nLevels,1);
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rmeddis@0
|
43
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rmeddis@0
|
44 AR=zeros(nLevels,1);
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rmeddis@0
|
45 MOC=zeros(nLevels,1);
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rmeddis@0
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46
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rmeddis@0
|
47 % ANoutput=zeros(200,200);
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rmeddis@0
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48
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rmeddis@0
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49 figure(15), clf
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rmeddis@0
|
50 set(gcf,'position',[980 356 401 321])
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rmeddis@0
|
51 figure(5), clf
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|
rmeddis@9
|
52 set(gcf,'position', [980 34 400 295])
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rmeddis@0
|
53 drawnow
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|
rmeddis@0
|
54
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rmeddis@13
|
55 %% guarantee that the sample rate is at least 10 times the frequency
|
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rmeddis@13
|
56 sampleRate=50000;
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rmeddis@13
|
57 while sampleRate< 10* targetFrequency
|
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rmeddis@13
|
58 sampleRate=sampleRate+10000;
|
|
rmeddis@13
|
59 end
|
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rmeddis@13
|
60
|
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rmeddis@13
|
61 %% adjust sample rate so that the pure tone stimulus has an integer
|
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rmeddis@13
|
62 %% numver of epochs in a period
|
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rmeddis@13
|
63 dt=1/sampleRate;
|
|
rmeddis@13
|
64 period=1/targetFrequency;
|
|
rmeddis@13
|
65 ANspeedUpFactor=5; %anticipating MAP (needs clearing up)
|
|
rmeddis@13
|
66 ANdt=dt*ANspeedUpFactor;
|
|
rmeddis@13
|
67 ANdt=period/round(period/ANdt);
|
|
rmeddis@13
|
68 dt=ANdt/ANspeedUpFactor;
|
|
rmeddis@13
|
69 sampleRate=1/dt;
|
|
rmeddis@13
|
70 epochsPerPeriod=sampleRate*period;
|
|
rmeddis@13
|
71
|
|
rmeddis@13
|
72 %% main computational loop (vary level)
|
|
rmeddis@0
|
73 levelNo=0;
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|
rmeddis@0
|
74 for leveldB=levels
|
|
rmeddis@0
|
75 levelNo=levelNo+1;
|
|
rmeddis@0
|
76
|
|
rmeddis@0
|
77 fprintf('%4.0f\t', leveldB)
|
|
rmeddis@0
|
78 amp=28e-6*10^(leveldB/20);
|
|
rmeddis@0
|
79
|
|
rmeddis@0
|
80 time=dt:dt:toneDuration;
|
|
rmeddis@0
|
81 rampTime=dt:dt:rampDuration;
|
|
rmeddis@0
|
82 ramp=[0.5*(1+cos(2*pi*rampTime/(2*rampDuration)+pi)) ...
|
|
rmeddis@0
|
83 ones(1,length(time)-length(rampTime))];
|
|
rmeddis@0
|
84 ramp=ramp.*fliplr(ramp);
|
|
rmeddis@0
|
85
|
|
rmeddis@0
|
86 silence=zeros(1,round(silenceDuration/dt));
|
|
rmeddis@0
|
87
|
|
rmeddis@0
|
88 % create signal (leveldB/ targetFrequency)
|
|
rmeddis@0
|
89 inputSignal=amp*sin(2*pi*targetFrequency'*time);
|
|
rmeddis@0
|
90 inputSignal= ramp.*inputSignal;
|
|
rmeddis@0
|
91 inputSignal=[silence inputSignal];
|
|
rmeddis@0
|
92
|
|
rmeddis@0
|
93 %% run the model
|
|
rmeddis@0
|
94 AN_spikesOrProbability='spikes';
|
|
rmeddis@0
|
95 MAPparamsName=experiment.name;
|
|
rmeddis@0
|
96 showPlotsAndDetails=0;
|
|
rmeddis@0
|
97
|
|
rmeddis@9
|
98
|
|
rmeddis@9
|
99 MAP1_14(inputSignal, 1/dt, BFlist, ...
|
|
rmeddis@0
|
100 MAPparamsName, AN_spikesOrProbability);
|
|
rmeddis@0
|
101
|
|
rmeddis@0
|
102 nTaus=length(tauCas);
|
|
rmeddis@0
|
103
|
|
rmeddis@0
|
104 %LSR (same as HSR if no LSR fibers present)
|
|
rmeddis@0
|
105 [nANFibers nTimePoints]=size(ANoutput);
|
|
rmeddis@0
|
106
|
|
rmeddis@0
|
107 numLSRfibers=nANFibers/nTaus;
|
|
rmeddis@0
|
108 numHSRfibers=numLSRfibers;
|
|
rmeddis@0
|
109
|
|
rmeddis@0
|
110 LSRspikes=ANoutput(1:numLSRfibers,:);
|
|
rmeddis@13
|
111 PSTH=UTIL_makePSTH(LSRspikes, ANdt, localPSTHbinwidth);
|
|
rmeddis@0
|
112 PSTHLSR=mean(PSTH,1)/localPSTHbinwidth; % across fibers rates
|
|
rmeddis@0
|
113 PSTHtime=localPSTHbinwidth:localPSTHbinwidth:...
|
|
rmeddis@0
|
114 localPSTHbinwidth*length(PSTH);
|
|
rmeddis@0
|
115 AN_LSRonset(levelNo)= max(PSTHLSR); % peak in 5 ms window
|
|
rmeddis@0
|
116 AN_LSRsaturated(levelNo)= mean(PSTHLSR(round(length(PSTH)/2):end));
|
|
rmeddis@0
|
117
|
|
rmeddis@0
|
118 % HSR
|
|
rmeddis@0
|
119 HSRspikes= ANoutput(end- numHSRfibers+1:end, :);
|
|
rmeddis@13
|
120 PSTH=UTIL_makePSTH(HSRspikes, ANdt, localPSTHbinwidth);
|
|
rmeddis@0
|
121 PSTH=mean(PSTH,1)/localPSTHbinwidth; % sum across fibers (HSR only)
|
|
rmeddis@0
|
122 AN_HSRonset(levelNo)= max(PSTH);
|
|
rmeddis@0
|
123 AN_HSRsaturated(levelNo)= mean(PSTH(round(length(PSTH)/2): end));
|
|
rmeddis@0
|
124
|
|
rmeddis@0
|
125 figure(5), subplot(2,2,2)
|
|
rmeddis@0
|
126 hold off, bar(PSTHtime,PSTH, 'b')
|
|
rmeddis@0
|
127 hold on, bar(PSTHtime,PSTHLSR,'r')
|
|
rmeddis@0
|
128 ylim([0 1000])
|
|
rmeddis@9
|
129 xlim([0 length(PSTH)*localPSTHbinwidth])
|
|
rmeddis@15
|
130 set(gcf,'name',[num2str(BFlist), ' Hz: ' num2str(leveldB) ' dB']);
|
|
rmeddis@9
|
131
|
|
rmeddis@0
|
132 % AN - CV
|
|
rmeddis@0
|
133 % CV is computed 5 times. Use the middle one (3) as most typical
|
|
rmeddis@13
|
134 cvANHSR= UTIL_CV(HSRspikes, ANdt);
|
|
rmeddis@0
|
135
|
|
rmeddis@0
|
136 % AN - vector strength
|
|
rmeddis@0
|
137 PSTH=sum(HSRspikes);
|
|
rmeddis@0
|
138 [PH, binTimes]=UTIL_periodHistogram...
|
|
rmeddis@13
|
139 (PSTH, ANdt, targetFrequency);
|
|
rmeddis@0
|
140 VS=UTIL_vectorStrength(PH);
|
|
rmeddis@0
|
141 vectorStrength(levelNo)=VS;
|
|
rmeddis@0
|
142 disp(['sat rate= ' num2str(AN_HSRsaturated(levelNo)) ...
|
|
rmeddis@0
|
143 '; phase-locking VS = ' num2str(VS)])
|
|
rmeddis@0
|
144 title(['AN HSR: CV=' num2str(cvANHSR(3),'%5.2f') ...
|
|
rmeddis@0
|
145 'VS=' num2str(VS,'%5.2f')])
|
|
rmeddis@0
|
146
|
|
rmeddis@0
|
147 % CN - first-order neurons
|
|
rmeddis@0
|
148
|
|
rmeddis@0
|
149 % CN LSR
|
|
rmeddis@0
|
150 [nCNneurons c]=size(CNoutput);
|
|
rmeddis@0
|
151 nLSRneurons=round(nCNneurons/nTaus);
|
|
rmeddis@0
|
152 CNLSRspikes=CNoutput(1:nLSRneurons,:);
|
|
rmeddis@13
|
153 PSTH=UTIL_makePSTH(CNLSRspikes, ANdt, localPSTHbinwidth);
|
|
rmeddis@0
|
154 PSTH=sum(PSTH)/nLSRneurons;
|
|
rmeddis@0
|
155 CNLSRrate(levelNo)=mean(PSTH(round(length(PSTH)/2):end))/localPSTHbinwidth;
|
|
rmeddis@0
|
156
|
|
rmeddis@0
|
157 %CN HSR
|
|
rmeddis@0
|
158 MacGregorMultiHSRspikes=...
|
|
rmeddis@0
|
159 CNoutput(end-nLSRneurons:end,:);
|
|
rmeddis@13
|
160 PSTH=UTIL_makePSTH(MacGregorMultiHSRspikes, ANdt, localPSTHbinwidth);
|
|
rmeddis@0
|
161 PSTH=sum(PSTH)/nLSRneurons;
|
|
rmeddis@0
|
162 PSTH=mean(PSTH,1)/localPSTHbinwidth; % sum across fibers (HSR only)
|
|
rmeddis@0
|
163
|
|
rmeddis@0
|
164 CNHSRsaturated(levelNo)=mean(PSTH(length(PSTH)/2:end));
|
|
rmeddis@0
|
165
|
|
rmeddis@0
|
166 figure(5), subplot(2,2,3)
|
|
rmeddis@0
|
167 bar(PSTHtime,PSTH)
|
|
rmeddis@0
|
168 ylim([0 1000])
|
|
rmeddis@0
|
169 xlim([0 length(PSTH)*localPSTHbinwidth])
|
|
rmeddis@13
|
170 cvMMHSR= UTIL_CV(MacGregorMultiHSRspikes, ANdt);
|
|
rmeddis@0
|
171 title(['CN CV= ' num2str(cvMMHSR(3),'%5.2f')])
|
|
rmeddis@0
|
172
|
|
rmeddis@0
|
173 % IC LSR
|
|
rmeddis@0
|
174 [nICneurons c]=size(ICoutput);
|
|
rmeddis@0
|
175 nLSRneurons=round(nICneurons/nTaus);
|
|
rmeddis@0
|
176 ICLSRspikes=ICoutput(1:nLSRneurons,:);
|
|
rmeddis@13
|
177 PSTH=UTIL_makePSTH(ICLSRspikes, ANdt, localPSTHbinwidth);
|
|
rmeddis@0
|
178 ICLSRsaturated(levelNo)=mean(PSTH(round(length(PSTH)/2):end))/localPSTHbinwidth;
|
|
rmeddis@0
|
179
|
|
rmeddis@0
|
180 %IC HSR
|
|
rmeddis@0
|
181 MacGregorMultiHSRspikes=...
|
|
rmeddis@0
|
182 ICoutput(end-nLSRneurons:end,:);
|
|
rmeddis@13
|
183 PSTH=UTIL_makePSTH(MacGregorMultiHSRspikes, ANdt, localPSTHbinwidth);
|
|
rmeddis@0
|
184 PSTH=sum(PSTH)/nLSRneurons;
|
|
rmeddis@0
|
185 PSTH=mean(PSTH,1)/localPSTHbinwidth; % sum across fibers (HSR only)
|
|
rmeddis@0
|
186
|
|
rmeddis@0
|
187 ICHSRsaturated(levelNo)=mean(PSTH(length(PSTH)/2:end));
|
|
rmeddis@0
|
188
|
|
rmeddis@0
|
189 AR(levelNo)=min(ARattenuation);
|
|
rmeddis@0
|
190 MOC(levelNo)=min(MOCattenuation(length(MOCattenuation)/2:end));
|
|
rmeddis@0
|
191
|
|
rmeddis@15
|
192 time=dt:dt:dt*size(ICmembraneOutput,2);
|
|
rmeddis@0
|
193 figure(5), subplot(2,2,4)
|
|
rmeddis@0
|
194 plot(time,ICmembraneOutput(2, 1:end),'k')
|
|
rmeddis@0
|
195 ylim([-0.07 0])
|
|
rmeddis@0
|
196 xlim([0 max(time)])
|
|
rmeddis@0
|
197 title(['IC ' num2str(leveldB,'%4.0f') 'dB'])
|
|
rmeddis@0
|
198 drawnow
|
|
rmeddis@9
|
199
|
|
rmeddis@0
|
200 figure(5), subplot(2,2,1)
|
|
rmeddis@0
|
201 plot(20*log10(MOC), 'k'),
|
|
rmeddis@0
|
202 title(' MOC'), ylabel('dB attenuation')
|
|
rmeddis@0
|
203 ylim([-30 0])
|
|
rmeddis@0
|
204
|
|
rmeddis@0
|
205
|
|
rmeddis@0
|
206 end % level
|
|
rmeddis@0
|
207 figure(5), subplot(2,2,1)
|
|
rmeddis@9
|
208 plot(levels,20*log10(MOC), 'k'),
|
|
rmeddis@9
|
209 title(' MOC'), ylabel('dB attenuation')
|
|
rmeddis@9
|
210 ylim([-30 0])
|
|
rmeddis@0
|
211 xlim([0 max(levels)])
|
|
rmeddis@0
|
212
|
|
rmeddis@0
|
213 fprintf('\n')
|
|
rmeddis@0
|
214 toneDuration=2;
|
|
rmeddis@0
|
215 rampDuration=0.004;
|
|
rmeddis@0
|
216 silenceDuration=.02;
|
|
rmeddis@0
|
217 nRepeats=200; % no. of AN fibers
|
|
rmeddis@0
|
218 fprintf('toneDuration %6.3f\n', toneDuration)
|
|
rmeddis@0
|
219 fprintf(' %6.0f AN fibers (repeats)\n', nRepeats)
|
|
rmeddis@0
|
220 fprintf('levels')
|
|
rmeddis@0
|
221 fprintf('%6.2f\t', levels)
|
|
rmeddis@0
|
222 fprintf('\n')
|
|
rmeddis@0
|
223
|
|
rmeddis@0
|
224
|
|
rmeddis@0
|
225 % ---------------------------------------------------- display parameters
|
|
rmeddis@0
|
226
|
|
rmeddis@0
|
227 figure(15), clf
|
|
rmeddis@0
|
228 nRows=2; nCols=2;
|
|
rmeddis@0
|
229
|
|
rmeddis@0
|
230 % AN rate - level ONSET functions
|
|
rmeddis@0
|
231 subplot(nRows,nCols,1)
|
|
rmeddis@0
|
232 plot(levels,AN_LSRonset,'ro'), hold on
|
|
rmeddis@0
|
233 plot(levels,AN_HSRonset,'ko'), hold off
|
|
rmeddis@0
|
234 ylim([0 1000]), xlim([min(levels) max(levels)])
|
|
rmeddis@0
|
235 ttl=['tauCa= ' num2str(IHCpreSynapseParams.tauCa)];
|
|
rmeddis@0
|
236 title( ttl)
|
|
rmeddis@0
|
237 xlabel('level dB SPL'), ylabel('peak rate (sp/s)'), grid on
|
|
rmeddis@0
|
238 text(0, 800, 'AN onset', 'fontsize', 16)
|
|
rmeddis@0
|
239
|
|
rmeddis@0
|
240 % AN rate - level ADAPTED function
|
|
rmeddis@0
|
241 subplot(nRows,nCols,2)
|
|
rmeddis@0
|
242 plot(levels,AN_LSRsaturated, 'ro'), hold on
|
|
rmeddis@0
|
243 plot(levels,AN_HSRsaturated, 'ko'), hold off
|
|
rmeddis@0
|
244 ylim([0 400])
|
|
rmeddis@0
|
245 set(gca,'ytick',0:50:300)
|
|
rmeddis@0
|
246 xlim([min(levels) max(levels)])
|
|
rmeddis@0
|
247 set(gca,'xtick',[levels(1):20:levels(end)])
|
|
rmeddis@0
|
248 % grid on
|
|
rmeddis@0
|
249 ttl=[ 'spont=' num2str(mean(AN_HSRsaturated(1,:)),'%4.0f')...
|
|
rmeddis@0
|
250 ' sat=' num2str(mean(AN_HSRsaturated(end,1)),'%4.0f')];
|
|
rmeddis@0
|
251 title( ttl)
|
|
rmeddis@0
|
252 xlabel('level dB SPL'), ylabel ('adapted rate (sp/s)')
|
|
rmeddis@0
|
253 text(0, 340, 'AN adapted', 'fontsize', 16), grid on
|
|
rmeddis@0
|
254
|
|
rmeddis@0
|
255 % CN rate - level ADAPTED function
|
|
rmeddis@0
|
256 subplot(nRows,nCols,3)
|
|
rmeddis@0
|
257 plot(levels,CNLSRrate, 'ro'), hold on
|
|
rmeddis@0
|
258 plot(levels,CNHSRsaturated, 'ko'), hold off
|
|
rmeddis@0
|
259 ylim([0 400])
|
|
rmeddis@0
|
260 set(gca,'ytick',0:50:300)
|
|
rmeddis@0
|
261 xlim([min(levels) max(levels)])
|
|
rmeddis@0
|
262 set(gca,'xtick',[levels(1):20:levels(end)])
|
|
rmeddis@0
|
263 % grid on
|
|
rmeddis@0
|
264 ttl=[ 'spont=' num2str(mean(CNHSRsaturated(1,:)),'%4.0f') ' sat=' ...
|
|
rmeddis@0
|
265 num2str(mean(CNHSRsaturated(end,1)),'%4.0f')];
|
|
rmeddis@0
|
266 title( ttl)
|
|
rmeddis@0
|
267 xlabel('level dB SPL'), ylabel ('adapted rate (sp/s)')
|
|
rmeddis@0
|
268 text(0, 350, 'CN', 'fontsize', 16), grid on
|
|
rmeddis@0
|
269
|
|
rmeddis@0
|
270 % IC rate - level ADAPTED function
|
|
rmeddis@0
|
271 subplot(nRows,nCols,4)
|
|
rmeddis@0
|
272 plot(levels,ICLSRsaturated, 'ro'), hold on
|
|
rmeddis@0
|
273 plot(levels,ICHSRsaturated, 'ko'), hold off
|
|
rmeddis@0
|
274 ylim([0 400])
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rmeddis@0
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275 set(gca,'ytick',0:50:300)
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rmeddis@0
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276 xlim([min(levels) max(levels)])
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rmeddis@0
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277 set(gca,'xtick',[levels(1):20:levels(end)]), grid on
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rmeddis@0
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278
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rmeddis@9
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279
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rmeddis@0
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280 ttl=['spont=' num2str(mean(ICHSRsaturated(1,:)),'%4.0f') ...
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rmeddis@0
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281 ' sat=' num2str(mean(ICHSRsaturated(end,1)),'%4.0f')];
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rmeddis@0
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282 title( ttl)
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rmeddis@0
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283 xlabel('level dB SPL'), ylabel ('adapted rate (sp/s)')
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rmeddis@0
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284 text(0, 350, 'IC', 'fontsize', 16)
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rmeddis@0
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285 set(gcf,'name',' AN CN IC rate/level')
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rmeddis@0
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286
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rmeddis@9
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287 peakVectorStrength=max(vectorStrength);
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rmeddis@0
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288
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rmeddis@0
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289 fprintf('\n')
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rmeddis@0
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290 disp('levels vectorStrength')
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rmeddis@0
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291 fprintf('%3.0f \t %6.4f \n', [levels; vectorStrength'])
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rmeddis@0
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292 fprintf('\n')
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rmeddis@9
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293 fprintf('Phase locking, max vector strength=\t %6.4f\n\n',...
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rmeddis@0
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294 max(vectorStrength))
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rmeddis@0
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295
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rmeddis@0
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296 allData=[ levels' AN_HSRonset AN_HSRsaturated...
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rmeddis@0
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297 AN_LSRonset AN_LSRsaturated ...
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rmeddis@0
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298 CNHSRsaturated CNLSRrate...
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rmeddis@0
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299 ICHSRsaturated ICLSRsaturated];
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rmeddis@0
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300 fprintf('\n levels \tANHSR Onset \tANHSR adapted\tANLSR Onset \tANLSR adapted\tCNHSR\tCNLSR\tICHSR \tICLSR \n');
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rmeddis@0
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301 UTIL_printTabTable(round(allData))
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rmeddis@0
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302 fprintf('VS (phase locking)= \t%6.4f\n\n',...
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rmeddis@0
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303 max(vectorStrength))
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rmeddis@0
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304
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rmeddis@9
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305 UTIL_showStruct(IHC_cilia_RPParams, 'IHC_cilia_RPParams')
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rmeddis@9
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306 UTIL_showStruct(IHCpreSynapseParams, 'IHCpreSynapseParams')
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rmeddis@9
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307 UTIL_showStruct(AN_IHCsynapseParams, 'AN_IHCsynapseParams')
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rmeddis@9
|
308
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rmeddis@9
|
309 fprintf('\n')
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|
rmeddis@9
|
310 disp('levels vectorStrength')
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rmeddis@9
|
311 fprintf('%3.0f \t %6.4f \n', [levels; vectorStrength'])
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rmeddis@9
|
312 fprintf('\n')
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rmeddis@9
|
313 fprintf('Phase locking, max vector strength= \t%6.4f\n\n',...
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rmeddis@9
|
314 max(vectorStrength))
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|
rmeddis@9
|
315
|
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rmeddis@9
|
316 allData=[ levels' AN_HSRonset AN_HSRsaturated...
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|
rmeddis@9
|
317 AN_LSRonset AN_LSRsaturated ...
|
|
rmeddis@9
|
318 CNHSRsaturated CNLSRrate...
|
|
rmeddis@9
|
319 ICHSRsaturated ICLSRsaturated];
|
|
rmeddis@9
|
320 fprintf('\n levels \tANHSR Onset \tANHSR adapted\tANLSR Onset \tANLSR adapted\tCNHSR\tCNLSR\tICHSR \tICLSR \n');
|
|
rmeddis@9
|
321 UTIL_printTabTable(round(allData))
|
|
rmeddis@9
|
322 fprintf('VS (phase locking)= \t%6.4f\n\n',...
|
|
rmeddis@9
|
323 max(vectorStrength))
|
|
rmeddis@9
|
324
|
