Re: [AUDITORY] Cloud-Based Auditory-Nerve and Midbrain Simulations ("Richard F. Lyon" )


Subject: Re: [AUDITORY] Cloud-Based Auditory-Nerve and Midbrain Simulations
From:    "Richard F. Lyon"  <dicklyon@xxxxxxxx>
Date:    Wed, 14 Apr 2021 11:27:38 -0700

--0000000000006e4d8105bff2e737 Content-Type: text/plain; charset="UTF-8" In a side chat with Laurel we resolved my confusions; no bugs. The tone in noise is in narrowband (1/3 octave) noise, which makes sense, just didn't look like what I expected, thinking broadband. The SAM signal is hiding a bit. Both unmodulated and modulated tones are generated, and you have to click on a plot to toggle to the modulated one. Thanks for clarifying, Laurel. Dick On Wed, Apr 14, 2021 at 9:43 AM Richard F. Lyon <dicklyon@xxxxxxxx> wrote: > Laurel, that's a very cool thing! Thanks! I didn't know Matlab had web > apps now. > > I just selected "Tone in Noise" and hit "Run" and got all kinds of cool > plots. > > But it doesn't look like a tone in noise. More like a tone with random > amplitude modulation (noise was multiplied instead of added). Am I seeing > this right? > > Then I tried "SAM Tone", but couldn't see any amplitude modulation. Some > bug here? > > Dick > > > On Tue, Apr 13, 2021 at 9:12 PM Carney, Laurel < > Laurel_Carney@xxxxxxxx> wrote: > >> Dear Colleagues, >> We are happy to announce a Cloud-based version of Auditory-Nerve and >> Midbrain simulation code. A Matlab-based version of the UR_EAR* GUI is now >> available at: https://urhear.urmc.rochester.edu >> This code provides visualizations of population AN responses, >> provided by the Zilany et al. (2014) and Bruce et al. (2018) AN models, and >> Midbrain responses provided by the Mao et al. (2013), Nelson & Carney >> (2004), and Carney et al. (2015) IC models. Responses to several stimuli >> are available, including audiofiles that you can upload to the Cloud server. >> Additionally, 3 downloadable versions are available at >> https://osf.io/6bsnt/ : >> 1) Source code for the Matlab web app (runs in Matlab versions R2018b and >> later), >> And 2 standalone versions, which will run even without Matlab: >> 2) Matlab "installer" (executable) version for Windows >> 3) Matlab "installer" (executable) version for Mac >> >> Please enjoy, and send feedback & suggestions, >> Laurel >> >> >> >> *UR_EAR = University of Rochester, Envisioning Auditory Responses! >> ++ Supported by NIH-NIDCD DC001641 >> >> >> >> Laurel H. Carney, PhD >> >> Marylou Ingram Professor of Biomedical Engineering >> >> Professor, Biomedical Engineering, Neuroscience, Electrical & Computer >> Engineering >> >> University of Rochester >> >> URMC Rm 5-6438 >> >> Tel: 585-276-3948 >> >> Laurel.Carney@xxxxxxxx >> >> https://www.urmc.rochester.edu/labs/carney.aspx >> >> >> > --0000000000006e4d8105bff2e737 Content-Type: text/html; charset="UTF-8" Content-Transfer-Encoding: quoted-printable <div dir=3D"ltr"><div class=3D"gmail_default" style=3D"font-size:small">In = a side chat with Laurel we resolved my confusions; no bugs.</div><div class= =3D"gmail_default" style=3D"font-size:small"><br></div><div class=3D"gmail_= default" style=3D"font-size:small">The tone in noise is in narrowband (1/3 = octave) noise, which makes sense, just didn&#39;t look like what I expected= , thinking broadband.</div><div class=3D"gmail_default" style=3D"font-size:= small"><br></div><div class=3D"gmail_default" style=3D"font-size:small">The= SAM signal is hiding a bit.=C2=A0 Both unmodulated and modulated tones are= generated, and you have to click on a plot to toggle to the modulated one.= </div><div class=3D"gmail_default" style=3D"font-size:small"><br></div><div= class=3D"gmail_default" style=3D"font-size:small">Thanks for clarifying, L= aurel.</div><div class=3D"gmail_default" style=3D"font-size:small"><br></di= v><div class=3D"gmail_default" style=3D"font-size:small">Dick</div><div cla= ss=3D"gmail_default" style=3D"font-size:small"><br></div></div><br><div cla= ss=3D"gmail_quote"><div dir=3D"ltr" class=3D"gmail_attr">On Wed, Apr 14, 20= 21 at 9:43 AM Richard F. Lyon &lt;<a href=3D"mailto:dicklyon@xxxxxxxx">dickl= yon@xxxxxxxx</a>&gt; wrote:<br></div><blockquote class=3D"gmail_quote" style= =3D"margin:0px 0px 0px 0.8ex;border-left:1px solid rgb(204,204,204);padding= -left:1ex"><div dir=3D"ltr"><div class=3D"gmail_default" style=3D"font-size= :small">Laurel, that&#39;s a very cool thing!=C2=A0 Thanks!=C2=A0 I didn&#3= 9;t know Matlab had web apps now.<br></div><div class=3D"gmail_default" sty= le=3D"font-size:small"><br></div><div class=3D"gmail_default" style=3D"font= -size:small">I just selected &quot;Tone in Noise&quot; and hit &quot;Run&qu= ot; and got all kinds of cool plots.</div><div class=3D"gmail_default" styl= e=3D"font-size:small"><br></div><div class=3D"gmail_default" style=3D"font-= size:small">But it doesn&#39;t look like a tone in noise.=C2=A0 More like a= tone with random amplitude modulation (noise was multiplied instead of add= ed).=C2=A0 Am I seeing this right?</div><div class=3D"gmail_default" style= =3D"font-size:small"><br></div><div class=3D"gmail_default" style=3D"font-s= ize:small">Then I tried &quot;SAM Tone&quot;, but couldn&#39;t see any ampl= itude modulation.=C2=A0 Some bug here?<br></div><div class=3D"gmail_default= " style=3D"font-size:small"><br></div><div class=3D"gmail_default" style=3D= "font-size:small">Dick</div><div class=3D"gmail_default" style=3D"font-size= :small"><br></div></div><br><div class=3D"gmail_quote"><div dir=3D"ltr" cla= ss=3D"gmail_attr">On Tue, Apr 13, 2021 at 9:12 PM Carney, Laurel &lt;<a hre= f=3D"mailto:Laurel_Carney@xxxxxxxx" target=3D"_blank">Laurel_Carn= ey@xxxxxxxx</a>&gt; wrote:<br></div><blockquote class=3D"gmail_qu= ote" style=3D"margin:0px 0px 0px 0.8ex;border-left:1px solid rgb(204,204,20= 4);padding-left:1ex"> <div lang=3D"EN-US"> <div> <p class=3D"MsoNormal"><span style=3D"font-size:11.5pt;font-family:&quot;Ar= ial&quot;,sans-serif;color:rgb(29,28,29);background:rgb(248,248,248) none r= epeat scroll 0% 0%">Dear Colleagues,</span><span style=3D"font-size:11.5pt;= font-family:&quot;Arial&quot;,sans-serif;color:rgb(29,28,29)"><br> <span style=3D"background:rgb(248,248,248) none repeat scroll 0% 0%">=C2=A0= =C2=A0=C2=A0=C2=A0We are happy to announce a Cloud-based version of Auditor= y-Nerve and Midbrain simulation code. A Matlab-based version of the UR_EAR*= GUI is now available at:=C2=A0</span></span><a href=3D"https://urhear.urmc= .rochester.edu/" target=3D"_blank"><span style=3D"font-size:11.5pt;font-fam= ily:&quot;Arial&quot;,sans-serif;background:rgb(248,248,248) none repeat sc= roll 0% 0%;text-decoration:none">https://urhear.urmc.rochester.edu</span></= a><span style=3D"font-size:11.5pt;font-family:&quot;Arial&quot;,sans-serif;= color:rgb(29,28,29);background:rgb(248,248,248) none repeat scroll 0% 0%"> <br> =C2=A0=C2=A0=C2=A0=C2=A0This code provides visualizations of population AN = responses, provided by the Zilany et al. (2014) and Bruce et al. (2018) AN = models, and Midbrain responses provided by the Mao et al. (2013), Nelson &a= mp; Carney (2004), and Carney et al. (2015) IC models. Responses to several stimuli are available, including audiofiles that you can upload= to the Cloud server.</span><span style=3D"font-size:11.5pt;font-family:&qu= ot;Arial&quot;,sans-serif;color:rgb(29,28,29)"><br> <span style=3D"background:rgb(248,248,248) none repeat scroll 0% 0%">=C2=A0= =C2=A0=C2=A0=C2=A0=C2=A0=C2=A0Additionally, 3 downloadable versions are ava= ilable at=C2=A0</span></span><a href=3D"https://osf.io/6bsnt/" target=3D"_b= lank"><span style=3D"font-size:11.5pt;font-family:&quot;Arial&quot;,sans-se= rif;background:rgb(248,248,248) none repeat scroll 0% 0%;text-decoration:no= ne">https://osf.io/6bsnt/</span></a><span style=3D"font-size:11.5pt;font-fa= mily:&quot;Arial&quot;,sans-serif;color:rgb(29,28,29);background:rgb(248,24= 8,248) none repeat scroll 0% 0%">=C2=A0:</span><span style=3D"font-size:11.= 5pt;font-family:&quot;Arial&quot;,sans-serif;color:rgb(29,28,29)"><br> <span style=3D"background:rgb(248,248,248) none repeat scroll 0% 0%">1) Sou= rce code for the Matlab web app (runs in Matlab versions R2018b=C2=A0and la= ter),</span><br> <span style=3D"background:rgb(248,248,248) none repeat scroll 0% 0%">And 2 = standalone versions, which will run even without Matlab:</span><br> <span style=3D"background:rgb(248,248,248) none repeat scroll 0% 0%">2) Mat= lab &quot;installer&quot; (executable) version for Windows</span><br> <span style=3D"background:rgb(248,248,248) none repeat scroll 0% 0%">3) Mat= lab &quot;installer&quot; (executable) version for Mac<u></u><u></u></span>= </span></p> <p class=3D"MsoNormal"><span style=3D"font-size:11.5pt;font-family:&quot;Ar= ial&quot;,sans-serif;color:rgb(29,28,29);background:rgb(248,248,248) none r= epeat scroll 0% 0%">=C2=A0=C2=A0=C2=A0=C2=A0=C2=A0 Please enjoy, and send f= eedback &amp; suggestions,=C2=A0 <br> Laurel</span><u></u><u></u></p> <p class=3D"MsoNormal"><u></u>=C2=A0<u></u></p> <p class=3D"MsoNormal">*UR_EAR =3D University of Rochester, Envisioning Aud= itory Responses!<br> ++ Supported by NIH-NIDCD DC001641<u></u><u></u></p> <p class=3D"MsoNormal"><u></u>=C2=A0<u></u></p> <p class=3D"MsoNormal">Laurel H. Carney, PhD<u></u><u></u></p> <p class=3D"MsoNormal">Marylou Ingram Professor of Biomedical Engineering<u= ></u><u></u></p> <p class=3D"MsoNormal">Professor, Biomedical Engineering, Neuroscience, Ele= ctrical &amp; Computer Engineering<u></u><u></u></p> <p class=3D"MsoNormal">University of Rochester<u></u><u></u></p> <p class=3D"MsoNormal">URMC Rm 5-6438<u></u><u></u></p> <p class=3D"MsoNormal">Tel: 585-276-3948<u></u><u></u></p> <p class=3D"MsoNormal">Laurel.Carney@xxxxxxxx<u></u><u></u></p> <p class=3D"MsoNormal"><a href=3D"https://www.urmc.rochester.edu/labs/carne= y.aspx" target=3D"_blank">https://www.urmc.rochester.edu/labs/carney.aspx</= a> <u></u><u></u></p> <p class=3D"MsoNormal"><u></u>=C2=A0<u></u></p> </div> </div> </blockquote></div> </blockquote></div> --0000000000006e4d8105bff2e737--


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