Description: Spike detection (the process of identifying action potentials in extracellular traces) and spike sort-
ing (the process of assigning those action potentials to individual cells) are topics of a substantial
scientifi c literature, and are generally outside of the scope of this course. We will, however, need to
analyze our recordings, so this chapter introduces a basic spike detector and a manual spike sorter
which I have found useful for leech recordings.
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File list (Check if you may need any files):
WagenaarMBL\suc2spike.m
...........\butterhigh1.m
...........\sw_sig2log.m
...........\loadephys.m
...........\uniq.m
...........\atoi.m
...........\matchnearest.m
...........\dstrfind.m
...........\schmittpeak.m
...........\sw_log2sig.m
...........\upsample.m
...........\trigavg.m
...........\endswith.m
...........\isdigit.m
...........\trigavgfail.m
...........\readabf.m
...........\butterlow2.m
...........\templatefilter.m
...........\trigavgmax.m
...........\hist2.m
...........\onepixel.m
...........\instantfr.m
...........\autopermute.m
...........\butterlow1.m
...........\selspktrace.m
...........\schmitt.m
...........\dwgetspike.m
...........\screensize.m
...........\vsdload.m
...........\burstinfo.m
...........\abfload.m
...........\gsmooth.m
...........\sucexample.m
...........\medianflt.m
...........\autoipermute.m
...........\selectspike.m
...........\butterhigh2.m
...........\matchnearest2.m
...........\old\import_abf.m
...........\...\loadephys.m
...........\...\abf2mat.m
...........\int2clean.m
...........\intracel.m
...........\hotpow.m
...........\mousemove.m
...........\findfirst_ge.m
...........\physfit.m
...........\leasqr.m
...........\dfdp.m
...........\intraextra.m
...........\detectspike.m
...........\nerveexample.m