Spectral envelope analysis
Perform analysis for 5 spectral envelopes
Normalizing centroid value is 2000
Frequency bands are critical band spaced.
No. of analysis files is 75

Read analysis file lsx302.1.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 146.800003 Hz
Time between frames = 0.003406 sec
Original sample rate = 22050.000000
Duration of sound is 2.381
Magfr format is type compact
Number of harmonics per frame = 75
Number of analysis frames is 699
File read, now compute centroid vs. frame for the file
fa=146.8, nhar= 75, tl=2.3808, dt=0.0034, npts=699, PEAK centroid=2285.4
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx302.2.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 146.800003 Hz
Time between frames = 0.003406 sec
Original sample rate = 22050.000000
Duration of sound is 1.400
Magfr format is type compact
Number of harmonics per frame = 75
Number of analysis frames is 411
File read, now compute centroid vs. frame for the file
fa=146.8, nhar= 75, tl=1.3999, dt=0.0034, npts=411, PEAK centroid=1187.2
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx302.3.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 146.800003 Hz
Time between frames = 0.003406 sec
Original sample rate = 22050.000000
Duration of sound is 2.010
Magfr format is type compact
Number of harmonics per frame = 75
Number of analysis frames is 590
File read, now compute centroid vs. frame for the file
fa=146.8, nhar= 75, tl=2.0095, dt=0.0034, npts=590, PEAK centroid=1760.7
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx303.1.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 155.600006 Hz
Time between frames = 0.003213 sec
Original sample rate = 22050.000000
Duration of sound is 2.127
Magfr format is type compact
Number of harmonics per frame = 70
Number of analysis frames is 662
File read, now compute centroid vs. frame for the file
fa=155.6, nhar= 70, tl=2.1272, dt=0.0032, npts=662, PEAK centroid=2168.7
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx303.2.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 155.600006 Hz
Time between frames = 0.003213 sec
Original sample rate = 22050.000000
Duration of sound is 1.507
Magfr format is type compact
Number of harmonics per frame = 70
Number of analysis frames is 469
File read, now compute centroid vs. frame for the file
fa=155.6, nhar= 70, tl=1.5071, dt=0.0032, npts=469, PEAK centroid=1802.7
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx303.3.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 155.600006 Hz
Time between frames = 0.003213 sec
Original sample rate = 22050.000000
Duration of sound is 1.957
Magfr format is type compact
Number of harmonics per frame = 70
Number of analysis frames is 609
File read, now compute centroid vs. frame for the file
fa=155.6, nhar= 70, tl=1.9569, dt=0.0032, npts=609, PEAK centroid=2019.6
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx303.4.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 155.600006 Hz
Time between frames = 0.003213 sec
Original sample rate = 22050.000000
Duration of sound is 7.564
Magfr format is type compact
Number of harmonics per frame = 70
Number of analysis frames is 2354
File read, now compute centroid vs. frame for the file
fa=155.6, nhar= 70, tl=7.5643, dt=0.0032, npts=2354, PEAK centroid=1442.0
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx305.1.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 174.600006 Hz
Time between frames = 0.002864 sec
Original sample rate = 22050.000000
Duration of sound is 1.967
Magfr format is type compact
Number of harmonics per frame = 63
Number of analysis frames is 687
File read, now compute centroid vs. frame for the file
fa=174.6, nhar= 63, tl=1.9674, dt=0.0029, npts=687, PEAK centroid=1274.5
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx305.2.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 174.600006 Hz
Time between frames = 0.002864 sec
Original sample rate = 22050.000000
Duration of sound is 1.541
Magfr format is type compact
Number of harmonics per frame = 63
Number of analysis frames is 538
File read, now compute centroid vs. frame for the file
fa=174.6, nhar= 63, tl=1.5407, dt=0.0029, npts=538, PEAK centroid=1711.2
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx305.3.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 174.600006 Hz
Time between frames = 0.002864 sec
Original sample rate = 22050.000000
Duration of sound is 1.924
Magfr format is type compact
Number of harmonics per frame = 63
Number of analysis frames is 672
File read, now compute centroid vs. frame for the file
fa=174.6, nhar= 63, tl=1.9244, dt=0.0029, npts=672, PEAK centroid=1898.6
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx305.4.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 174.600006 Hz
Time between frames = 0.002864 sec
Original sample rate = 22050.000000
Duration of sound is 7.761
Magfr format is type compact
Number of harmonics per frame = 63
Number of analysis frames is 2710
File read, now compute centroid vs. frame for the file
fa=174.6, nhar= 63, tl=7.7606, dt=0.0029, npts=2710, PEAK centroid=1286.0
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx307.1.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 196.000000 Hz
Time between frames = 0.002551 sec
Original sample rate = 22050.000000
Duration of sound is 1.847
Magfr format is type compact
Number of harmonics per frame = 56
Number of analysis frames is 724
File read, now compute centroid vs. frame for the file
fa=196.0, nhar= 56, tl=1.8469, dt=0.0026, npts=724, PEAK centroid=2058.3
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx307.2.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 196.000000 Hz
Time between frames = 0.002551 sec
Original sample rate = 22050.000000
Duration of sound is 1.401
Magfr format is type compact
Number of harmonics per frame = 56
Number of analysis frames is 549
File read, now compute centroid vs. frame for the file
fa=196.0, nhar= 56, tl=1.4005, dt=0.0026, npts=549, PEAK centroid=1331.5
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx307.3.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 196.000000 Hz
Time between frames = 0.002551 sec
Original sample rate = 22050.000000
Duration of sound is 1.929
Magfr format is type compact
Number of harmonics per frame = 56
Number of analysis frames is 756
File read, now compute centroid vs. frame for the file
fa=196.0, nhar= 56, tl=1.9286, dt=0.0026, npts=756, PEAK centroid=2050.6
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx307.4.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 196.000000 Hz
Time between frames = 0.002551 sec
Original sample rate = 22050.000000
Duration of sound is 11.314
Magfr format is type compact
Number of harmonics per frame = 56
Number of analysis frames is 4435
File read, now compute centroid vs. frame for the file
fa=196.0, nhar= 56, tl=11.3138, dt=0.0026, npts=4435, PEAK centroid=1564.4
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx308.1.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 207.699997 Hz
Time between frames = 0.002407 sec
Original sample rate = 22050.000000
Duration of sound is 1.969
Magfr format is type compact
Number of harmonics per frame = 53
Number of analysis frames is 818
File read, now compute centroid vs. frame for the file
fa=207.7, nhar= 53, tl=1.9692, dt=0.0024, npts=818, PEAK centroid=1564.5
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx308.2.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 207.699997 Hz
Time between frames = 0.002407 sec
Original sample rate = 22050.000000
Duration of sound is 1.608
Magfr format is type compact
Number of harmonics per frame = 53
Number of analysis frames is 668
File read, now compute centroid vs. frame for the file
fa=207.7, nhar= 53, tl=1.6081, dt=0.0024, npts=668, PEAK centroid=1371.2
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx308.3.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 207.699997 Hz
Time between frames = 0.002407 sec
Original sample rate = 22050.000000
Duration of sound is 2.022
Magfr format is type compact
Number of harmonics per frame = 53
Number of analysis frames is 840
File read, now compute centroid vs. frame for the file
fa=207.7, nhar= 53, tl=2.0221, dt=0.0024, npts=840, PEAK centroid=1486.7
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx308.4.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 207.699997 Hz
Time between frames = 0.002407 sec
Original sample rate = 22050.000000
Duration of sound is 10.587
Magfr format is type compact
Number of harmonics per frame = 53
Number of analysis frames is 4398
File read, now compute centroid vs. frame for the file
fa=207.7, nhar= 53, tl=10.5874, dt=0.0024, npts=4398, PEAK centroid=2050.4
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx310.1.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 233.100006 Hz
Time between frames = 0.002145 sec
Original sample rate = 22050.000000
Duration of sound is 2.132
Magfr format is type compact
Number of harmonics per frame = 47
Number of analysis frames is 994
File read, now compute centroid vs. frame for the file
fa=233.1, nhar= 47, tl=2.1321, dt=0.0021, npts=994, PEAK centroid=893.9
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx310.2.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 233.100006 Hz
Time between frames = 0.002145 sec
Original sample rate = 22050.000000
Duration of sound is 1.592
Magfr format is type compact
Number of harmonics per frame = 47
Number of analysis frames is 742
File read, now compute centroid vs. frame for the file
fa=233.1, nhar= 47, tl=1.5916, dt=0.0021, npts=742, PEAK centroid=1168.8
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx310.3.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 233.100006 Hz
Time between frames = 0.002145 sec
Original sample rate = 22050.000000
Duration of sound is 2.044
Magfr format is type compact
Number of harmonics per frame = 47
Number of analysis frames is 953
File read, now compute centroid vs. frame for the file
fa=233.1, nhar= 47, tl=2.0442, dt=0.0021, npts=953, PEAK centroid=1881.1
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx310.4.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 233.100006 Hz
Time between frames = 0.002145 sec
Original sample rate = 22050.000000
Duration of sound is 13.207
Magfr format is type compact
Number of harmonics per frame = 47
Number of analysis frames is 6157
File read, now compute centroid vs. frame for the file
fa=233.1, nhar= 47, tl=13.2068, dt=0.0021, npts=6157, PEAK centroid=2373.3
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx400.1.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 261.600006 Hz
Time between frames = 0.001911 sec
Original sample rate = 22050.000000
Duration of sound is 2.131
Magfr format is type compact
Number of harmonics per frame = 42
Number of analysis frames is 1115
File read, now compute centroid vs. frame for the file
fa=261.6, nhar= 42, tl=2.1311, dt=0.0019, npts=1115, PEAK centroid=1275.7
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx400.2.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 261.600006 Hz
Time between frames = 0.001911 sec
Original sample rate = 22050.000000
Duration of sound is 1.474
Magfr format is type compact
Number of harmonics per frame = 42
Number of analysis frames is 771
File read, now compute centroid vs. frame for the file
fa=261.6, nhar= 42, tl=1.4736, dt=0.0019, npts=771, PEAK centroid=1428.8
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx400.3.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 261.600006 Hz
Time between frames = 0.001911 sec
Original sample rate = 22050.000000
Duration of sound is 1.953
Magfr format is type compact
Number of harmonics per frame = 42
Number of analysis frames is 1022
File read, now compute centroid vs. frame for the file
fa=261.6, nhar= 42, tl=1.9534, dt=0.0019, npts=1022, PEAK centroid=1896.8
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx400.4.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 261.600006 Hz
Time between frames = 0.001911 sec
Original sample rate = 22050.000000
Duration of sound is 12.875
Magfr format is type compact
Number of harmonics per frame = 42
Number of analysis frames is 6736
File read, now compute centroid vs. frame for the file
fa=261.6, nhar= 42, tl=12.8746, dt=0.0019, npts=6736, PEAK centroid=2132.9
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx402.1.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 293.700012 Hz
Time between frames = 0.001702 sec
Original sample rate = 22050.000000
Duration of sound is 1.672
Magfr format is type compact
Number of harmonics per frame = 37
Number of analysis frames is 982
File read, now compute centroid vs. frame for the file
fa=293.7, nhar= 37, tl=1.6718, dt=0.0017, npts=982, PEAK centroid=1236.3
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx402.2.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 293.700012 Hz
Time between frames = 0.001702 sec
Original sample rate = 22050.000000
Duration of sound is 1.362
Magfr format is type compact
Number of harmonics per frame = 37
Number of analysis frames is 800
File read, now compute centroid vs. frame for the file
fa=293.7, nhar= 37, tl=1.3619, dt=0.0017, npts=800, PEAK centroid=1260.1
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx402.3.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 293.700012 Hz
Time between frames = 0.001702 sec
Original sample rate = 22050.000000
Duration of sound is 1.925
Magfr format is type compact
Number of harmonics per frame = 37
Number of analysis frames is 1131
File read, now compute centroid vs. frame for the file
fa=293.7, nhar= 37, tl=1.9254, dt=0.0017, npts=1131, PEAK centroid=1830.7
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx402.4.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 293.700012 Hz
Time between frames = 0.001702 sec
Original sample rate = 22050.000000
Duration of sound is 11.696
Magfr format is type compact
Number of harmonics per frame = 37
Number of analysis frames is 6870
File read, now compute centroid vs. frame for the file
fa=293.7, nhar= 37, tl=11.6956, dt=0.0017, npts=6870, PEAK centroid=2361.1
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx403.1.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 311.100006 Hz
Time between frames = 0.001607 sec
Original sample rate = 22050.000000
Duration of sound is 1.728
Magfr format is type compact
Number of harmonics per frame = 35
Number of analysis frames is 1075
File read, now compute centroid vs. frame for the file
fa=311.1, nhar= 35, tl=1.7277, dt=0.0016, npts=1075, PEAK centroid=1295.3
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx403.2.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 311.100006 Hz
Time between frames = 0.001607 sec
Original sample rate = 22050.000000
Duration of sound is 1.392
Magfr format is type compact
Number of harmonics per frame = 35
Number of analysis frames is 866
File read, now compute centroid vs. frame for the file
fa=311.1, nhar= 35, tl=1.3918, dt=0.0016, npts=866, PEAK centroid=942.6
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx403.3.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 311.100006 Hz
Time between frames = 0.001607 sec
Original sample rate = 22050.000000
Duration of sound is 1.747
Magfr format is type compact
Number of harmonics per frame = 35
Number of analysis frames is 1087
File read, now compute centroid vs. frame for the file
fa=311.1, nhar= 35, tl=1.7470, dt=0.0016, npts=1087, PEAK centroid=2249.1
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx403.4.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 311.100006 Hz
Time between frames = 0.001607 sec
Original sample rate = 22050.000000
Duration of sound is 10.808
Magfr format is type compact
Number of harmonics per frame = 35
Number of analysis frames is 6725
File read, now compute centroid vs. frame for the file
fa=311.1, nhar= 35, tl=10.8084, dt=0.0016, npts=6725, PEAK centroid=1624.4
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx405.1.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 349.200012 Hz
Time between frames = 0.001432 sec
Original sample rate = 22050.000000
Duration of sound is 1.641
Magfr format is type compact
Number of harmonics per frame = 31
Number of analysis frames is 1146
File read, now compute centroid vs. frame for the file
fa=349.2, nhar= 31, tl=1.6409, dt=0.0014, npts=1146, PEAK centroid=584.7
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx405.2.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 349.200012 Hz
Time between frames = 0.001432 sec
Original sample rate = 22050.000000
Duration of sound is 1.479
Magfr format is type compact
Number of harmonics per frame = 31
Number of analysis frames is 1033
File read, now compute centroid vs. frame for the file
fa=349.2, nhar= 31, tl=1.4791, dt=0.0014, npts=1033, PEAK centroid=857.9
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx405.3.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 349.200012 Hz
Time between frames = 0.001432 sec
Original sample rate = 22050.000000
Duration of sound is 1.730
Magfr format is type compact
Number of harmonics per frame = 31
Number of analysis frames is 1208
File read, now compute centroid vs. frame for the file
fa=349.2, nhar= 31, tl=1.7297, dt=0.0014, npts=1208, PEAK centroid=1415.0
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx405.4.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 349.200012 Hz
Time between frames = 0.001432 sec
Original sample rate = 22050.000000
Duration of sound is 10.830
Magfr format is type compact
Number of harmonics per frame = 31
Number of analysis frames is 7564
File read, now compute centroid vs. frame for the file
fa=349.2, nhar= 31, tl=10.8305, dt=0.0014, npts=7564, PEAK centroid=1022.9
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx407.1.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 392.000000 Hz
Time between frames = 0.001276 sec
Original sample rate = 22050.000000
Duration of sound is 1.737
Magfr format is type compact
Number of harmonics per frame = 28
Number of analysis frames is 1362
File read, now compute centroid vs. frame for the file
fa=392.0, nhar= 28, tl=1.7372, dt=0.0013, npts=1362, PEAK centroid=650.1
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx407.2.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 392.000000 Hz
Time between frames = 0.001276 sec
Original sample rate = 22050.000000
Duration of sound is 1.594
Magfr format is type compact
Number of harmonics per frame = 28
Number of analysis frames is 1250
File read, now compute centroid vs. frame for the file
fa=392.0, nhar= 28, tl=1.5944, dt=0.0013, npts=1250, PEAK centroid=1251.2
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx407.3.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 392.000000 Hz
Time between frames = 0.001276 sec
Original sample rate = 22050.000000
Duration of sound is 1.810
Magfr format is type compact
Number of harmonics per frame = 28
Number of analysis frames is 1419
File read, now compute centroid vs. frame for the file
fa=392.0, nhar= 28, tl=1.8099, dt=0.0013, npts=1419, PEAK centroid=1687.0
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx407.4.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 392.000000 Hz
Time between frames = 0.001276 sec
Original sample rate = 22050.000000
Duration of sound is 12.770
Magfr format is type compact
Number of harmonics per frame = 28
Number of analysis frames is 10012
File read, now compute centroid vs. frame for the file
fa=392.0, nhar= 28, tl=12.7704, dt=0.0013, npts=10012, PEAK centroid=1917.4
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx408.1.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 415.299988 Hz
Time between frames = 0.001204 sec
Original sample rate = 22050.000000
Duration of sound is 1.906
Magfr format is type compact
Number of harmonics per frame = 26
Number of analysis frames is 1583
File read, now compute centroid vs. frame for the file
fa=415.3, nhar= 26, tl=1.9059, dt=0.0012, npts=1583, PEAK centroid=377.9
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx408.2.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 415.299988 Hz
Time between frames = 0.001204 sec
Original sample rate = 22050.000000
Duration of sound is 1.633
Magfr format is type compact
Number of harmonics per frame = 26
Number of analysis frames is 1356
File read, now compute centroid vs. frame for the file
fa=415.3, nhar= 26, tl=1.6326, dt=0.0012, npts=1356, PEAK centroid=1077.0
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx408.3.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 415.299988 Hz
Time between frames = 0.001204 sec
Original sample rate = 22050.000000
Duration of sound is 1.849
Magfr format is type compact
Number of harmonics per frame = 26
Number of analysis frames is 1536
File read, now compute centroid vs. frame for the file
fa=415.3, nhar= 26, tl=1.8493, dt=0.0012, npts=1536, PEAK centroid=1658.5
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx408.4.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 415.299988 Hz
Time between frames = 0.001204 sec
Original sample rate = 22050.000000
Duration of sound is 10.539
Magfr format is type compact
Number of harmonics per frame = 26
Number of analysis frames is 8754
File read, now compute centroid vs. frame for the file
fa=415.3, nhar= 26, tl=10.5394, dt=0.0012, npts=8754, PEAK centroid=1982.8
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx410.1.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 466.200012 Hz
Time between frames = 0.001073 sec
Original sample rate = 22050.000000
Duration of sound is 1.825
Magfr format is type compact
Number of harmonics per frame = 23
Number of analysis frames is 1702
File read, now compute centroid vs. frame for the file
fa=466.2, nhar= 23, tl=1.8254, dt=0.0011, npts=1702, PEAK centroid=973.3
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx410.2.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 466.200012 Hz
Time between frames = 0.001073 sec
Original sample rate = 22050.000000
Duration of sound is 1.643
Magfr format is type compact
Number of harmonics per frame = 23
Number of analysis frames is 1532
File read, now compute centroid vs. frame for the file
fa=466.2, nhar= 23, tl=1.6431, dt=0.0011, npts=1532, PEAK centroid=1507.7
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx410.3.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 466.200012 Hz
Time between frames = 0.001073 sec
Original sample rate = 22050.000000
Duration of sound is 1.810
Magfr format is type compact
Number of harmonics per frame = 23
Number of analysis frames is 1688
File read, now compute centroid vs. frame for the file
fa=466.2, nhar= 23, tl=1.8104, dt=0.0011, npts=1688, PEAK centroid=2087.3
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx410.4.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 466.200012 Hz
Time between frames = 0.001073 sec
Original sample rate = 22050.000000
Duration of sound is 10.247
Magfr format is type compact
Number of harmonics per frame = 23
Number of analysis frames is 9554
File read, now compute centroid vs. frame for the file
fa=466.2, nhar= 23, tl=10.2467, dt=0.0011, npts=9554, PEAK centroid=2392.0
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx500.1.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 523.299988 Hz
Time between frames = 0.000955 sec
Original sample rate = 22050.000000
Duration of sound is 1.512
Magfr format is type compact
Number of harmonics per frame = 21
Number of analysis frames is 1582
File read, now compute centroid vs. frame for the file
fa=523.3, nhar= 21, tl=1.5116, dt=0.0010, npts=1582, PEAK centroid=787.3
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx500.2.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 523.299988 Hz
Time between frames = 0.000955 sec
Original sample rate = 22050.000000
Duration of sound is 1.162
Magfr format is type compact
Number of harmonics per frame = 21
Number of analysis frames is 1216
File read, now compute centroid vs. frame for the file
fa=523.3, nhar= 21, tl=1.1619, dt=0.0010, npts=1216, PEAK centroid=1182.4
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx500.3.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 523.299988 Hz
Time between frames = 0.000955 sec
Original sample rate = 22050.000000
Duration of sound is 1.726
Magfr format is type compact
Number of harmonics per frame = 21
Number of analysis frames is 1806
File read, now compute centroid vs. frame for the file
fa=523.3, nhar= 21, tl=1.7256, dt=0.0010, npts=1806, PEAK centroid=2120.5
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx500.4.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 523.299988 Hz
Time between frames = 0.000955 sec
Original sample rate = 22050.000000
Duration of sound is 10.011
Magfr format is type compact
Number of harmonics per frame = 21
Number of analysis frames is 10477
File read, now compute centroid vs. frame for the file
fa=523.3, nhar= 21, tl=10.0105, dt=0.0010, npts=10477, PEAK centroid=1927.8
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx502.1.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 587.299988 Hz
Time between frames = 0.000851 sec
Original sample rate = 22050.000000
Duration of sound is 1.561
Magfr format is type compact
Number of harmonics per frame = 18
Number of analysis frames is 1833
File read, now compute centroid vs. frame for the file
fa=587.3, nhar= 18, tl=1.5605, dt=0.0009, npts=1833, PEAK centroid=649.2
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx502.2.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 587.299988 Hz
Time between frames = 0.000851 sec
Original sample rate = 22050.000000
Duration of sound is 1.484
Magfr format is type compact
Number of harmonics per frame = 18
Number of analysis frames is 1743
File read, now compute centroid vs. frame for the file
fa=587.3, nhar= 18, tl=1.4839, dt=0.0009, npts=1743, PEAK centroid=1271.4
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx502.3.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 587.299988 Hz
Time between frames = 0.000851 sec
Original sample rate = 22050.000000
Duration of sound is 1.736
Magfr format is type compact
Number of harmonics per frame = 18
Number of analysis frames is 2039
File read, now compute centroid vs. frame for the file
fa=587.3, nhar= 18, tl=1.7359, dt=0.0009, npts=2039, PEAK centroid=1861.2
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx502.4.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 587.299988 Hz
Time between frames = 0.000851 sec
Original sample rate = 22050.000000
Duration of sound is 10.590
Magfr format is type compact
Number of harmonics per frame = 18
Number of analysis frames is 12439
File read, now compute centroid vs. frame for the file
fa=587.3, nhar= 18, tl=10.5900, dt=0.0009, npts=12439, PEAK centroid=1860.0
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx503.1.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 622.299988 Hz
Time between frames = 0.000803 sec
Original sample rate = 22050.000000
Duration of sound is 1.558
Magfr format is type compact
Number of harmonics per frame = 17
Number of analysis frames is 1939
File read, now compute centroid vs. frame for the file
fa=622.3, nhar= 17, tl=1.5579, dt=0.0008, npts=1939, PEAK centroid=693.1
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx503.2.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 622.299988 Hz
Time between frames = 0.000803 sec
Original sample rate = 22050.000000
Duration of sound is 1.324
Magfr format is type compact
Number of harmonics per frame = 17
Number of analysis frames is 1648
File read, now compute centroid vs. frame for the file
fa=622.3, nhar= 17, tl=1.3241, dt=0.0008, npts=1648, PEAK centroid=1077.2
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx503.3.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 622.299988 Hz
Time between frames = 0.000803 sec
Original sample rate = 22050.000000
Duration of sound is 1.699
Magfr format is type compact
Number of harmonics per frame = 17
Number of analysis frames is 2115
File read, now compute centroid vs. frame for the file
fa=622.3, nhar= 17, tl=1.6993, dt=0.0008, npts=2115, PEAK centroid=1850.1
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx503.4.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 622.299988 Hz
Time between frames = 0.000803 sec
Original sample rate = 22050.000000
Duration of sound is 9.818
Magfr format is type compact
Number of harmonics per frame = 17
Number of analysis frames is 12220
File read, now compute centroid vs. frame for the file
fa=622.3, nhar= 17, tl=9.8184, dt=0.0008, npts=12220, PEAK centroid=1674.7
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx505.1.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 698.500000 Hz
Time between frames = 0.000716 sec
Original sample rate = 22050.000000
Duration of sound is 1.671
Magfr format is type compact
Number of harmonics per frame = 15
Number of analysis frames is 2334
File read, now compute centroid vs. frame for the file
fa=698.5, nhar= 15, tl=1.6707, dt=0.0007, npts=2334, PEAK centroid=1513.8
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx505.2.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 698.500000 Hz
Time between frames = 0.000716 sec
Original sample rate = 22050.000000
Duration of sound is 1.238
Magfr format is type compact
Number of harmonics per frame = 15
Number of analysis frames is 1730
File read, now compute centroid vs. frame for the file
fa=698.5, nhar= 15, tl=1.2384, dt=0.0007, npts=1730, PEAK centroid=695.2
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx505.3.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 698.500000 Hz
Time between frames = 0.000716 sec
Original sample rate = 22050.000000
Duration of sound is 1.601
Magfr format is type compact
Number of harmonics per frame = 15
Number of analysis frames is 2236
File read, now compute centroid vs. frame for the file
fa=698.5, nhar= 15, tl=1.6006, dt=0.0007, npts=2236, PEAK centroid=1736.7
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx505.4.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 698.500000 Hz
Time between frames = 0.000716 sec
Original sample rate = 22050.000000
Duration of sound is 9.121
Magfr format is type compact
Number of harmonics per frame = 15
Number of analysis frames is 12742
File read, now compute centroid vs. frame for the file
fa=698.5, nhar= 15, tl=9.1210, dt=0.0007, npts=12742, PEAK centroid=1993.1
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx507.1.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 784.000000 Hz
Time between frames = 0.000638 sec
Original sample rate = 22050.000000
Duration of sound is 1.663
Magfr format is type compact
Number of harmonics per frame = 14
Number of analysis frames is 2607
File read, now compute centroid vs. frame for the file
fa=784.0, nhar= 14, tl=1.6626, dt=0.0006, npts=2607, PEAK centroid=444.0
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx507.2.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 784.000000 Hz
Time between frames = 0.000638 sec
Original sample rate = 22050.000000
Duration of sound is 1.494
Magfr format is type compact
Number of harmonics per frame = 14
Number of analysis frames is 2343
File read, now compute centroid vs. frame for the file
fa=784.0, nhar= 14, tl=1.4943, dt=0.0006, npts=2343, PEAK centroid=635.5
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx507.3.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 784.000000 Hz
Time between frames = 0.000638 sec
Original sample rate = 22050.000000
Duration of sound is 1.646
Magfr format is type compact
Number of harmonics per frame = 14
Number of analysis frames is 2581
File read, now compute centroid vs. frame for the file
fa=784.0, nhar= 14, tl=1.6460, dt=0.0006, npts=2581, PEAK centroid=1675.0
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx507.4.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 784.000000 Hz
Time between frames = 0.000638 sec
Original sample rate = 22050.000000
Duration of sound is 7.293
Magfr format is type compact
Number of harmonics per frame = 14
Number of analysis frames is 11436
File read, now compute centroid vs. frame for the file
fa=784.0, nhar= 14, tl=7.2934, dt=0.0006, npts=11436, PEAK centroid=1282.6
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx508.1.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 830.599976 Hz
Time between frames = 0.000602 sec
Original sample rate = 22050.000000
Duration of sound is 2.734
Magfr format is type compact
Number of harmonics per frame = 13
Number of analysis frames is 4542
File read, now compute centroid vs. frame for the file
fa=830.6, nhar= 13, tl=2.7342, dt=0.0006, npts=4542, PEAK centroid=285.8
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx508.2.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 830.599976 Hz
Time between frames = 0.000602 sec
Original sample rate = 22050.000000
Duration of sound is 1.797
Magfr format is type compact
Number of harmonics per frame = 13
Number of analysis frames is 2986
File read, now compute centroid vs. frame for the file
fa=830.6, nhar= 13, tl=1.7975, dt=0.0006, npts=2986, PEAK centroid=493.8
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx508.3.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 830.599976 Hz
Time between frames = 0.000602 sec
Original sample rate = 22050.000000
Duration of sound is 1.869
Magfr format is type compact
Number of harmonics per frame = 13
Number of analysis frames is 3105
File read, now compute centroid vs. frame for the file
fa=830.6, nhar= 13, tl=1.8691, dt=0.0006, npts=3105, PEAK centroid=1619.2
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix

Read analysis file lsx508.4.pv.an
Comments:recorded in the UIUC Computer Music Project
Base analysis frequency = 830.599976 Hz
Time between frames = 0.000602 sec
Original sample rate = 22050.000000
Duration of sound is 9.169
Magfr format is type compact
Number of harmonics per frame = 13
Number of analysis frames is 15231
File read, now compute centroid vs. frame for the file
fa=830.6, nhar= 13, tl=9.1687, dt=0.0006, npts=15231, PEAK centroid=988.0
Now set up the centroid vs. frequency matrix
Now fill the centroid vs. frequency matrix
Compute matrix averages
Interpolate zeros from matrix
tfanal.cen output using 5*centroid/centroidMax with centroidMax = 2000

Write results to output file
Centroid band 0, range: 0 to 400********************************************
fband:  0  freq= 0	ampave= 0.937852 (over    0 pts.)  std_dev= 0.000000
fband:  1  freq= 100	ampave= 0.937852 (over 3112 pts.)  std_dev= 0.135844
fband:  2  freq= 201	ampave= 0.985408 (over 7721 pts.)  std_dev= 0.080620
fband:  3  freq= 304	ampave= 0.921368 (over 16751 pts.)  std_dev= 0.224736
fband:  4  freq= 410	ampave= 0.604940 (over 11281 pts.)  std_dev= 0.434115
fband:  5  freq= 522	ampave= 0.662125 (over 23958 pts.)  std_dev= 0.412481
fband:  6  freq= 641	ampave= 0.538081 (over 15997 pts.)  std_dev= 0.426767
fband:  7  freq= 768	ampave= 0.635878 (over 39225 pts.)  std_dev= 0.441685
fband:  8  freq= 907	ampave= 0.150395 (over 23649 pts.)  std_dev= 0.256918
fband:  9  freq= 1059	ampave= 0.067126 (over 17285 pts.)  std_dev= 0.080989
fband: 10  freq= 1228	ampave= 0.061770 (over 36909 pts.)  std_dev= 0.100303
fband: 11  freq= 1417	ampave= 0.044090 (over 27684 pts.)  std_dev= 0.045380
fband: 12  freq= 1631	ampave= 0.056347 (over 53751 pts.)  std_dev= 0.085475
fband: 13  freq= 1875	ampave= 0.020191 (over 36436 pts.)  std_dev= 0.033874
fband: 14  freq= 2156	ampave= 0.012870 (over 43868 pts.)  std_dev= 0.018544
fband: 15  freq= 2482	ampave= 0.012082 (over 69130 pts.)  std_dev= 0.018814
fband: 16  freq= 2865	ampave= 0.005275 (over 64903 pts.)  std_dev= 0.006452
fband: 17  freq= 3318	ampave= 0.003969 (over 91877 pts.)  std_dev= 0.003916
fband: 18  freq= 3860	ampave= 0.002721 (over 104347 pts.)  std_dev= 0.002812
fband: 19  freq= 4516	ampave= 0.001632 (over 136744 pts.)  std_dev= 0.001674
fband: 20  freq= 5316	ampave= 0.001306 (over 174603 pts.)  std_dev= 0.001394
fband: 21  freq= 6307	ampave= 0.001316 (over 188087 pts.)  std_dev= 0.001520
fband: 22  freq= 7548	ampave= 0.000898 (over 244553 pts.)  std_dev= 0.001027
fband: 23  freq= 9125	ampave= 0.000754 (over 318718 pts.)  std_dev= 0.000884

Centroid band 1, range: 400 to 800********************************************
fband:  0  freq= 0	ampave= 0.815762 (over    0 pts.)  std_dev= 0.000000
fband:  1  freq= 100	ampave= 0.815762 (over 4702 pts.)  std_dev= 0.246901
fband:  2  freq= 201	ampave= 0.907510 (over 6620 pts.)  std_dev= 0.244947
fband:  3  freq= 304	ampave= 0.844910 (over 10093 pts.)  std_dev= 0.267952
fband:  4  freq= 410	ampave= 0.544030 (over 9367 pts.)  std_dev= 0.345353
fband:  5  freq= 522	ampave= 0.641792 (over 22507 pts.)  std_dev= 0.363121
fband:  6  freq= 641	ampave= 0.566414 (over 8174 pts.)  std_dev= 0.386374
fband:  7  freq= 768	ampave= 0.575625 (over 20572 pts.)  std_dev= 0.436704
fband:  8  freq= 907	ampave= 0.380598 (over 20642 pts.)  std_dev= 0.396682
fband:  9  freq= 1059	ampave= 0.151842 (over 13242 pts.)  std_dev= 0.145207
fband: 10  freq= 1228	ampave= 0.120589 (over 24842 pts.)  std_dev= 0.148168
fband: 11  freq= 1417	ampave= 0.104481 (over 20105 pts.)  std_dev= 0.096895
fband: 12  freq= 1631	ampave= 0.121171 (over 36538 pts.)  std_dev= 0.146843
fband: 13  freq= 1875	ampave= 0.080674 (over 24794 pts.)  std_dev= 0.106129
fband: 14  freq= 2156	ampave= 0.051028 (over 30805 pts.)  std_dev= 0.050716
fband: 15  freq= 2482	ampave= 0.048876 (over 47605 pts.)  std_dev= 0.068143
fband: 16  freq= 2865	ampave= 0.025581 (over 49229 pts.)  std_dev= 0.027721
fband: 17  freq= 3318	ampave= 0.017392 (over 63812 pts.)  std_dev= 0.015542
fband: 18  freq= 3860	ampave= 0.011173 (over 71043 pts.)  std_dev= 0.009183
fband: 19  freq= 4516	ampave= 0.006131 (over 97032 pts.)  std_dev= 0.005467
fband: 20  freq= 5316	ampave= 0.003460 (over 115682 pts.)  std_dev= 0.003096
fband: 21  freq= 6307	ampave= 0.003353 (over 134007 pts.)  std_dev= 0.003203
fband: 22  freq= 7548	ampave= 0.001845 (over 172278 pts.)  std_dev= 0.001920
fband: 23  freq= 9125	ampave= 0.001343 (over 219833 pts.)  std_dev= 0.001450

Centroid band 2, range: 800 to 1200********************************************
fband:  0  freq= 0	ampave= 0.661293 (over    0 pts.)  std_dev= 0.000000
fband:  1  freq= 100	ampave= 0.661293 (over 3078 pts.)  std_dev= 0.275088
fband:  2  freq= 201	ampave= 0.710596 (over 4750 pts.)  std_dev= 0.341625
fband:  3  freq= 304	ampave= 0.711290 (over 6616 pts.)  std_dev= 0.270269
fband:  4  freq= 410	ampave= 0.480053 (over 4922 pts.)  std_dev= 0.381485
fband:  5  freq= 522	ampave= 0.771206 (over 13329 pts.)  std_dev= 0.304005
fband:  6  freq= 641	ampave= 0.687248 (over 6140 pts.)  std_dev= 0.296448
fband:  7  freq= 768	ampave= 0.657933 (over 15229 pts.)  std_dev= 0.390028
fband:  8  freq= 907	ampave= 0.494422 (over 11344 pts.)  std_dev= 0.345106
fband:  9  freq= 1059	ampave= 0.266917 (over 8384 pts.)  std_dev= 0.202135
fband: 10  freq= 1228	ampave= 0.196585 (over 15446 pts.)  std_dev= 0.178161
fband: 11  freq= 1417	ampave= 0.204845 (over 13359 pts.)  std_dev= 0.152444
fband: 12  freq= 1631	ampave= 0.197761 (over 22767 pts.)  std_dev= 0.211154
fband: 13  freq= 1875	ampave= 0.188210 (over 16454 pts.)  std_dev= 0.195715
fband: 14  freq= 2156	ampave= 0.131457 (over 20449 pts.)  std_dev= 0.114287
fband: 15  freq= 2482	ampave= 0.106570 (over 29086 pts.)  std_dev= 0.090169
fband: 16  freq= 2865	ampave= 0.078901 (over 32509 pts.)  std_dev= 0.060049
fband: 17  freq= 3318	ampave= 0.050360 (over 40254 pts.)  std_dev= 0.043456
fband: 18  freq= 3860	ampave= 0.030150 (over 44197 pts.)  std_dev= 0.024514
fband: 19  freq= 4516	ampave= 0.015718 (over 61943 pts.)  std_dev= 0.011001
fband: 20  freq= 5316	ampave= 0.010289 (over 74063 pts.)  std_dev= 0.007789
fband: 21  freq= 6307	ampave= 0.007775 (over 84812 pts.)  std_dev= 0.007781
fband: 22  freq= 7548	ampave= 0.003238 (over 110904 pts.)  std_dev= 0.003010
fband: 23  freq= 9125	ampave= 0.002232 (over 139070 pts.)  std_dev= 0.002151

Centroid band 3, range: 1200 to 1600********************************************
fband:  0  freq= 0	ampave= 0.531390 (over    0 pts.)  std_dev= 0.000000
fband:  1  freq= 100	ampave= 0.531390 (over 4043 pts.)  std_dev= 0.231929
fband:  2  freq= 201	ampave= 0.545016 (over 2658 pts.)  std_dev= 0.359810
fband:  3  freq= 304	ampave= 0.718828 (over 7602 pts.)  std_dev= 0.296341
fband:  4  freq= 410	ampave= 0.436933 (over 6086 pts.)  std_dev= 0.325256
fband:  5  freq= 522	ampave= 0.784505 (over 16149 pts.)  std_dev= 0.275867
fband:  6  freq= 641	ampave= 0.915835 (over 4159 pts.)  std_dev= 0.240449
fband:  7  freq= 768	ampave= 0.777994 (over 14687 pts.)  std_dev= 0.297017
fband:  8  freq= 907	ampave= 0.585569 (over 10598 pts.)  std_dev= 0.347082
fband:  9  freq= 1059	ampave= 0.389004 (over 9496 pts.)  std_dev= 0.229165
fband: 10  freq= 1228	ampave= 0.232586 (over 19052 pts.)  std_dev= 0.152580
fband: 11  freq= 1417	ampave= 0.327049 (over 14674 pts.)  std_dev= 0.233036
fband: 12  freq= 1631	ampave= 0.266636 (over 22761 pts.)  std_dev= 0.295164
fband: 13  freq= 1875	ampave= 0.368043 (over 15573 pts.)  std_dev= 0.270966
fband: 14  freq= 2156	ampave= 0.294667 (over 20668 pts.)  std_dev= 0.177153
fband: 15  freq= 2482	ampave= 0.202894 (over 33566 pts.)  std_dev= 0.110186
fband: 16  freq= 2865	ampave= 0.177604 (over 32285 pts.)  std_dev= 0.122883
fband: 17  freq= 3318	ampave= 0.118630 (over 42636 pts.)  std_dev= 0.097379
fband: 18  freq= 3860	ampave= 0.065945 (over 50411 pts.)  std_dev= 0.052178
fband: 19  freq= 4516	ampave= 0.041667 (over 63041 pts.)  std_dev= 0.031700
fband: 20  freq= 5316	ampave= 0.029404 (over 78967 pts.)  std_dev= 0.021228
fband: 21  freq= 6307	ampave= 0.017215 (over 89711 pts.)  std_dev= 0.016696
fband: 22  freq= 7548	ampave= 0.006135 (over 115821 pts.)  std_dev= 0.005159
fband: 23  freq= 9125	ampave= 0.003924 (over 146340 pts.)  std_dev= 0.003283

Centroid band 4, range: 1600 to 2000********************************************
fband:  0  freq= 0	ampave= 0.947441 (over    0 pts.)  std_dev= 0.000000
fband:  1  freq= 100	ampave= 0.947441 (over   93 pts.)  std_dev= 0.181117
fband:  2  freq= 201	ampave= 0.611007 (over 11127 pts.)  std_dev= 0.356601
fband:  3  freq= 304	ampave= 0.807061 (over 4301 pts.)  std_dev= 0.279473
fband:  4  freq= 410	ampave= 0.498214 (over 12893 pts.)  std_dev= 0.297048
fband:  5  freq= 522	ampave= 0.685913 (over 17456 pts.)  std_dev= 0.246269
fband:  6  freq= 641	ampave= 0.799447 (over 6948 pts.)  std_dev= 0.313419
fband:  7  freq= 768	ampave= 0.725268 (over 15248 pts.)  std_dev= 0.258804
fband:  8  freq= 907	ampave= 0.651772 (over 17307 pts.)  std_dev= 0.259334
fband:  9  freq= 1059	ampave= 0.584855 (over 12989 pts.)  std_dev= 0.252897
fband: 10  freq= 1228	ampave= 0.356862 (over 22894 pts.)  std_dev= 0.233115
fband: 11  freq= 1417	ampave= 0.457208 (over 16492 pts.)  std_dev= 0.275901
fband: 12  freq= 1631	ampave= 0.460961 (over 29526 pts.)  std_dev= 0.365326
fband: 13  freq= 1875	ampave= 0.580915 (over 25460 pts.)  std_dev= 0.246739
fband: 14  freq= 2156	ampave= 0.575007 (over 24299 pts.)  std_dev= 0.191882
fband: 15  freq= 2482	ampave= 0.382357 (over 38698 pts.)  std_dev= 0.187118
fband: 16  freq= 2865	ampave= 0.354017 (over 43858 pts.)  std_dev= 0.155806
fband: 17  freq= 3318	ampave= 0.194968 (over 53242 pts.)  std_dev= 0.102579
fband: 18  freq= 3860	ampave= 0.115173 (over 59577 pts.)  std_dev= 0.059782
fband: 19  freq= 4516	ampave= 0.115781 (over 81032 pts.)  std_dev= 0.062803
fband: 20  freq= 5316	ampave= 0.085243 (over 100689 pts.)  std_dev= 0.050035
fband: 21  freq= 6307	ampave= 0.030302 (over 111142 pts.)  std_dev= 0.023201
fband: 22  freq= 7548	ampave= 0.013594 (over 151468 pts.)  std_dev= 0.010204
fband: 23  freq= 9125	ampave= 0.007287 (over 182082 pts.)  std_dev= 0.005389

Max Centroid= 2000, Lowthresh= 100