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EE2F1 Speech & Audio Technology Sept. 26, 2002 SLIDE 1 THE UNIVERSITY OF BIRMINGHAM ELECTRONIC, ELECTRICAL & COMPUTER ENGINEERING Digital Systems & Vision Processing EE2F1 Speech & Audio Technology Martin Russell Electronic, Electrical & Computer Engineering School of Engineering The University of Birmingham
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EE2F1 Speech & Audio Technology Sept. 26, 2002 SLIDE 2 THE UNIVERSITY OF BIRMINGHAM ELECTRONIC, ELECTRICAL & COMPUTER ENGINEERING Digital Systems & Vision Processing Speech & Audio Technology Lectures – Tuesdays, 10am LT1 Two laboratory sessions: –NG22, Thursday/Friday 2pm-5pm –Week 6 – introduction to SFS –Week 8 – speech synthesis –Check timetable for groups Examination next semester Revision lecture next semester Follow-on course EE2F2 Music Technology by Dr T Collins
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EE2F1 Speech & Audio Technology Sept. 26, 2002 SLIDE 3 THE UNIVERSITY OF BIRMINGHAM ELECTRONIC, ELECTRICAL & COMPUTER ENGINEERING Digital Systems & Vision Processing Demonstrations Time-domain and Frequency-domain representations of sounds –Time-domain: ‘waveform’ or ‘signal’ –Frequency domain: ‘spectrum’ –Time-frequency representation: ‘spectrogram’ Tools –Sound Forge XP 4.5 (Commercial software) –SFS (Speech Filing System) 4.28 for windows –SFS is free! http://www.phon.ac.uk/resource/sfshttp://www.phon.ac.uk/resource/sfs
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EE2F1 Speech & Audio Technology Sept. 26, 2002 SLIDE 4 THE UNIVERSITY OF BIRMINGHAM ELECTRONIC, ELECTRICAL & COMPUTER ENGINEERING Digital Systems & Vision Processing Sine wave 880Hz
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EE2F1 Speech & Audio Technology Sept. 26, 2002 SLIDE 5 THE UNIVERSITY OF BIRMINGHAM ELECTRONIC, ELECTRICAL & COMPUTER ENGINEERING Digital Systems & Vision Processing Recorder ‘A’ (880Hz)
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EE2F1 Speech & Audio Technology Sept. 26, 2002 SLIDE 6 THE UNIVERSITY OF BIRMINGHAM ELECTRONIC, ELECTRICAL & COMPUTER ENGINEERING Digital Systems & Vision Processing Piano middle C, +8ve, +2x8ve
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EE2F1 Speech & Audio Technology Sept. 26, 2002 SLIDE 7 THE UNIVERSITY OF BIRMINGHAM ELECTRONIC, ELECTRICAL & COMPUTER ENGINEERING Digital Systems & Vision Processing Saxophone
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EE2F1 Speech & Audio Technology Sept. 26, 2002 SLIDE 8 THE UNIVERSITY OF BIRMINGHAM ELECTRONIC, ELECTRICAL & COMPUTER ENGINEERING Digital Systems & Vision Processing Voice plus background ‘drone’ Kate Rusby, Annan Water from “Hourglass” Pure records 1997
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EE2F1 Speech & Audio Technology Sept. 26, 2002 SLIDE 9 THE UNIVERSITY OF BIRMINGHAM ELECTRONIC, ELECTRICAL & COMPUTER ENGINEERING Digital Systems & Vision Processing Rock Music Bruce Springsteen, Born in the USA, Columbia 1984
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EE2F1 Speech & Audio Technology Sept. 26, 2002 SLIDE 10 THE UNIVERSITY OF BIRMINGHAM ELECTRONIC, ELECTRICAL & COMPUTER ENGINEERING Digital Systems & Vision Processing Electronic music Moby, Porcelain, Mute Records 1999
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EE2F1 Speech & Audio Technology Sept. 26, 2002 SLIDE 11 THE UNIVERSITY OF BIRMINGHAM ELECTRONIC, ELECTRICAL & COMPUTER ENGINEERING Digital Systems & Vision Processing Analogue-to-Digital Conversion A/D conversion or ‘Sampling’ or ‘Digitization’ PC Sound Card Amplifier D/A converter Disk
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EE2F1 Speech & Audio Technology Sept. 26, 2002 SLIDE 12 THE UNIVERSITY OF BIRMINGHAM ELECTRONIC, ELECTRICAL & COMPUTER ENGINEERING Digital Systems & Vision Processing Pulse Code Modulation (PCM) How many quantization points? How many samples per second (sample rate)? Quantization error Sample point Quantization point
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EE2F1 Speech & Audio Technology Sept. 26, 2002 SLIDE 13 THE UNIVERSITY OF BIRMINGHAM ELECTRONIC, ELECTRICAL & COMPUTER ENGINEERING Digital Systems & Vision Processing Nyquists Theorem (Ignore quantization error for now) Suppose a signal has no frequency components above B Hz If that signal is sampled 2B times per second, then it can be faithfully reconstructed from the digital signal B is called the Nyquist frequency 2B is called the Nyquist rate Reconstructing the original signal from the digital signal is called Digital-to-Analogue (or D/A) conversion
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EE2F1 Speech & Audio Technology Sept. 26, 2002 SLIDE 14 THE UNIVERSITY OF BIRMINGHAM ELECTRONIC, ELECTRICAL & COMPUTER ENGINEERING Digital Systems & Vision Processing Aliasing Aliasing happens when a signal is sampled at a rate less than the Nyquist rate Detail is lost in the reconstruction of the signal Spurious low-frequency components appear in the reconstructed signal These are “aliases” of real components of the signal Example…
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EE2F1 Speech & Audio Technology Sept. 26, 2002 SLIDE 15 THE UNIVERSITY OF BIRMINGHAM ELECTRONIC, ELECTRICAL & COMPUTER ENGINEERING Digital Systems & Vision Processing Aliasing Nyquist rate Less than Nyquist rate Reconstructed “alias”
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EE2F1 Speech & Audio Technology Sept. 26, 2002 SLIDE 16 THE UNIVERSITY OF BIRMINGHAM ELECTRONIC, ELECTRICAL & COMPUTER ENGINEERING Digital Systems & Vision Processing Analogue-to-Digital Conversion For a given sampling rate, an “anti-aliasing” filter removes all frequency values above the Nyquist frequency PC Sound Card Amp D/A converter Disk Anti- aliasing filter
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