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An Investigation of Morphvox Pro Voice Changer Camilla Barlow: BA Linguistics
www.manchester.ac.uk/q-step@UoMQStep
The project I undertook with MBFVS (Martin Barry Forensic Voice Services) involved a systematic investigation of the Morphvox Pro voice changer software, firstly to determine the effects that the different features of the software had on
the voice, and then to see if it was possible to detect the use of the software in an output sound file
Objectives Results
Aim : to determine what effect the three main controls in Morhphvox; Pitch Shift, Timbre Shift and Timbre strength, have on the voice. Hypothesis: Pitch shift will alter pitch, timbre shift (being described in the user instructions as altering the size of the vocal tract) will change the formant values and timbre strength will further alter formant values.Method: Systematically ‘morphing’ a set of 7 vowels pre-recorded by a male speaker using different settings and then talking pitch and formant measurements to determine the effect on the voice.
Aim: to see if speech modified by Morphvox voice
changer can be identified as such not just assumed to
be speech of a different individual to that of the original
speech sample.
Method: stop bursts, creaky voicing segments and
vowel formants were all examined or measured for
irregularities when compared to natural speech using
samples from four speakers, two male and two female.
The female samples were modified to sound like male
speech and the make samples to sound like female
using settings identified from the initial investigation.
Pitch Shift: vowel set was modified using -1, -0.5, +0.5
and +1 Pitch shift values and
measurements for fundamental frequency,
f1, f2 and f3 taken for each vowel. The vowel formants
remained unchanged throughout whilst the pitch was
increased in the +0.5 and +1 recordings and decreased
in the -0.5 and -1. A pitch shift of -1 resulted in a pitch
decrease of 1 octave and the opposite resulted with the
+1 setting, with -/+0.5 giving an increase or decrease of
half an octave.
Timbre Shift: The same procedure was
repeated for the timbre shift control. After no clear
pattern emerging using the original male vowels, a
synthetic vowel was created with f0 100 and formants
at 500, 1500, 2500 and 3500. It was then clear that
that the timbre shift setting -1 halved the formant
frequencies and the +1 doubled them as shown in
Table 1.0
Timbre Strength: The synthetic vowel was used again
at timbre strength settings 0, 33, 66 and
100 keeping timbre shift at 100. It transpired that this
setting took the original recording and mixed it with the
recording after morphing by timbre shift, both sets of
formants being visible, the degree of which was deter-
mined by the value of timbre strength. An example of
this is shown in Table 2.0, with timbre strength at 33,
red arrows showing original formants and green
morphed ones.
Vowels
Main InvestigationStop Bursts: When converting a female voice to a male
sounding one, the stop bursts were either significantly
reduced and distorted, or completely lost whilst in the
cases where a male voice was changed to sound more
like a female voice the stops were always duplicated.
Both these effects are consequences of the PSOLA
technique used by the software and, as they do not
occur in natural speech, are a clear sign that this kind of
program has been used. An example of a stop burst
being duplicated in the voiceless bilabial plosive [p]
where a male voice has been converted to a female can
be seen below with the original on the left.
Results
Creaky Voicing: Whilst on first glance the wave form
produced by the software appeared to be normal
creaky voicing, the effect seen in the stop bursts per-
sisted where some segments were duplicated, creating
too regular a wave form to be natural creaky voicing.
Two of the original male and female recordings were compared with the other ones morphed counterpart to see if the
software could reliably produce a male voice from that of a female and vice versa. When comparing the f1 values of the
original female recording with the morphed male for the most accurately measured vowels (a, , , i) the two way inde-
pendent ANOVA demonstrated that the main effect of gender was significant F(1,64) = 52.08,p < .001 partial η2 = .449.
The independent variable of vowel was also significant, F(3,64) = 147.3, p < .001 partial η2 = .873. Therefore, in the case of
the four vowels examined, the f1 value of the original male voice was reliably morphed to be indistinguishable from that of a
typical female. Although this was not true of all the vowels this was suspected to be a measurement error and not an error
of the software.
Table 2.0
Table 1.0
Conclusion
Whilst Morphvox pro voice changer software can reliably change the gender of a voice in terms of the vowel formants and pitch, the use of the software is detectable due to irregularities that appear in the waveform that would not occur in natural speech.