Model-based synthesis of singing

Sammanfattning: The legacy KTH Music and Singing Synthesis Equipment (MUSSE) system, developed decades ago, is no longer compatible with contemporary computer systems. Nonetheless, the fundamental synthesis model at its core, known as the source-filter model, continues to be a valuable technology in the research field of voice synthesis. In this thesis, the author re-implemented the legacy system with the traditional source-filter model and the modern platform SuperCollider. This re-implementation led to great enhancements in functionality, flexibility and performance. The most noteworthy improvement introduced in the new system is the addition of notch filters, which is able to simulate anti-resonances in the human vocal tract, thereby allowing a broader range of vocal nuances to be reproduced. To demonstrate the significance of notches in vowel synthesis, a subjective auditory experiment was conducted. The results of this experiment clearly show that vowels synthesized with notches sound much more natural and closer to real human voice. The work presented in this thesis, the new MUSSE program with notch filters, will serve as a foundation to support general acoustics research at TMH in the future.