Sunderland Repository records the research produced by the University of Sunderland including practice-based research and theses.
Up a level |
Mo, Ronald and Horner, Andrew (2024) The Effects of Convolution Reverberation on the Emotional Characteristics of Musical Instrument Sounds. Computer Music Journal, 47 (2). ISSN 1531-5169
Mo, Ronald K. (2023) Electric Guitar Sound Restoration with Diffusion Models. In: DMRN+18: Digital Music Research Network One-day Workshop 2023, 19 Dec 2023, Queen Mary University of London, London, UK. (Unpublished)
Mo, Ronald K. (2023) Emotion-driven Motivic Development using Diffusion Models. In: CHIME Annual One-day Music and HCI Workshop, 04 Dec 2023, The Open University, Milton Keynes, UK.
Mo, Ronald K. and Lam, Albert Y.S. (2020) Augmenting Telephony Audio Data using Robust Principal Component Analysis. In: IEEE Symposium Series on Computational Intelligence, Dec 1, 2020 - Dec 4, 2020, Canberra, ACT, Australia.
Chan, Hiu-Ting, Mo, Ronald, Keyes, Christopher and Horner, Andrew (2019) The Emotional Characteristics of Brass Musical Instruments with Different Pitch and Dynamics. In: International Computer Music Conference, Jun 16, 2019 - Jun 24, 2019, New York, USA.
Hong, Yu, Mo, Ronald K. and Horner, Andrew (2018) The Effects of Mode, Pitch, and Dynamics on Valence in Piano Scales and Chord Progressions. In: International Computer Music Conference, Aug 5, 2018 - Fri, Aug 10, 2018, Daegu, South Korea.
Mo, Ronald K., So, Richard H. Y. and Horner, Andrew (2018) Investigating How Convolution Reverberation Effects the Space of Instrument Emotional Characteristics. In: International Computer Music Conference, Aug 5, 2018 - Aug 10, 2018, Daegu, South Korea.
Chan, Hiu-Ting, Mo, Ronald, Chau, Chuck-Jee and Horner, Andrew (2018) The Emotional Characteristics of Section String Instruments with Different Pitch and Dynamics. In: International Computer Music Conference, Aug 5, 2018 - Aug 10, 2018, Daegu, South Korea.
Mo, Ronald K. and Horner, Andrew (2017) The Effects of Convolution Reverberation on the Emotional Characteristics. In: International Computer Music Conference, Oct 16, 2017 - Oct 20, 2017, Shanghai, China.
Mo, Ronald K., So, Richard H. Y. and Horner, Andrew (2017) How Does Parametric Reverberation Change the Space of Instrument Emotional Characteristics? In: International Computer Music Conference, Oct 16, 2017 - Oct 20, 2017, Shanghai, China.
Chau, Chuck-jee, Gilburt, Samuel, Mo, Ronald and Horner, Andrew (2017) The Emotional Characteristics of Bowed String Instruments with Different Pitch and Dynamics. Journal of the Audio Engineering Society, 65 (7/8). pp. 573-588. ISSN 15494950
Mo, Ronald (2017) The Effects of Audio Processing on the Perceived Emotional Characteristics of Musical Instrument Sounds. Doctoral thesis, Hong Kong University of Science and Technology.
Mo, Ronald, So, Richard and Horner, Andrew (2016) An Investigation into How Reverberation Effects the Space of Instrument Emotional Characteristics. Journal of the Audio Engineering Society, 64 (12). pp. 988-1002. ISSN 15494950
Mo, Ronald, Choi, Ga, Lee, Chung and Horner, Andrew (2016) The Effects of MP3 Compression on Perceived Emotional Characteristics in Musical Instruments. Journal of the Audio Engineering Society, 64 (11). pp. 858-867. ISSN 15494950
Chau, Chuck-Jee, Mo, Ronald and Horner, Andrew (2016) The Emotional Characteristics of Piano Sounds with Different Pitch and Dynamics. Journal of the Audio Engineering Society, 64 (11). pp. 918-932. ISSN 15494950
Mo, Ronald, Choi, Ga Lam, Lee, Chung and Horner, Andrew (2016) The Effects of MP3 Compression on Emotional Characteristics. In: International Computer Music Conference, Sep 12, 2016 - Sep 16, 2016, Utrecht, Netherlands.
Mo, Ronald, Wu, Bin and Horner, Andrew (2016) The Effects of Reverberation Time and Amount on the Emotional Characteristics. In: International Computer Music Conference, Sep 12, 2016 - Sep 16, 2016, Utrecht, Netherlands.
Mo, Ronald, Wu, Bin and Horner, Andrew (2015) The Effects of Reverberation on the Emotional Characteristics of Musical Instruments. Journal of the Audio Engineering Society, 63 (12). pp. 966-979. ISSN 15494950