A deformable musical instrument can take numerous distinct shapes with its non-rigid features. Building audio synthesis module for such an interface behaviour can be challenging. In this paper, we present the Al-terity, a non-rigid musical instrument that comprises a deep learning model with generative adversarial network architecture and use it for generating audio samples for real-time audio synthesis. The particular deep learning model we use for this instrument was trained with existing data set as input for purposes of further experimentation. The main benefits of the model used are the ability to produce the realistic range of timbre of the trained data set and the ability to generate new audio samples in real-time, in the moment of p...
Recent advancements in generative audio synthesis have allowed for the development of creative tools...
We present the Latent Timbre Synthesis, a new audio synthesis method using deep learning. The synthe...
Music generation using deep learning has recently been gaining quite a bit of traction. Deep learnin...
A deformable musical instrument can take numerous dis- tinct shapes with its non-rigid features. Bui...
In this paper we present the recent developments in the AI-terity instrument. AI-terity is a deforma...
This paper describes a new intelligent interactive instrument, based on an embedded computing platfo...
https://aimc2023.pubpub.org/pub/fkmqnlfh This paper introduces a new course on deep learning with a...
In this study, we investigate the usage of generative adversarial networks for modelling a collectio...
With an optimal network topology and tuning of hyperpa- rameters, artificial neural networks (ANNs)...
Special issue on Deep learning for music and audioInternational audienceIn addition to traditional t...
Synthetic creation of drum sounds (e.g., in drum machines) is commonly performed using analog or dig...
Generative AI has transformed music creation, blending human and machine artistry. This study presen...
An ideal music synthesizer should be both interactive and expressive, generating high-fidelity audio...
Deep Learning and Artificial Intelligence are slowly revolutionizing many fields of applications, ha...
Music generation is increasingly recognized as an attractive field of study in Deep Learning. This p...
Recent advancements in generative audio synthesis have allowed for the development of creative tools...
We present the Latent Timbre Synthesis, a new audio synthesis method using deep learning. The synthe...
Music generation using deep learning has recently been gaining quite a bit of traction. Deep learnin...
A deformable musical instrument can take numerous dis- tinct shapes with its non-rigid features. Bui...
In this paper we present the recent developments in the AI-terity instrument. AI-terity is a deforma...
This paper describes a new intelligent interactive instrument, based on an embedded computing platfo...
https://aimc2023.pubpub.org/pub/fkmqnlfh This paper introduces a new course on deep learning with a...
In this study, we investigate the usage of generative adversarial networks for modelling a collectio...
With an optimal network topology and tuning of hyperpa- rameters, artificial neural networks (ANNs)...
Special issue on Deep learning for music and audioInternational audienceIn addition to traditional t...
Synthetic creation of drum sounds (e.g., in drum machines) is commonly performed using analog or dig...
Generative AI has transformed music creation, blending human and machine artistry. This study presen...
An ideal music synthesizer should be both interactive and expressive, generating high-fidelity audio...
Deep Learning and Artificial Intelligence are slowly revolutionizing many fields of applications, ha...
Music generation is increasingly recognized as an attractive field of study in Deep Learning. This p...
Recent advancements in generative audio synthesis have allowed for the development of creative tools...
We present the Latent Timbre Synthesis, a new audio synthesis method using deep learning. The synthe...
Music generation using deep learning has recently been gaining quite a bit of traction. Deep learnin...