Your search keyword '"Eloff, Kevin"' showing total 7 results

1. TransFusion: Transcribing Speech with Multinomial Diffusion

Author

Baas, Matthew, Eloff, Kevin, and Kamper, Herman

Subjects

Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Artificial Intelligence, Computer Science - Sound

Abstract

Diffusion models have shown exceptional scaling properties in the image synthesis domain, and initial attempts have shown similar benefits for applying diffusion to unconditional text synthesis. Denoising diffusion models attempt to iteratively refine a sampled noise signal until it resembles a coherent signal (such as an image or written sentence). In this work we aim to see whether the benefits of diffusion models can also be realized for speech recognition. To this end, we propose a new way to perform speech recognition using a diffusion model conditioned on pretrained speech features. Specifically, we propose TransFusion: a transcribing diffusion model which iteratively denoises a random character sequence into coherent text corresponding to the transcript of a conditioning utterance. We demonstrate comparable performance to existing high-performing contrastive models on the LibriSpeech speech recognition benchmark. To the best of our knowledge, we are the first to apply denoising diffusion to speech recognition. We also propose new techniques for effectively sampling and decoding multinomial diffusion models. These are required because traditional methods of sampling from acoustic models are not possible with our new discrete diffusion approach. Code and trained models are available: https://github.com/RF5/transfusion-asr, Comment: 12 pages, 4 figures, 1 table. Accepted at SACAIR 2022

Published

2022

2. Towards Learning to Speak and Hear Through Multi-Agent Communication over a Continuous Acoustic Channel

Author

Eloff, Kevin, Räsänen, Okko, Engelbrecht, Herman A., Pretorius, Arnu, and Kamper, Herman

Subjects

Computer Science - Computation and Language, Computer Science - Machine Learning

Abstract

Multi-agent reinforcement learning has been used as an effective means to study emergent communication between agents, yet little focus has been given to continuous acoustic communication. This would be more akin to human language acquisition; human infants acquire language in large part through continuous signalling with their caregivers. We therefore ask: Are we able to observe emergent language between agents with a continuous communication channel? Our goal is to provide a platform to begin bridging the gap between human and agent communication, allowing us to analyse continuous signals, how they emerge, their characteristics, and how they relate to human language acquisition. We propose a messaging environment where a Speaker agent needs to convey a set of attributes to a Listener over a noisy acoustic channel. Using DQN to train our agents, we show that: (1) unlike the discrete case, the acoustic Speaker learns redundancy to improve Listener coherency, (2) the acoustic Speaker develops more compositional communication protocols which implicitly compensates for transmission errors over a noisy channel, and (3) DQN has significant performance gains and increased compositionality when compared to previous methods optimised using REINFORCE., Comment: 10 pages, 3 figures, 6 tables

Published

2021

3. Toward Collaborative Reinforcement Learning Agents that Communicate Through Text-Based Natural Language

Author

Eloff, Kevin and Engelbrecht, Herman A.

Subjects

Computer Science - Machine Learning, Computer Science - Computation and Language

Abstract

Communication between agents in collaborative multi-agent settings is in general implicit or a direct data stream. This paper considers text-based natural language as a novel form of communication between multiple agents trained with reinforcement learning. This could be considered first steps toward a truly autonomous communication without the need to define a limited set of instructions, and natural collaboration between humans and robots. Inspired by the game of Blind Leads, we propose an environment where one agent uses natural language instructions to guide another through a maze. We test the ability of reinforcement learning agents to effectively communicate through discrete word-level symbols and show that the agents are able to sufficiently communicate through natural language with a limited vocabulary. Although the communication is not always perfect English, the agents are still able to navigate the maze. We achieve a BLEU score of 0.85, which is an improvement of 0.61 over randomly generated sequences while maintaining a 100% maze completion rate. This is a 3.5 times the performance of the random baseline using our reference set., Comment: 5 pages, 6 figures, 3 tables; published in 2021 Southern African Universities Power Engineering Conference/Robotics and Mechatronics/Pattern Recognition Association of South Africa (SAUPEC/RobMech/PRASA), 2021, pp. 1-6, (c) 2021 IEEE

Published

2021

4. TransFusion: Transcribing Speech with Multinomial Diffusion

Author

Baas, Matthew, primary, Eloff, Kevin, additional, and Kamper, Herman, additional

Published

2022

5. De novo peptide sequencing with InstaNovo: Accurate, database-free peptide identification for large scale proteomics experiments

Author

Eloff, Kevin, primary, Kalogeropoulos, Konstantinos, additional, Morell, Oliver, additional, Mabona, Amandla, additional, Berg Jespersen, Jakob, additional, Williams, Wesley, additional, van Beljouw, Sam, additional, Skwark, Marcin, additional, Hougaard Laustsen, Andreas, additional, Brouns, Stan J. J., additional, Ljungars, Anne, additional, Schoof, Erwin Marten, additional, Van Goey, Jeroen, additional, auf dem Keller, Ulrich, additional, Beguir, Karim, additional, Lopez Carranza, Nicolas, additional, and Jenkins, Timothy Patrick, additional

Published

2023

6. Mava: a research framework for distributed multi-agent reinforcement learning

Author

Pretorius, Arnu, Tessera, Kale-ab, Smit, Andries P., Formanek, Claude, Grimbly, St John, Eloff, Kevin, Danisa, Siphelele, Francis, Lawrence, Shock, Jonathan, Kamper, Herman, Brink, Willie, Engelbrecht, Herman, Laterre, Alexandre, and Beguir, Karim

Subjects

FOS: Computer and information sciences, Computer Science - Machine Learning, Computer Science - Multiagent Systems, Machine Learning (cs.LG), Multiagent Systems (cs.MA)

Abstract

Breakthrough advances in reinforcement learning (RL) research have led to a surge in the development and application of RL. To support the field and its rapid growth, several frameworks have emerged that aim to help the community more easily build effective and scalable agents. However, very few of these frameworks exclusively support multi-agent RL (MARL), an increasingly active field in itself, concerned with decentralised decision-making problems. In this work, we attempt to fill this gap by presenting Mava: a research framework specifically designed for building scalable MARL systems. Mava provides useful components, abstractions, utilities and tools for MARL and allows for simple scaling for multi-process system training and execution, while providing a high level of flexibility and composability. Mava is built on top of DeepMind's Acme \citep{hoffman2020acme}, and therefore integrates with, and greatly benefits from, a wide range of already existing single-agent RL components made available in Acme. Several MARL baseline systems have already been implemented in Mava. These implementations serve as examples showcasing Mava's reusable features, such as interchangeable system architectures, communication and mixing modules. Furthermore, these implementations allow existing MARL algorithms to be easily reproduced and extended. We provide experimental results for these implementations on a wide range of multi-agent environments and highlight the benefits of distributed system training., Comment: 12 pages, 6 figures

Published

2021

7. Toward Collaborative Reinforcement Learning Agents that Communicate Through Text-Based Natural Language

Author

Eloff, Kevin M., primary and Engelbrecht, Herman A., additional

Published

2021