Ananth Ganesh


2023

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Findings of the Second Shared Task on Offensive Span Identification from Code-Mixed Tamil-English Comments
Manikandan Ravikiran | Ananth Ganesh | Anand Kumar M | R Rajalakshmi | Bharathi Raja Chakravarthi
Proceedings of the Third Workshop on Speech and Language Technologies for Dravidian Languages

Maintaining effective control over offensive content is essential on social media platforms to foster constructive online discussions. Yet, when it comes to code-mixed Dravidian languages, the current prevalence of offensive content moderation is restricted to categorizing entire comments, failing to identify specific portions that contribute to the offensiveness. Such limitation is primarily due to the lack of annotated data and open source systems for offensive spans. To alleviate this issue, in this shared task, we offer a collection of Tamil-English code-mixed social comments that include offensive comments. This paper provides an overview of the released dataset, the algorithms employed, and the outcomes achieved by the systems submitted for this task.

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Revisiting Automatic Speech Recognition for Tamil and Hindi Connected Number Recognition
Rahul Mishra | Senthil Raja Gunaseela Boopathy | Manikandan Ravikiran | Shreyas Kulkarni | Mayurakshi Mukherjee | Ananth Ganesh | Kingshuk Banerjee
Proceedings of the Third Workshop on Speech and Language Technologies for Dravidian Languages

Automatic Speech Recognition and its applications are rising in popularity across applications with reasonable inference results. Recent state-of-the-art approaches, often employ significantly large-scale models to show high accuracy for ASR as a whole but often do not consider detailed analysis of performance across low-resource languages applications. In this preliminary work, we propose to revisit ASR in the context of Connected Number Recognition (CNR). More specifically, we (i) present a new dataset HCNR collected to understand various errors of ASR models for CNR, (ii) establish preliminary benchmark and baseline model for CNR, (iii) explore error mitigation strategies and their after-effects on CNR. In the due process, we also compare with end-to-end large scale ASR models for reference, to show its effectiveness.