Lalan Kumar scite author profile

Airwriting recognition is the problem of identifying letters written in free space with finger movement. It is essentially a specialized case of gesture recognition, wherein the vocabulary of gestures corresponds to letters as in a particular language. With the wide adoption of smart wearables in the general population, airwriting recognition using motion sensors from a smart band can be used as a medium of user input for applications in human-computer interaction. There has been limited work in the recognition of in-air trajectories using motion sensors, and the performance of the techniques in the case when the device used to record signals is changed has not been explored hitherto. Motivated by these, a new paradigm for device and user-independent airwriting recognition based on supervised contrastive learning is proposed. A two-stage classification strategy is employed, the first of which involves training an encoder network with supervised contrastive loss. In the subsequent stage, a classification head is trained with the encoder weights kept frozen. The efficacy of the proposed method is demonstrated through experiments on a publicly available dataset and also with a dataset recorded in our lab using a different device. Experiments have been performed in both supervised and unsupervised settings and compared against several state-of-the-art domain adaptation techniques. Data and the code for our implementation will be made available at https://github.com/ayushayt/SCLAiR.

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Prediction of Selective Extraction of Cresols from Aqueous Solutions by Ionic Liquids Using Theoretical Approach

Kumar

Banerjee

Mohanty

2011

Separation Science and Technology

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Lalan Kumar

Near-Field Acoustic Source Localization and Beamforming in Spherical Harmonics Domain

Open and closed anatomical surface description via hemispherical area-preserving map

Stochastic Cramér-Rao Bound Analysis for DOA Estimation in Spherical Harmonics Domain

SCLAiR: Supervised Contrastive Learning for User and Device Independent Airwriting Recognition

Prediction of Selective Extraction of Cresols from Aqueous Solutions by Ionic Liquids Using Theoretical Approach

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