Ahalya Ravendran scite author profile

Ahalya Ravendran

4Publications

3Citation Statements Received

42Citation Statements Given

How they've been cited

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Affiliations

Australian Centre for Robotic Vision, Thammasat University, Sri Lanka Institute of Information Technology

Publications

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Burst Imaging for Light-Constrained Structure-From-Motion

Ravendran

Bryson

Dansereau

2022

IEEE Robot. Autom. Lett.

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Drones have revolutionized the fields of aerial imaging, mapping, and disaster recovery. However, the deployment of drones in low-light conditions is constrained by the image quality produced by their on-board cameras. In this paper, we present a learning architecture for improving 3D reconstructions in low-light conditions by finding features in a burst. Our approach enhances visual reconstruction by detecting and describing high quality true features and less spurious features in low signal-to-noise ratio images. We demonstrate that our method is capable of handling challenging scenes in millilux illumination, making it a significant step towards drones operating at night and in extremely low-light applications such as underground mining and search and rescue operations.

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Design and Development of a Low Cost Rescue Robot With Environmental Adaptability

Ravendran

Ponpai

Yodvanich

et al. 2019

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Moment invariant features for automatic identification of critical malaria parasites

Ravendran

Silva

Senanayake

2015

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Unsupervised Learning of Depth Estimation and Visual Odometry for Sparse Light Field Cameras

Digumarti¹,

Daniel²,

Ravendran³

et al. 2021

Preprint

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While an exciting diversity of new imaging devices is emerging that could dramatically improve robotic perception, the challenges of calibrating and interpreting these cameras have limited their uptake in the robotics community. In this work we generalise techniques from unsupervised learning to allow a robot to autonomously interpret new kinds of cameras. We consider emerging sparse light field (LF) cameras, which capture a subset of the 4D LF function describing the set of light rays passing through a plane. We introduce a generalised encoding of sparse LFs that allows unsupervised learning of odometry and depth. We demonstrate the proposed approach outperforming monocular and conventional techniques for dealing with 4D imagery, yielding more accurate odometry and depth maps and delivering these with metric scale. We anticipate our technique to generalise to a broad class of LF and sparse LF cameras, and to enable unsupervised recalibration for coping with shifts in camera behaviour over the lifetime of a robot. This work represents a first step toward streamlining the integration of new kinds of imaging devices in robotics applications.

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