Joel Casimiro scite author profile

Joel Casimiro

5Publications

53Citation Statements Received

67Citation Statements Given

How they've been cited

112

How they cite others

Affiliations

University of the Philippines System, University of the Philippines Diliman

Publications

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GOO: A Dataset for Gaze Object Prediction in Retail Environments

Tomas

Reyes

Dionido

et al. 2021

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One of the most fundamental and information-laden actions humans do is to look at objects. However, a survey of current works reveals that existing gaze-related datasets annotate only the pixel being looked at, and not the boundaries of a specific object of interest. This lack of object annotation presents an opportunity for further advancing gaze estimation research. To this end, we present a challenging new task called gaze object prediction, where the goal is to predict a bounding box for a person's gazed-at object. To train and evaluate gaze networks on this task, we present the Gaze On Objects (GOO) dataset. GOO is composed of a large set of synthetic images (GOO-Synth) supplemented by a smaller subset of real images (GOO-Real) of people looking at objects in a retail environment. Our work establishes extensive baselines on GOO by re-implementing and evaluating selected state-of-the-art models on the task of gaze following and domain adaptation. Code is available 1 on github.

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Interaction techniques using head gaze for virtual reality

Atienza

Blonna

Saludares

et al. 2016

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Next-Best View Policy for 3D Reconstruction

Peralta

Casimiro

Nilles

et al. 2020

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Next-Best View Policy for 3D Reconstruction

Peralta¹,

Casimiro²,

Nilles³

et al. 2020

Preprint

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Manually selecting viewpoints or using commonly available flight planners like circular path for large-scale 3D reconstruction using drones often results in incomplete 3D models. Recent works have relied on hand-engineered heuristics such as information gain to select the Next-Best Views. In this work, we present a learning-based algorithm called Scan-RL to learn a Next-Best View (NBV) Policy. To train and evaluate the agent, we created Houses3K, a dataset of 3D house models. Our experiments show that using Scan-RL, the agent can scan houses with fewer number of steps and a shorter distance compared to our baseline circular path. Experimental results also demonstrate that a single NBV policy can be used to scan multiple houses including those that were not seen during training. The link to Scan-RL's code is available at https://github.com/darylperalta/ScanRL and Houses3K dataset can be found at https://github.com/darylperalta/Houses3K.

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Aneeme

Tan

Atienza

Saludares

et al. 2017

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Joel Casimiro

GOO: A Dataset for Gaze Object Prediction in Retail Environments

Interaction techniques using head gaze for virtual reality

Next-Best View Policy for 3D Reconstruction

Next-Best View Policy for 3D Reconstruction

Aneeme

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