Maneekwan Toyungyernsub scite author profile

Maneekwan Toyungyernsub

3Publications

23Citation Statements Received

127Citation Statements Given

How they've been cited

How they cite others

126

Affiliations

Intelligent Systems Research (United States), Stanford University

Publications

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Double-Prong ConvLSTM for Spatiotemporal Occupancy Prediction in Dynamic Environments

Toyungyernsub

Itkina

Senanayake

et al. 2021

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Predicting the future occupancy state of an environment is important to enable informed decisions for autonomous vehicles. Common challenges in occupancy prediction include vanishing dynamic objects and blurred predictions, especially for long prediction horizons. In this work, we propose a double-prong neural network architecture to predict the spatiotemporal evolution of the environment occupancy state. One prong is dedicated to predicting how the static environment will be observed by the moving ego vehicle. The other prong predicts how the dynamic objects in the environment will move. Experiments conducted on the real-world Waymo Open Dataset indicate that the fused output of the two prongs is capable of retaining dynamic objects and reducing blurriness in the predictions for longer time horizons than baseline models.

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Dynamics-Aware Spatiotemporal Occupancy Prediction in Urban Environments

Toyungyernsub

Yel

et al. 2022

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For autonomous vehicles to proactively plan safe trajectories and make informed decisions, they must be able to predict the future occupancy states of the local environment. However, common issues with occupancy prediction include predictions where moving objects vanish or become blurred, particularly at longer time horizons. We propose an environment prediction framework that incorporates environment semantics for future occupancy prediction. Our method first semantically segments the environment and uses this information along with the occupancy information to predict the spatiotemporal evolution of the environment. We validate our approach on the real-world Waymo Open Dataset. Compared to baseline methods, our model has higher prediction accuracy and is capable of maintaining moving object appearances in the predictions for longer prediction time horizons.

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Directional Primitives for Uncertainty-Aware Motion Estimation in Urban Environments

Senanayake

Toyungyernsub

Wang

et al. 2020

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