Difference between revisions of "Object Movement Prediction for Autonomous Cars"

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|Summary=Predicting the movement of objects in the context of autonomous cars
 
|Summary=Predicting the movement of objects in the context of autonomous cars
 
|References=https://motchallenge.net
 
|References=https://motchallenge.net
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https://github.com/abhineet123/Deep-Learning-for-Tracking-and-Detection
 
https://github.com/abhineet123/Deep-Learning-for-Tracking-and-Detection
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https://arxiv.org/pdf/1909.07707.pdf
 
https://arxiv.org/pdf/1909.07707.pdf
 
|Supervisor=Tiago Cortinhal
 
|Supervisor=Tiago Cortinhal

Latest revision as of 15:59, 3 October 2019

Title Object Movement Prediction for Autonomous Cars
Summary Predicting the movement of objects in the context of autonomous cars
Keywords
TimeFrame
References https://motchallenge.net

https://github.com/abhineet123/Deep-Learning-for-Tracking-and-Detection

https://arxiv.org/pdf/1909.07707.pdf

Prerequisites
Author
Supervisor Tiago Cortinhal
Level Master
Status Open


Nowadays, we have several powerful architectures, e.g. YOLO, that allows us to find bounding boxes on the fly.


Single-object tracking focus on the processing of sequences of RGB images to be able to identify and track a given object, which can be costly in terms of memory/computation. The main idea being this project is to use the bounding boxes itself and try to predict its movement based on the n-previous frames. By using this higher-level abstraction of the scene itself we might reduce the complexity and training time required for traditional Single-Object tracking.

To start, we can use Kitti dataset to create such a prediction system and exploit other possible datasets/possible settings as soon as we have a working prototype.