Maxime Derome scite author profile

This paper presents a mobile object detection algorithm which performs with two consecutive stereo images. Like most motion detection methods, the proposed one is based on dense stereo matching and optical flow (OF) estimation. Noting that the main computational cost of existing methods is related to the estimation of OF, we propose to use a fast algorithm based on Lucas–Kanade paradigm. We then derive a comprehensive uncertainty model by taking into account all the estimation errors occurring during the process. In contrast with most previous works, we rigorously expand the error related to vision based ego-motion estimation. Finally, we present a comparative study of performance on the challenging KITTI dataset which demonstrates the effectiveness of the proposed approach.

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Detection, Estimation and Avoidance of Mobile Objects Using Stereo-Vision and Model Predictive Control

Roggeman¹,

Marzat

Derome³

2017

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Real-time mobile object detection using stereo

Derome

Plyer

Sanfourche

et al. 2014

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This paper considers passive vision for robotics and focuses on devising a real-time process for moving object detection using a stereo rig. As several previous works, our method relies on the use of dense stereo and of optical flow. Observing that the main computational load of existing methods is related to the estimation of the optical flow, we propose to use a fast algorithm based on Lucas-Kanade's paradigm. We derive a new uncertainty model which explicitly takes into account all errors originating from each estimation step of the process. In contrast with most previous works, we describe a rigorous expansion of the error related to vision based ego-motion estimation. Finally, we present a comparative study of performance on the KITTI dataset, which demonstrates the effectiveness of the proposed approach.

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A Prediction-Correction Approach for Real-Time Optical Flow Computation Using Stereo

Derome¹,

Plyer²,

Sanfourche³

et al. 2016

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Study on group target tracking to counter swarms of drones

Guerlin

Pannetier

Rombaut

et al. 2020

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This article focuses on Group Target Tracking (GTT) to counter swarms of drones using Random Finite Sets (RFSs) and Random Matrix (RM) approaches. Tracking swarms of drones is analog to tracking extended targets that are characterized by their continuously evolving shape and composition. Extended target tracking for groups of targets finds various applications in the literature because detecting and tracking each individual target of a group is computationally demanding and unnecessary if the group itself can be modeled. Elliptic shapes offers a suitable representation for most groups, and their inference is quite inexpensive with the random matrix approach. Indeed, they are efficient when coupled with random finite sets based filters, which represents the current state of the art for Bayesian multi-target tracking. In this work, a practical implementation of a labeled Poisson/Multi-Bernoulli filter using random matrices for group target tracking is proposed. This study compares several random matrix prediction and update algorithms with and without random finite sets based filters on several dataset.

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Maxime Derome

Moving Object Detection in Real-Time Using Stereo from a Mobile Platform

Detection, Estimation and Avoidance of Mobile Objects Using Stereo-Vision and Model Predictive Control

Real-time mobile object detection using stereo

A Prediction-Correction Approach for Real-Time Optical Flow Computation Using Stereo

Study on group target tracking to counter swarms of drones

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