Nesrine Harbaoui scite author profile

Nesrine Harbaoui

3Publications

12Citation Statements Received

119Citation Statements Given

How they've been cited

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119

Affiliations

University of Lille, Aix-Marseille University, Institute of Molecular Sciences

Publications

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Oscillations make a self-scaled model for honeybees’ visual odometer reliable regardless of flight trajectory

Bergantin

Harbaoui

Raharijaona

et al. 2021

J. R. Soc. Interface.

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Honeybees foraging and recruiting nest-mates by performing the waggle dance need to be able to gauge the flight distance to the food source regardless of the wind and terrain conditions. Previous authors have hypothesized that the foragers’ visual odometer mathematically integrates the angular velocity of the ground image sweeping backward across their ventral viewfield, known as translational optic flow. The question arises as to how mathematical integration of optic flow (usually expressed in radians/s) can reliably encode distances, regardless of the height and speed of flight. The vertical self-oscillatory movements observed in honeybees trigger expansions and contractions of the optic flow vector field, yielding an additional visual cue called optic flow divergence. We have developed a self-scaled model for the visual odometer in which the translational optic flow is scaled by the visually estimated current clearance from the ground. In simulation, this model, which we have called SOFIa, was found to be reliable in a large range of flight trajectories, terrains and wind conditions. It reduced the statistical dispersion of the estimated flight distances approximately 10-fold in comparison with the mathematically integrated raw optic flow model. The SOFIa model can be directly implemented in robotic applications based on minimalistic visual equipment.

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Navigation Context Adaptive Fault Detection and Exclusion Strategy based On Deep Learning & Information Theory: Application to a GNSS/IMU Integration

Harbaoui¹,

Tmazirte²,

Makkawi³

et al. 2021

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His research interests include multi-sensor fault tolerant fusion for localization and integrity assessment. Khoder Makkawi Lecturer at Polytech Lille and Researcher at CRIStAL laboratory. Received the Ph.D. degree in 2020, in collaboration between Lille University and Lebanese University. He is a member of the TOSyMA (Tolérance aux fautes des Systèmes Mobiles Autonomes) team of the CRIStAL laboratory UMR CNRS 9189.

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Environment Adaptive Diagnostic Framework For Safe Localization of Autonomous Vehicles

Harbaoui

Tmazirte

Najjar

2022

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