A LiDAR-less approach to autonomous hazard detection and avoidance systems based on semantic segmentation

Peñarroya, Pelayo; Centuori, Simone; Sanjurjo, M.; Hermosín, Pablo

doi:10.1007/s10569-023-10140-9

Celest Mech Dyn Astron

2023

DOI: 10.1007/s10569-023-10140-9

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A LiDAR-less approach to autonomous hazard detection and avoidance systems based on semantic segmentation

Pelayo Peñarroya

Simone Centuori²,

M. Sanjurjo

et al.

Abstract: In this paper, a passive hazard detection and avoidance (HDA) system is presented, relying only on images as observations. To process these images, convolutional neural networks (CNNs) are used to perform semantic segmentation and identify hazards corresponding to three different layers, namely feature detection, shadow detection, and slope estimation. The absence of active sensors such as light detection and ranging (LiDAR) makes it challenging to assess the surface geometry of a celestial body, and the train… Show more

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2024

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Cited by 1 publication

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A Fully Autonomous On-Board GNC Methodology for Small-Body Environments Based on CNN Image Processing and MPCs

Peñarroya,

Escalante,

Frekhaug

et al. 2024

Aerospace

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The increasing need for autonomy in space exploration missions is becoming more and more relevant in the design of missions to small bodies. The long communication latencies and sensitivity of the system to unplanned environmental perturbations mean autonomous methods could be a key design block for this type of mission. In this work, a fully autonomous Guidance, Navigation, and Control (GNC) methodology is introduced. This methodology relies on published CNN-based techniques for surface recognition and pose estimation and also on existing MPC-based techniques for the design of a trajectory to perform a soft landing on an asteroid. Combining Hazard Detection and Avoidance (HDA) with relative navigation systems, a Global Safety Map (GSM) is built on the fly as images are acquired. These GSMs provide the GNC system with information about feasible landing spots and populate a longitude–latitude map with safe/hazardous labels that are later processed to find an optimal landing spot based on mission requirements and a distance-fromhazard metric. The methodology is exemplified using Bennu as the body of interest, and a GSM is built for an arbitrary reconnaissance orbit.

show abstract

A Fully Autonomous On-Board GNC Methodology for Small-Body Environments Based on CNN Image Processing and MPCs

Peñarroya,

Escalante,

Frekhaug

et al. 2024

Aerospace

View full text Add to dashboard Cite

show abstract

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A LiDAR-less approach to autonomous hazard detection and avoidance systems based on semantic segmentation

Cited by 1 publication

References 31 publications

A Fully Autonomous On-Board GNC Methodology for Small-Body Environments Based on CNN Image Processing and MPCs

A Fully Autonomous On-Board GNC Methodology for Small-Body Environments Based on CNN Image Processing and MPCs

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