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ELECTRONIC DESIGN AUTOMATION - EDA

Deep Learning on Ultra-low-power Autonomous Flying Nano-drones

estero Tesi all'estero


Parole chiave APPRENDIMENTO PROFONDO, BASSO CONSUMO, DRONI, EFFICIENZA ENERGETICA, INTELLIGENZA ARTIFICIALE, MICROCONTROLLORI, RETI NEURALI CONVOLUZIONALI, RETI NEURALI PROFONDE, ROBOTICA, SISTEMI EMBEDDED, UAV

Riferimenti DANIELE JAHIER PAGLIARI

Riferimenti esterni Daniele Palossi (SUPSI-USI, Università della Svizzera Italiana)
Alessio Burrello (Politecnico di Torino)

Gruppi di ricerca DAUIN - GR-06 - ELECTRONIC DESIGN AUTOMATION - EDA, ELECTRONIC DESIGN AUTOMATION - EDA, GR-06 - ELECTRONIC DESIGN AUTOMATION - EDA

Tipo tesi SPERIMENTALE, SVILUPPO SW

Descrizione Nano-sized unmanned aerial vehicles (UAVs) are ultra-low-power devices, often organized in swarms, that require on-board "intelligence" to carry out various recognition and control tasks based on data from optical cameras. The state-of-the-art algorithms for such type of task are deep neural networks. However, those models are typically very computationally intensive and memory-hungry, which prevents their deployment on nano-drones, for which the energy-efficiency of the processing is the number one requirement.

To tackle this gap, the thesis candidate will explore different optimization techniques for deep learning models, oriented at balancing the trade-off between accuracy and efficiency, i.e., at obtaining a highly accurate model while minimizing the number of operations and bytes of memory required for its execution on the drone's hardware. The explored techniques will include: Efficient Neural Architecture Search (NAS), Quantization and Mixed-Precision Search (MiPS), and run-time adaptive/dynamic inference. The efficacy of these techniques will be then evaluated on a real working system (in a lab in Lugano), targeting tasks such as drone-to-human and drone-to-drone pose estimation. The target hardware platform will be the ultra-low-power multi-core IoT end-node GAP8.

The thesis can be carried out fully from Torino (leaving in-field tests to our external collaborators), or partly in Lugano (allowing the candidate to run in-field tests and directly touch the results of the work).

Interested candidates must send an email to daniele.jahier@polito.it attaching their CV and exams' transcript with scores.

Conoscenze richieste Required skills include C and Python programming. Further, a basic knowledge of computer architectures and embedded systems is necessary. Required skills also include some familiarity with basic machine/deep learning concepts and corresponding models.

Note Thesis in collaboration with Dalle Molle Institute for Artificial Intelligence (IDSIA) SUPSI-USI, Lugano, Switzerland. The thesis can be carried out fully from Torino (leaving in-field tests to our external collaborators), or partly in Lugano (allowing the candidate to run in-field tests and directly touch the results of the work).


Scadenza validita proposta 25/12/2022      PROPONI LA TUA CANDIDATURA




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