GAP9Shield: A 150GOPS AI-capable Ultra-low Power Module for Vision and Ranging Applications on Nano-drones
Müller, Hanna, Kartsch, Victor, Benini, Luca
–arXiv.org Artificial Intelligence
The evolution of AI and digital signal processing technologies, combined with affordable energy-efficient processors, has propelled the development of both hardware and software for drone applications. Nano-drones, which fit into the palm of the hand, are suitable for indoor environments and safe for human interaction; however, they often fail to deliver the required performance for complex tasks due to the lack of hardware providing sufficient sensing and computing performance. Addressing this gap, we present the GAP9Shield, a nano-drone-compatible module powered by the GAP9, a 150GOPS-capable SoC. The system also includes a 5MP OV5647 camera for high-definition imaging, a WiFi-BLE NINA module, and a 5D VL53L1-based ranging subsystem, which enhances obstacle avoidance capabilities. In comparison with similarly targeted state-of-the-art systems, GAP9Shield provides a 20% higher sample rate (RGB images) while offering a 20% weight reduction. In this paper, we also highlight the energy efficiency and processing power capabilities of GAP9 for object detection (YOLO), localization, and mapping, which can run within a power envelope of below 100 mW and at low latency (as 17 ms for object detection), highlighting the transformative potential of GAP9 for the new generation of nano-drone applications.
arXiv.org Artificial Intelligence
Jun-27-2024
- Country:
- Europe
- Switzerland > Zürich
- Zürich (0.15)
- Italy > Emilia-Romagna
- Metropolitan City of Bologna > Bologna (0.05)
- Switzerland > Zürich
- Europe
- Genre:
- Research Report (0.40)
- Industry:
- Energy (0.49)
- Information Technology (0.48)
- Technology:
- Information Technology > Artificial Intelligence > Robots (1.00)