Real-Time Object Recognition Based on Parallel Ultra-Low-Power Microcontroller: A case study on Multisensory Glove

This paper presents the implementation of machine learning algorithms on GAP9 for real-time tactile data processing. The case study is object recognition based on multisensory glove data. A shallow 1D-CNN model was employed to first process the data, then deployed in the GAP SDK simulation environme...

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Bibliographic Details
Published in:IEEE International Symposium on Circuits and Systems proceedings pp. 1 - 5
Main Authors: Testa, Riccardo, Yaacoub, Mohamad, Gianoglio, Christian, Valle, Maurizio
Format: Conference Proceeding
Language:English
Published: IEEE 25.05.2025
Subjects:
Energy consumption
latency
Machine learning
Measurement
Memory management
microcontroller
Microcontrollers
Object recognition
power consumption
Power demand
Real-time systems
Sensor systems
Sensors
Skin
wearable systems
ISSN:2158-1525
Online Access:Get full text
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Summary:This paper presents the implementation of machine learning algorithms on GAP9 for real-time tactile data processing. The case study is object recognition based on multisensory glove data. A shallow 1D-CNN model was employed to first process the data, then deployed in the GAP SDK simulation environment (GVSoC), and various metrics were extracted to evaluate the GAP9 in this task. The results showed a latency of 85.37 μs. Additionally, memory profiling showed that no clock cycles were wasted waiting for pure I/O operations, since the model was allocated 23.98kB (20.7%) of the L1 cache and 13.96kB (1.07%) of L2 without any need for buffering between caches or external memory access operations. The GAP9, using our model, has a dynamic energy consumption of 6.76 pJ per inference. The results demonstrate the effectiveness of the proposed methodology, opening up an interesting perspective for various biomedical applications.
ISSN:2158-1525
DOI:10.1109/ISCAS56072.2025.11044209