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Autores principales: Li, Zexin, He, Xiaoxi, Li, Yufei, Yang, Wei, Thiele, Lothar, Liu, Cong
Formato: Preprint
Publicado: 2023
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Acceso en línea:https://arxiv.org/abs/2307.11962
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author Li, Zexin
He, Xiaoxi
Li, Yufei
Yang, Wei
Thiele, Lothar
Liu, Cong
author_facet Li, Zexin
He, Xiaoxi
Li, Yufei
Yang, Wei
Thiele, Lothar
Liu, Cong
contents Future intelligent robots are expected to process multiple inputs simultaneously (such as image and audio data) and generate multiple outputs accordingly (such as gender and emotion), similar to humans. Recent research has shown that multi-input single-output (MISO) deep neural networks (DNN) outperform traditional single-input single-output (SISO) models, representing a significant step towards this goal. In this paper, we propose MIMONet, a novel on-device multi-input multi-output (MIMO) DNN framework that achieves high accuracy and on-device efficiency in terms of critical performance metrics such as latency, energy, and memory usage. Leveraging existing SISO model compression techniques, MIMONet develops a new deep-compression method that is specifically tailored to MIMO models. This new method explores unique yet non-trivial properties of the MIMO model, resulting in boosted accuracy and on-device efficiency. Extensive experiments on three embedded platforms commonly used in robotic systems, as well as a case study using the TurtleBot3 robot, demonstrate that MIMONet achieves higher accuracy and superior on-device efficiency compared to state-of-the-art SISO and MISO models, as well as a baseline MIMO model we constructed. Our evaluation highlights the real-world applicability of MIMONet and its potential to significantly enhance the performance of intelligent robotic systems.
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publishDate 2023
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spellingShingle MIMONet: Multi-Input Multi-Output On-Device Deep Learning
Li, Zexin
He, Xiaoxi
Li, Yufei
Yang, Wei
Thiele, Lothar
Liu, Cong
Robotics
Computer Vision and Pattern Recognition
Future intelligent robots are expected to process multiple inputs simultaneously (such as image and audio data) and generate multiple outputs accordingly (such as gender and emotion), similar to humans. Recent research has shown that multi-input single-output (MISO) deep neural networks (DNN) outperform traditional single-input single-output (SISO) models, representing a significant step towards this goal. In this paper, we propose MIMONet, a novel on-device multi-input multi-output (MIMO) DNN framework that achieves high accuracy and on-device efficiency in terms of critical performance metrics such as latency, energy, and memory usage. Leveraging existing SISO model compression techniques, MIMONet develops a new deep-compression method that is specifically tailored to MIMO models. This new method explores unique yet non-trivial properties of the MIMO model, resulting in boosted accuracy and on-device efficiency. Extensive experiments on three embedded platforms commonly used in robotic systems, as well as a case study using the TurtleBot3 robot, demonstrate that MIMONet achieves higher accuracy and superior on-device efficiency compared to state-of-the-art SISO and MISO models, as well as a baseline MIMO model we constructed. Our evaluation highlights the real-world applicability of MIMONet and its potential to significantly enhance the performance of intelligent robotic systems.
title MIMONet: Multi-Input Multi-Output On-Device Deep Learning
topic Robotics
Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2307.11962