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FCN-Pose: A Pruned and Quantized CNN for Robot Pose Estimation for Constrained Devices

Authors :
Dantas, Marrone Silvério Melo
Rodrigues, Iago Richard
Filho, Assis Tiago Oliveira
Barbosa, Gibson
Bezerra, Daniel
Sadok, Djamel F. H.
Kelner, Judith
Marquezini, Maria
Silva, Ricardo
Publication Year :
2022
Publisher :
arXiv, 2022.

Abstract

IoT devices suffer from resource limitations, such as processor, RAM, and disc storage. These limitations become more evident when handling demanding applications, such as deep learning, well-known for their heavy computational requirements. A case in point is robot pose estimation, an application that predicts the critical points of the desired image object. One way to mitigate processing and storage problems is compressing that deep learning application. This paper proposes a new CNN for the pose estimation while applying the compression techniques of pruning and quantization to reduce his demands and improve the response time. While the pruning process reduces the total number of parameters required for inference, quantization decreases the precision of the floating-point. We run the approach using a pose estimation task for a robotic arm and compare the results in a high-end device and a constrained device. As metrics, we consider the number of Floating-point Operations Per Second(FLOPS), the total of mathematical computations, the calculation of parameters, the inference time, and the number of video frames processed per second. In addition, we undertake a qualitative evaluation where we compare the output image predicted for each pruned network with the corresponding original one. We reduce the originally proposed network to a 70% pruning rate, implying an 88.86% reduction in parameters, 94.45% reduction in FLOPS, and for the disc storage, we reduced the requirement in 70% while increasing error by a mere $1\%$. With regard input image processing, this metric increases from 11.71 FPS to 41.9 FPS for the Desktop case. When using the constrained device, image processing augmented from 2.86 FPS to 10.04 FPS. The higher processing rate of image frames achieved by the proposed approach allows a much shorter response time.

Details

Database :
OpenAIRE
Accession number :
edsair.doi.dedup.....a2d27454c422f1dddddd9aaa1cfcf57a
Full Text :
https://doi.org/10.48550/arxiv.2205.13272