Evaluation of practical edge computing CNN-based solutions for intelligent recycling bins

IF 2.1 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS IET Smart Cities Pub Date : 2023-06-07 DOI:10.1049/smc2.12057

Xueying Li, Ryan Grammenos

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Abstract

Rapid economic growth has given rise to the urgent demand for more efficient waste recycling systems. An innovative smart recycling bin is proposed that automatically separates urban waste to increase the recycling rate. Over 1800 recycling waste images were collected and combined with an existing public dataset to train neural network classification models for two embedded systems, one incorporating a Jetson Nano and the other a K210 unit. The model developed reached an accuracy of 93.99% on the Jetson Nano and 94.61% on the K210. A user interface application was also designed to collect feedback from users during their interaction with the smart bin. In terms of power consumption, the system employing the Jetson Nano consumed 4.7 W, representing a 30% reduction in power consumption compared to previous work, while the K210 required just 0.89 W of power to operate. In summary, our work demonstrated a small-scale, fully functional prototype of an energy-efficient, high-accuracy smart recycling bin, with the potential of commercialisation for the purpose of improving urban waste recycling.

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基于CNN的智能回收箱实用边缘计算解决方案的评估

经济的快速增长引起了对更有效的废物回收系统的迫切需求。提出了一种创新的智能回收箱，可以自动分类城市垃圾，提高回收率。收集了超过1800张回收垃圾图像，并将其与现有的公共数据集相结合，以训练两个嵌入式系统的神经网络分类模型，一个包含Jetson Nano，另一个包含K210单元。该模型在Jetson Nano和K210上的准确率分别达到了93.99%和94.61%。还设计了一个用户界面应用程序，用于在用户与智能垃圾箱交互期间收集用户的反馈。在功耗方面，采用Jetson Nano的系统消耗4.7 W，与以前的工作相比减少了30%的功耗，而K210只需要0.89 W的功率。总之，我们的工作展示了一个小型、功能齐全的节能、高精度智能回收箱原型，具有商业化的潜力，可以改善城市废物的回收利用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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