Embedded Color Segregation using Arduino

2022 Sixth International Conference on I-SMAC (IoT in Social, Mobile, Analytics and Cloud) (I-SMAC) Pub Date : 2022-11-10 DOI:10.1109/I-SMAC55078.2022.9987424

Sai Likhith Panuganti, Naseer Hussain Gajula, Prasanthi Rathnala, M.S. Pradeep Kumar Patnaik, Srinivasa Rao Sura

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引用次数: 1

Abstract

This research study proposes an embedded color segregation system using the multi-rate sensor data and color identification. There are plenty of applications for color segregation. The most prominent uses are for waste management and fruit and veg packing. In waste management, clutter is identified based on its size, shape and color. Sensor enabled color segregation helps to segregate the unwanted items with ease of use. Another application is segregating the available fruit and veg from the agricultural produce. One of best approaches to achieve this is based on its color, which is the most economical and fast method. The idea of this color segregation is to extend the work further to develop an autonomous waste management system. The proposed prototype segregates color category based on sensor measurements collected from RGB sensor, TCS34725. Segregating color is very simple to human eyes, but there are a lot of background tasks for a sensor to detect the actual given color. TCS34725 detects the color and makes human life easier by providing the exact RGB values, which cannot be identified by the naked eye. A test methodology has been followed to validate the proposed segregation approach. To perform this, a real time prototype has been developed and measured around 10k samples under different conditions. Results indicate that the proposed approach has achieved significant benefits, i.e., accuracy is above 95%, response time less than 3ms.

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嵌入式颜色隔离使用Arduino

本研究提出了一种基于多速率传感器数据和颜色识别的嵌入式颜色分离系统。种族隔离有很多应用。最突出的用途是废物管理和水果和蔬菜包装。在废物管理中，杂物是根据其大小、形状和颜色来识别的。传感器启用颜色隔离有助于隔离不需要的项目与易用性。另一个应用是从农产品中分离出可用的水果和蔬菜。实现这一目标的最佳方法之一是根据其颜色，这是最经济和快速的方法。这种颜色隔离的想法是进一步扩展工作，以开发一个自主的废物管理系统。该原型基于RGB传感器TCS34725采集的传感器测量值来划分颜色类别。对人眼来说，分离颜色是非常简单的，但对于传感器来说，要检测到实际给定的颜色有很多背景任务。TCS34725检测颜色，通过提供肉眼无法识别的精确RGB值，使人类的生活更轻松。遵循了一种测试方法来验证所建议的分离方法。为此，开发了一个实时原型，并在不同条件下测量了大约10k个样本。结果表明，该方法取得了显著的效果，即准确率在95%以上，响应时间小于3ms。

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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来源期刊

2022 Sixth International Conference on I-SMAC (IoT in Social, Mobile, Analytics and Cloud) (I-SMAC)

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