基于模糊k近邻(FkNN)的建筑火源早期分类

Allan Melvin Andrew, A. Y. Shakaff, Ammar Zakaria, R. Gunasagaran, E. Kanagaraj, S. M. Saad
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引用次数: 2

摘要

评估燃烧的气味是至关重要的,因为它可以帮助进一步发现和预防早期火灾。本文提出了一种基于模糊k近邻(FkNN)的火灾早期探测算法。对7个正常火源和3个建筑结构资源进行了试验。所有测试样品在不同温度点的真空烘箱中烘烤,用真空泵推出,由电子鼻嗅闻。实验是在一个密闭的房间里进行的,并监测温度和湿度水平。对时域数据进行采样。在给分类器之前,对气味指纹进行归一化并提取特征。实验结果表明,将模糊逻辑集成到传统的kNN中,可以提高分类器的准确率,并在湿度和温度差异、基线传感器误差、不同的排放浓度范围和不同的灼热温度水平方面具有良好的一致性。该分类系统的平均分类精度为96.15%。
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Fuzzy K-Nearest Neighbour (FkNN) Based Early Stage Fire Source Classification in Building
Assessing the smell of burning is vital, as it can help to further detect and prevent early fire. In this paper, an early stage fire detection algorithm has been introduced using Fuzzy k- Nearest Neighbour (FkNN). The tests were made on normally available seven fire sources and three building structure resources. All the test samples were scorched in a vacuum oven at various temperature points, pushed out using vacuum pumps to be sniffed by the electronic nose. The experiments were done in a confined room with monitored temperature and humidity level. Time domain data were sampled. Prior to be given to the classifier, the smellprints were normalised and the features were extracted. Experimental classification results show that the integration of fuzzy logic into conventional kNN has enhanced the accuracy of the classifier and gave excellent consistency, nonetheless of humidity and temperature disparity, baseline sensor errors, the diverse emission concentration range and varied scorching temperature levels. The average classification precision for the classification system is 96.15%.
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