Crime Scene Prediction Using the Integration of K-Means Clustering and Support Vector Machine

2022 IEEE 10th Conference on Systems, Process & Control (ICSPC) Pub Date : 2022-12-17 DOI:10.1109/ICSPC55597.2022.10001768

Awangku Harraz Aiman Awangku Bolkiah, Hafizatul Hanin Hamzah, Z. Ibrahim, N. Diah, Azizian Mohd Sapawi, H. M. Hanum

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Abstract

An increasing crime rate among urban residents has become a major concern over the last decade. Prevention can be done with advanced prediction based on criminal activities and locations. A publicly available dataset from kaggle.com was used in this research, consisting of 500 records of information, such as the coordinates of the crime locations and the types of crimes. An unsupervised machine learning algorithm, K-Means Clustering, is applied to group the data based on the locations of the reported crimes. Then, Support Vector Machine, a supervised machine learning algorithm, is applied to predict the potential crime locations. Thus, law enforcement agencies can make strategic plans and deploy their units to the predicted crime scenes, decreasing the chances of crimes being committed. Even though the integration of K-Means Clustering and Support Vector Machine for crime scene prediction only shows 0.65 accuracies, improvements can still be made for future work with larger datasets and integrating other machine learning algorithms.

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基于k均值聚类和支持向量机的犯罪现场预测

在过去的十年里，城市居民犯罪率的上升已经成为一个主要问题。预防可以根据犯罪活动和地点进行预先预测。这项研究使用了kaggle.com上的一个公开数据集，包括500条信息记录，比如犯罪地点的坐标和犯罪类型。一种无监督的机器学习算法，K-Means聚类，被应用于根据报告的犯罪地点对数据进行分组。然后，采用监督式机器学习算法支持向量机(Support Vector Machine)预测潜在犯罪地点。因此，执法机构可以制定战略计划，并将他们的部队部署到预测的犯罪现场，减少犯罪发生的机会。尽管K-Means聚类和支持向量机在犯罪现场预测中的整合准确率仅为0.65，但在未来使用更大的数据集和整合其他机器学习算法的工作中，仍然可以进行改进。

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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2022 IEEE 10th Conference on Systems, Process & Control (ICSPC)

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