东爪哇招生系统异常预测的图算法

Dwi Sunaryono, Annas Nuril Iman, D. Purwitasari, A. B. Raharjo
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引用次数: 0

摘要

在区域政策之前,学生或家长倾向于选择一所公认的教育质量高的学校,尽管距离远。新学生招生(Penerimaan Peserta Didik Baru,简称PPDB)是一种学校分区招生制度,旨在减少学生的出行距离。基于在线的PPDB系统需要家庭位置输入,并辅以法律文件作为验证机制。然而,伪造家庭住址或入学欺诈无法被PPDB系统识别。本研究考察了PPDB招生排名数据中可能存在的欺诈案例。排名数据在注册者和学校之间形成了一个图表关系。每个数据都包含一个经纬度点,它是基于PPDB策略接受数据的主要因素。该过程试图分析从排名数据中得出的距离差距分布与并发欺诈案件之间的联系。因为距离间隙分布在几个间隙点上仍然有一个缺失值,所以使用KDE (Kernel Density Estimation)来估计这些未知值是有用的。KDE将产生估计的距离差距分布。距离差距分布受绘制在地理地图上的居住地位置的影响。当某些注册者的位置不常见时,它会在距离间隙分布上产生波动。差距分布值超过这种情况下估计的距离差距分布,将被检测为入学欺诈。通过图形算法处理注册欺诈检测过程。图形算法遍历图形数据并从学校获得排名注册者。每隔两米对数据进行分组,检查其计数是否超过估计的距离差距分布。图算法建立在PPDB系统上,并测试了几个被操纵的居住位置。它可以检测到那些被操纵的数据,而且处理速度很快,因为只需要不到一秒的时间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Graph Algorithm for Anomaly Prediction in East Java Student Admission System
Before the zoning policy, students or their parents tend to choose a recognized school with high educational quality despite its distance. New Student Admissions or Penerimaan Peserta Didik Baru (PPDB) is a school zoning enrollment system that aims to reduce the student travel distance. The online-based PPDB system requires home location input supplemented with legal documents as validation mechanism. However, falsifying home residence or enrollment fraud could not be identified by the PPDB system. This study examines the possible fraud cases from the PPDB enrollment ranks data. The ranks data forms a graph relationship between the registrant and the school. Every data contains a longitude-latitude point, and it is the main factor for accepting based on PPDB policy. The process is trying to analyze the connection between distance gap distribution derived from the ranks data, with the concurrent fraud cases. Because the distance gap distribution still has a missing value on several gap points, it is useful to use KDE (Kernel Density Estimation) to estimate those unknown values. KDE will result in estimated distance gap distribution. The distance gap distribution is affected by the residence location that is plotted on a geo map. When there's an uncommon location of some registrant it will create fluctuation on the distance gap distribution. The gap distribution value exceeds the estimated distance gap distribution from this situation and will be detected as an enrollment fraud. The process to detect enrollment fraud is handled with a graph algorithm. The graph algorithm traverses the graph data and gets ranked registrant from a school. The data are grouped every two meters and check whether its count does not exceed the estimated distance gap distribution. The graph algorithm builds over the PPDB system and tests several manipulated residence locations. It could detect those manipulated data and has a fast process since it only took less than one second.
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