THE MODELING OF "MUSTAHIQ" DATA USING K-MEANS CLUSTERING ALGORITHM AND BIG DATA ANALYSIS (CASE STUDY: LAZ)

Nurhayati Buslim, Rayi Pradono Iswara, Fajar Agustian

Abstract


There are a lot of Mustahiq data in LAZ (Lembaga Amil Zakat) which is spread in many locations today. Each LAZ has Mustahiq data that is different in type from other LAZ. There are differences in Mustahiq data types so that data that is so large cannot be used together even though the purpose of the data is the same to determine Mustahiq data. And to find out whether the Mustahiq data is still up to date (renewable), of course it will be very difficult due to the types of data types that are not uniform or different, long time span, and the large amount of data. To give zakat to Mustahiq certainly requires speed of information. So, in giving zakat to Mustahiq, LAZ will find it difficult to monitor the progress of the Mustahiq. It is possible that a Mustahiq will change his condition to become a Muzaki. This is the reason for the researcher to take this theme in order to help the existing LAZ to make it easier to cluster Mustahiq data. Furthermore, the data already in the cluster can be used by LAZ managers to develop the organization. This can also be a reference for determining the zakat recipient cluster to those who are entitled later. The research is "Modeling using K-Means Algorithm and Big Data analysis in determine Mustahiq data ". We got data Mustahiq with random sample from online and offline survey. Online data survey with Google form and Offline Data survey we got from BAZNAS (National Amil Zakat Agency) in Indonesia and another zakat agency (LAZ) in Jakarta. We conducted by combining data to analyzed using Big Data and K-Means Algorithm. K-Means algorithm is an algorithm for cluster n objects based on attributes into k partitions according to criteria that will be determined from large and diverse Mustahiq data. This research focuses on modeling that applies K-Means Algorithms and Big Data Analysis. The first we made tools for grouping simulation test data. We do several experimental and simulation scenarios to find a model in mapping Mustahiq data to developed best model for processing the data. The results of this study are displayed in tabular and graphical form, namely the proposed Mustahiq data processing model at Zakat Agency (LAZ). The simulation result from a total of 1109 correspondents, 300 correspondents are included in the Mustahiq cluster and 809 correspondents are included in the Non-Mustahiq cluster and have an accuracy rate of 83.40%. That means accuracy of the system modeling able to determine data Mustahiq. Result filtering based on Gender is “Male” accuracy 83.93%, based on Age is ”30-39” accuracy 71,03%, based on Job is “PNS” accuracy 83.39%, based on Education is “S1” accuracy 83.79%. The advantaged of research expected to be able to determine quickly whether the person meets the criteria as a mustahik or Muzaki for LAZ (Amil Zakat Agency). The result of modeling is K-Means clustering algorithm application program can be used if UIN Syarif Hidayatullah Jakarta want to develop LAZ (Amil Zakat Agency) too.


Keywords


Big Data; Clustering; K-Means Algorithm; BAZNAS (National Amil Zakat Agency); LAZ (Amil Zakat Agency)

Full Text:

PDF

References


S. Hartati and A. Nugroho, “MongoDB: implementasi VLDB (very large database) untuk sistem basis data tersebar (distributed database),” Jurnal Teknik Informatika, 2012.

B. Carlos, et al., “A comparison of unsupervised learning techniques for encrypted traffic identification. Dalhousie University,” 2009.

“Holly Qur’an online,” Available:

https://www.islamicfinder.org/quran/surah-al-baqara/276/?translation=english-saheeh-international&language=ms

https://ayatalquran.net/ [Accessed: Jan. 22, 2021]

“Holly Qur’an online,” Available:

https://www.islamicfinder.org/quran/surah-at-tawba/103/?translation=english-muhammad-taqi-ud-din-al-hilali-and-muhammad-muhsin-khan [Accessed: Jan. 22, 2021]

“Al Quran terjemah,” Available:

https://ayatalquran.net/

[Access Jan. 22, 2021].

“Panduan zakat,” Available: https://www.dompetdhuafa.org/uploads/media/PANDUAN-ZAKAT-1433-web.pdf [Accessed: Jan. 10, 2021]

D. D. Prahesti. and P. P. Putri, “Learn to pronounce empowerment of small and micro enterprises through earning zakat funds,” Ilmu Dakwah: Academic Journal for Homiletic Studies, 2012, Vol. 12 no. 1, pp. 141-160. Available at: 10.15575/idajhs.v12i.190..

Apriyanti, et al., “Algoritma K-Means clustering dalam pengolahan citra digital landsat,” Universitas Lambung Mangkurat, Kalimantan, 2015.

Nurhayati, Busman, and V. Amrizal, “Big data analysis using hadoop framework and machine learning as decision support system (DSS) (case study: knowledge of Islam mindset),” 6th International Conference on Cyber and IT Service Management (CITSM), 2018.

DOI: 10.1109/CITSM.2018.8674354

Nurhayati, et al., “Big data technology for comparative study of K-Means and fuzzy C-Means algorithms performance,” 7th International Conference on Computer and Communication Engineering (ICCCE), 2018.

Ahmad, et al., “Assessing the satisfaction level of zakat recipients towards zakat management,” Procedia Economics and Finance, 31, pp. 140-151, 2015.

Nurhayati, Busman, and R. P. Iswara. “Pengembangan algoritma unsupervised learning technique pada big data analisis di media sosial sebagai media promosi online bagi masyarakat,” Jurnal Teknik Informatika Vol. 12 No. 1, April 2019. http://journal.uinjkt.ac.id/index.php/ti/article/view/11342/pdf. 2019.

Ediyanto, et al., “Pengklasifikasian karakteristik dengan metode k-means cluster analysis,” Universitas Tanjungpura, 2013.

M. I. Jordan. and T. M. Mitchel, Machine Learning: Trends, Perspectives, and Prospects. American Association for the Advancement of Science, 2015.

A. Wijaya, ”Analisis algoritma k-means untuk sistem pendukung keputusan penjurusan siswa di MAN Binong Subang,” Skripsi. Bandung: Universitas Komputer Indonesia, 2010.

A. M. Baswade, K. D. Joshi, and P. S. Nalwade, International Journal of Engineering Research & Technology (IJERT). ISSN: 2278-0181, 2012.

J. B. MacQueen, “Some methods for classification and analysis of multivariate observations,” Proceedings of 5-th Berkeley Symposium on Mathematical Statistics and Probability. University of California Press, 1967.

V. Prajapati, “Big data analytics with r and Hadoop,” Birmingham: Packet Publishing Ltd., 2013.

“Oracle Java Technologies,” Available: http://www.oracle.com




DOI: https://doi.org/10.15408/jti.v13i2.19610 Abstract - 0 PDF - 0

Refbacks

  • There are currently no refbacks.


Copyright (c) 2021 Nurhayati Buslim, Rayi Pradono Iswara, Fajar Agustian

Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

3rd Floor, Dept. of Informatics, Faculty of Science and Technology, UIN Syarif Hidayatullah Jakarta
Jl. Ir. H. Juanda No.95, Cempaka Putih, Ciputat Timur.
Kota Tangerang Selatan, Banten 15412
Tlp/Fax: +62 21 74019 25/ +62 749 3315
Handphone: +62 8128947537
E-mail: jurnal-ti@apps.uinjkt.ac.id


Creative Commons Licence
Jurnal Teknik Informatika by Prodi Teknik Informatika Universitas Islam Negeri Syarif Hidayatullah Jakarta is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
Based on a work at http://journal.uinjkt.ac.id/index.php/ti.

JTI Visitor Counter: View JTI Stats

 Flag Counter