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Integrasi Algoritma Cosine Similarity pada Sistem Informasi LPPM untuk Otomatisasi Deteksi Redundansi Judul Jeffadha Rhenggajati Umbaratama; Wakhid Kurniawan
TIN: Terapan Informatika Nusantara Vol 6 No 12 (2026): May 2026
Publisher : Forum Kerjasama Pendidikan Tinggi (FKPT)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.47065/tin.v6i12.9902

Abstract

Research title duplication is a crucial problem that frequently occurs in the academic environment, particularly in the governance of the Institute for Research and Community Service (LPPM). The current manual title verification process is considered inefficient, time-consuming, and highly prone to human error, potentially allowing proposals with substantial similarity to pass. This study aims to design and develop a web-based LPPM Information System integrated with a smart automatic title similarity detection feature for a case study at Universitas Muhammadiyah Karanganyar. The proposed solution is the development of a distributed system using a microservices architecture, integrating a Laravel framework web service and a Python (FastAPI) Natural Language Processing (NLP) computational service via REST API communication protocol. The software development method adopts Agile Development to accommodate requirement changes iteratively. The primary contribution of this research is the creation of an academic validation instrument based on a distributed architecture that isolates the text computational workload from the main server. The application of the Cosine Similarity algorithm combined with Term Frequency-Inverse Document Frequency (TF-IDF) weighting and the Sastrawi lexical library is used to calculate text similarity precisely. Black Box functional testing using the Equivalence Partitioning technique shows that the API integration runs without errors. Given the research focus on system integration, the algorithm evaluation was conducted using a controlled synthetic dataset simulating various text manipulation techniques. The test results show that the system can precisely identify basic syntactic modifications. However, the system transparently acknowledges a computational limitation (a drop in detection to 12.74%) in recognizing semantic similarities purely based on synonyms. The implementation of this technology is expected to help LPPM administrators validate the originality of proposals efficiently, objectively, and in real-time.
Perbandingan Efisiensi Waktu Pemrosesan Cuti Konvensional dan Digital Berbasis Web Terintegrasi Notifikasi Telegram Nabil Abiyu Nawwar; Wakhid Kurniawan
TIN: Terapan Informatika Nusantara Vol 6 No 12 (2026): May 2026
Publisher : Forum Kerjasama Pendidikan Tinggi (FKPT)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.47065/tin.v6i12.9916

Abstract

The administrative process of personnel leave applications in various higher education institutions is currently predominantly managed conventionally using physical forms. This manual approach frequently triggers various operational problems, such as processing time inefficiency, a high risk of misplaced documents, and approval delays caused by leaders not always being at the workplace. Although some institutions have transitioned to web-based digital leave systems, these systems are still considered ineffective because users are required to log in repeatedly just to check for status updates. Based on these conditions, a crucial research gap is identified. To date, no studies have focused on the addition of the Telegram Bot notification feature as a real-time solution while simultaneously conducting an empirical and quantitative comparison of processing time efficiency between manual governance and the digital system. To fill this gap, this study aims to design and develop a web-based leave application information system integrated with the Telegram Bot API and to measure the significance of its processing time efficiency. As a technological solution, this system utilizes the Webhook algorithm, which is capable of sending instant approval notifications directly to leaders' mobile devices. In its implementation, this study applies a quantitative experimental approach involving 30 testing scenario samples. The software's feasibility was first validated through the Black Box Testing method to ensure its functionalities operate correctly. Afterward, it was followed by comparative data analysis using the parametric statistical Paired Sample t-Test assisted by SPSS software. The test results show that all system modules have operated validly. Furthermore, quantitative measurement proves that the implementation of the system with Telegram notifications can drastically reduce the bureaucratic flow, lowering the average processing time from 370.33 minutes in the manual method to only 1.33 minutes. Statistical tests confirm that this efficiency difference is highly significant (Sig. 2-tailed = 0.000 < 0.05). The main contribution of this research is providing empirical evidence regarding operational time savings of more than 95%, as well as presenting a practical solution framework for institutions in adopting automation technology to achieve a modern, transparent, and responsive administrative governance.