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MDP Student Conference
Published by Universitas Multi Data Palembang
ISSN : -     EISSN : -     DOI : https://doi.org/10.35957/mdp-sc.v2i1.3997
Core Subject : Economy, Science, Engineering,
Computer Science & IT Decision Sciences, Operations Research & Management Economics, Econometrics & Finance Electrical & Electronics Engineering
MDP Student Conference is a one-year national conference organized by the Universitas Multi Data Palembang. We are inviting teachers, lecturers, researchers, scholars, students, and or other key stakeholders to present and discuss their latest findings, innovations, and best practices as well as fresh ideas on, but not limited to, the listed sub-themes.
Arjuna Subject : Ilmu Komputer (semua kategori) - Ilmu Komputer (Lain-Lain)
Articles 689 Documents
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Pengembangan Aplikasi Manajemen Stok Berbasis RUP pada PT Anugerah Pelangi Nusantara Amelia, Siska; Febryan, Migel Orvin; Wijaya, Novan
MDP Student Conference Vol 5 No 2 (2026): The 5th MDP Student Conference 2026
Publisher : Universitas Multi Data Palembang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35957/mdp-sc.v5i2.14351

Abstract

A mobile-based inventory management application was developed for PT Anugerah Pelangi Nusantara to improve the accuracy and efficiency of stock management processes. The scope includes system analysis, design, implementation, and testing of an application that manages item data, stock-in and stock-out transactions, and inventory reports. The Rational Unified Process (RUP) methodology was applied through the inception, elaboration, construction, and transition phases. System modeling utilized Unified Modeling Language diagrams, while functional testing employed the black box testing method. The results indicate that the application successfully automates inventory recording, updates stock data in real time, and generates accurate inventory reports. All core system functions operated as expected during testing. Overall, the developed application reduces manual recording errors, accelerates reporting processes, and supports more efficient inventory control within the company.
Smart Water Tank Management System Berbasis IoT dan WebSocket untuk Kontrol Dua Pompa Otomatis Trisaptono, Raymondus; Marpaung, Bryant Valencio; Sumual, Willyam Lucas Haposan; Widiyanto, Eka Puji
MDP Student Conference Vol 5 No 2 (2026): The 5th MDP Student Conference 2026
Publisher : Universitas Multi Data Palembang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35957/mdp-sc.v5i2.14389

Abstract

Water management in multi-story buildings requires efficiency to prevent resource wastage. At the Santo Paulus Plaju Catholic Church, manual pump operation frequently leads to tank overflows, water shortages, and potential pump damage due to dry-running. This study designs a centralized automatic control system for filling and booster pumps using an ESP32 microcontroller and Websocket protocol for real-time monitoring. The system integrates an AJ-SR04M ultrasonic sensor for level measurement and a YF-S201 flowmeter for discharge detection. Testing results demonstrate system successfully automates operations based on hysteresis logic (ON <25%, OFF >90%) and flow detection (>4.0 L/m). Furthermore, the Websocket-based interface achieves data update latency under 1 seconds, ensuring a responsive and transparent management solution.
Sistem Deteksi Masker Wajah Menggunakan CNN untuk Akses Pintu Otomatis Firizki, Muh.; Brilliant, Brian; Warohma, Ayu Mawadda
MDP Student Conference Vol 5 No 2 (2026): The 5th MDP Student Conference 2026
Publisher : Universitas Multi Data Palembang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35957/mdp-sc.v5i2.14413

Abstract

This research discusses the development of a face mask detection system using a Convolutional Neural Network (CNN) for automatic door access in hospitals. Considering the high risk of infectious disease transmission in hospital environments, the implementation of strict health protocols, including mandatory mask usage, is essential. Manual supervision of mask compliance has limitations; therefore, an automated system is required to improve monitoring effectiveness. The dataset used in this study was collected using an ESP32 Cam, consisting of 1,186 images of masked and unmasked faces. The CNN model achieved an average training accuracy of 96.60%, with Precision and Recall values of 0.98. The automatic door system was evaluated through real-time testing involving six subjects, each undergoing 15 trials with masks and 15 trials without masks, resulting in a total of 180 trials. The system achieved a detection accuracy of 90.00% for masked faces and 74.44% for unmasked faces, with an overall system accuracy of 82.22%. These results indicate that the proposed system is capable of reliably supporting automatic door access control based on face mask compliance in hospital environments.
Sistem Deteksi dan Pencatatan Akses Perpustakaan Menggunakan Sensor Gerak IoT dengan Visualisasi Data Berbasis Website Panjaitan, Febriyanti; Hermantan, Jehuda Rapha Putra; Effendy, Leon Duta; Kinton, Frederick
MDP Student Conference Vol 5 No 2 (2026): The 5th MDP Student Conference 2026
Publisher : Universitas Multi Data Palembang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35957/mdp-sc.v5i2.14433

Abstract

This study aims to develop a prototype of an Internet of Things (IoT)–based people counting system for real-time room occupancy monitoring. The scope of the research is limited to the design and implementation of a physical prototype and data visualization through a web dashboard, without involving individual identification. The research employs an experimental and system development (Research and Development) method using infrared sensors, Arduino Uno, ESP32, and a servo motor. The system is designed to detect entry and exit activities, count the number of people, and transmit data to a server via a Wi-Fi network to be displayed on a web dashboard. The results show that the system operates as designed, performing automatic counting and presenting real-time occupancy information. In conclusion, the developed IoT system can serve as an initial solution for room occupancy monitoring and has the potential to be further developed through the integration of face recognition technology
Penerapan metode RUP dalam pengembangan website booking pada Hotel Sriwidjaya Palembang Az Zahrah, Siti Fatimah; Veraldo, Veraldo; Wijaya, Novan
MDP Student Conference Vol 5 No 2 (2026): The 5th MDP Student Conference 2026
Publisher : Universitas Multi Data Palembang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35957/mdp-sc.v5i2.14474

Abstract

The development of information technology encourages hotels to improve their reservation services through digital platforms. Hotel Sriwidjaya Palembang still applies a manual booking process that may cause data inaccuracies and inefficiencies in service delivery. This research aims to implement the RUP (Rational Unified Process) method in developing a web-based hotel booking website to support online reservations and reservation management. The research scope focuses on the system development stages consisting of Inception, Elaboration, Construction, and Transition. The website is developed with features such as room availability information, online booking, and reservation management. The result show that the implementation of the RUP method can produce a structured and functional hotel booking website that improves reservation accuracy and service efficiency. In conclusion, the developed website is expected to assist Hotel Sriwidjaya in managing reservations more effectively and providing better services to customers.
Digitalisasi Sistem Absensi dan Informasi Karyawan di Perusahaan BJIB Johan, Femmy; Verty, Jennifer; Wijaya, Novan
MDP Student Conference Vol 5 No 2 (2026): The 5th MDP Student Conference 2026
Publisher : Universitas Multi Data Palembang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35957/mdp-sc.v5i2.14475

Abstract

BJIB still uses manual attendance, which can lead to potential recording errors, delays in recapitulation, and a lack of transparency in attendance data. This study aims to design and build a mobile-based employee service application that supports digital attendance using QR Codes and provides information in the form of employee data and attendance history. This study uses the waterfall method, which includes needs analysis, interface design, implementation using Laravel and MySQL, testing, and maintenance. Testing was carried out on the login feature, attendance entry and exit, and history display. The results of the study show that all features run well and are able to record attendance accurately and present data in real-time. This system improves administrative efficiency, reduces human error, and accelerates the recapitulation process. Thus, the developed application can be an effective solution for BJIB in supporting the digitalization of employee data management.
Aplikasi Pengelolaan Tagihan Pembeli pada CV Apolindo Jaya Semesta Menggunakan Metode RUP Suryanto, Serenity Devina; Putri, Dina Lestari; Wijaya, Novan
MDP Student Conference Vol 5 No 2 (2026): The 5th MDP Student Conference 2026
Publisher : Universitas Multi Data Palembang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35957/mdp-sc.v5i2.14481

Abstract

This project aims to develop a buyer bill management application at CV Apolindo Jaya Semesta in Mobile form in order to overcome the shortcomings and problems of manual management methods and help companies manage buyer bills quickly and efficiently. This project focuses on project initialization, designing user interface designs and UML Use Case diagrams, and testing with the Black Box Testing method and users who use the application are admins and company leaders. The method used is the Rational Unified Process (RUP) which organizes the project iteratively and gradually. The results of this project development show that this application is proven to be able to solve the company's problems and shortcomings with a test result rate of 100%, can solve 90% of manual problems, save time by 70%, and costs up to 60%, although there are still opportunities for further development in the aspect of expanding features and application coverage.
Pengembangan Aplikasi Scanning Barcode untuk Manajemen Stok pada Kantin Alwi College Gunawan, Felix; Muhammad, Fadhel; Wijaya, Novan
MDP Student Conference Vol 5 No 2 (2026): The 5th MDP Student Conference 2026
Publisher : Universitas Multi Data Palembang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35957/mdp-sc.v5i2.14503

Abstract

Manual stock recording in small-scale canteens often causes data inaccuracy, inefficiency, and difficulties in monitoring inventory levels. This study aims to develop a barcode scanning-based application for inventory management at Alwi College canteen. The application enables administrators to identify items through barcode scanning and update incoming stock data automatically. The system was developed using the Agile methodology to support iterative development and continuous user feedback. UML diagrams were used to model the system, including use case, activity, sequence, and class diagrams. The results show that the application improves the accuracy and efficiency of stock recording, simplifies item classification, and supports real-time stock monitoring. Black box testing indicates that all main features function properly.
Perancangan dan Pembangunan Aplikasi Mobile Manajemen Stok Material Proyek untuk CV Lingga Sudarsono, Ariel; Lee, Raphael; Wijaya, Novan
MDP Student Conference Vol 5 No 2 (2026): The 5th MDP Student Conference 2026
Publisher : Universitas Multi Data Palembang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35957/mdp-sc.v5i2.14519

Abstract

Amidst rapid digital development, the need for an efficient material management system has become increasingly important. This study aims to design and develop a mobile application for managing project material stock at CV Lingga. The previously used paper-based manual recording system caused various issues, including data inaccuracies, delays in information delivery, and difficulties in monitoring stock in real time. The development method applied in this study is the Waterfall model, which consists of requirements analysis, system design, implementation, and testing stages. The developed application provides project management features, recording of incoming and outgoing materials, and weekly report generation. The implementation of the system is proven to improve data accuracy, accelerate administrative processes, and facilitate centralized, real-time material stock monitoring.
Sistem Pemadam Api Berbasis Internet of Things (IoT) dengan Integrasi Aplikasi Telegram Hadji, Farid Muhammad; Daffa Putra, Muhammad Reihan; Kusuma, Rizky Ade; Warohma, Ayu Mawadda
MDP Student Conference Vol 5 No 2 (2026): The 5th MDP Student Conference 2026
Publisher : Universitas Multi Data Palembang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35957/mdp-sc.v5i2.14529

Abstract

Residential fires are critical incidents that often result in severe material losses and casualties due to delayed detection and manual mitigation limitations. This study aims to design an Internet of Things (IoT)-based fire extinguishing system integrated with the Telegram application. The system utilizes an ESP32 microcontroller as the main processing unit, connected to a DHT11 temperature sensor, MQ-2 smoke sensor, and Flame Sensor. The research methodology involves hardware prototyping and implementing automatic control logic. The results demonstrate that the system successfully detects fire and smoke in real-time. Specifically, the Flame Sensor showed a rapid response time of 1.15 seconds, while the MQ-2 sensor detected smoke within 3.18 seconds. Upon detecting fire, the system automatically activates a 12V mini pump via a relay to simulate fire suppression and simultaneously sends immediate alert notifications to the user's smartphone via Telegram. This integrated solution offers a reliable rapid response mechanism to minimize fire damage.

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