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Newton : Networking And Information Technology
Published by Universitas KH. A. Wahab Hasbullah
ISSN : -     EISSN : 27970728     DOI : -
Core Subject : Science,
Computer Science & IT
NEWTON: Networking and Information Technology is a scientific journal published by the Institute for Research and Community Service (LPPM), KH University. A. Wahab Hasbullah Jombang. The aims of the journal are to publish and disseminate high quality, original research papers and article review in the field of Information Technology, Information Systems Engineering, and Intelligent Business Systems. NEWTON: Networking and Information Technology provide platform for scientists and academics across Indonesia to promote, share, and discuss new issues and the development of information systems and information technology. The Scope of our journal includes: (1) Internet of Things, (2) IT Infrastructure and Security, (3) Computational Intelligence, (4) Multi-Agent Systems, (5) Data Acquisition and Information Dissemination, (6) Software Engineering, (7) Innovation in the Digital Economy
Arjuna Subject : Ilmu Komputer (semua kategori) - Sistem Informasi
Articles 143 Documents
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Design and Build a Water Level Monitoring System in IoT-Based Reservoirs Al Fahhiz, Mohammad Hufait Ibri; Sujono, Sujono
NEWTON: Networking and Information Technology Vol. 5 No. 1 (2025): June
Publisher : LPPM Universitas KH. A. Wahab Hasbullah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32764/newton.v5i1.5809

Abstract

Water is a natural resource that has a crucial role for the lives of all creatures, including humans. In modern life, the use of water reservoirs is a common solution to store water to meet the needs of households, industries, and public facilities. One of the main challenges in managing water reservoirs is ensuring that the availability of water in reservoirs remains optimal. In traditional systems, water level monitoring is usually done manually using visual methods or simple buoys. However, this method has several drawbacks, such as the risk of human error, for example errors in reading water levels or negligence in conducting routine monitoring. Although automatic buoys are now available, this tool still has some drawbacks, such as limitations in obtaining real-time data and access to information that can only be done at the reservoir location, so monitoring still requires more time and effort. This research aims to ensure that the availability of water in the reservoir remains optimal and increase efficiency in monitoring the reservoir. With this system, users can obtain real-time data on the water level in the reservoir, either through electronic devices directly or through integration with Internet of Things (IoT) technology. The system has been connected to the Telegram-based IoT platform, thus enabling practical remote monitoring and control through the Telegram app on the user's device. This makes it easier for users to monitor without having to be at the reservoir location. The system is also equipped with an automation feature, which allows automatic control of the water pump based on the water level detected by the sensor. When the water in the reservoir is below the minimum limit, the system will automatically activate the pump to fill the water. On the other hand, if the water reaches the maximum limit, the pump will be turned off automatically to prevent overflow and avoid waste. In addition, the system also supports manual control through the Telegram platform, where users can turn the pump on or off remotely by simply sending a command through the Telegram app. The test results show that this system works accurately and efficiently in monitoring and controlling water, either automatically based on the water level detected by the sensor, or manually through commands sent through the Telegram application. With the application of IoT technology, this system is expected to improve the efficiency of water reservoir management, reduce human error, and support sustainability initiatives in the use of water resources.
Design Of Student Payment Information Using Whatsapp Gateway At AsSalafiyyah Islamic Boarding School Asy-Syafi'iyyah Tambakberas Barat Jombang Based On Website Setiawan, Deny; Khafidhoh, Nur; Sufaidah, Siti
NEWTON: Networking and Information Technology Vol. 5 No. 1 (2025): June
Publisher : LPPM Universitas KH. A. Wahab Hasbullah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32764/newton.v5i1.5828

Abstract

The development of information technology provides great opportunities to improve administrative efficiency in various fields, including education. As-Salafiyyah Asy-Syafi’iyyah Islamic Boarding School, Tambakberas Barat Jombang faces challenges in managing student tuition payments, which have so far been done manually, making them less effective and prone to late notifications. This study aims to design and develop a website-based student payment information systemintegrated with WhatsApp Gateway to automate payment notifications to student guardians. The method used is Research and Development with the Waterfall model, including needs analysis, design, implementation using PHP and CodeIgniter, and system testing using the Black Box method. The test results show that all the main functions of the system run as expected without significant errors, including student data management, payment posts, bills, and automatic notification delivery via WhatsApp. This system has succeeded in increasing the efficiency and transparency of payment administration and facilitating communication between the Islamic boarding school and student guardians. Thus, the integration of WhatsApp Gateway into the Islamic  school payment information system provides a practical and effective solution tosupport the education process in the digital era.
Design of a Web-Based Digital Guestbook Application Using Barcode Technology Ismail, Isman; Zulfikar, Zulfikar
NEWTON: Networking and Information Technology Vol. 5 No. 1 (2025): June
Publisher : LPPM Universitas KH. A. Wahab Hasbullah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32764/newton.v5i1.6024

Abstract

The advancement of information technology has significantly influenced numerous sectors, including administrative systems in educational institutions such as Islamic boarding schools (pesantren). One persistent challenge in this environment is the reliance on manual guest registration, which often hampers efficiency and data accuracy. This study aims to design and develop a web-based digital guest book application incorporating barcode scanning technology at Pondok Pesantren Nur Khodijah 3 Tahsin wal Tahfidz. The goal is to streamline and improve the accuracy of guest recording processes. The system was developed using a structured methodology that includes requirement analysis, system design, implementation, testing, and maintenance. The platform is built on web technologies, using specific programming languages and database systems, and is equipped with a barcode scanning feature to expedite the guest check-in process. Testing results indicate that the developed application significantly reduces the time required for data entry and minimizes input errors. The barcode system also simplifies the retrieval and management of guest information, resulting in a more organized and systematic administrative workflow. Furthermore, data security and consistency are enhanced, as each guest is assigned a unique code automatically stored in the database. This system has proven to improve speed, accuracy, and documentation in guest management. In the future, it can be further enhanced by integrating features for reporting and analyzing visitor data to elevate the overall quality of administrative services within the pesantren.
Designing and Building an Irrigation Management Information System Using the Prototype Method Kafi, Rizal; Zulfikar, Zulfikar
NEWTON: Networking and Information Technology Vol. 5 No. 1 (2025): June
Publisher : LPPM Universitas KH. A. Wahab Hasbullah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32764/newton.v5i1.6072

Abstract

In the current system, agricultural extension workers manually collect and summarize extension outcome data using spreadsheets (Microsoft Excel). The weaknesses of this manual system are errors in data entry, duplicate data, and a rather long time for recapitulation. This research aims to develop and implement a web-based Irrigation Management Information System that is integrated and easy for agricultural extension workers at the sub-district level to use. The method used in this research is Research and Development, with a prototype model that allows interaction between developers and users during the creation process. The results of functional testing on this system show that the system has met user needs and no errors were found in any of the functions. Additionally, the limited trial involved 35 users who rated the system as very easy to use. It is hoped that with this irrigation management information system, water resource management can be carried out more effectively, supporting agricultural productivity and the overall well-being of farmers.
DESIGNING WHATSAPP BROADCAST USING VBA EXCEL AND JS NODES FOR MARKETING STRATEGY IN THE DIAN COLLECTION STORE Ma'ruf, Moh.Imam; Hariono, Tholib
NEWTON: Networking and Information Technology Vol. 5 No. 1 (2025): June
Publisher : LPPM Universitas KH. A. Wahab Hasbullah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32764/newton.v5i1.6103

Abstract

This research aims to develop an automated WhatsApp Broadcast system for enhancing marketing efficiency in small retail businesses. The system was designed using Microsoft Excel as the user interface and Node.js as the backend for processing message delivery through WhatsApp Web. Excel is used to input customer data and promotional content, while Node.js enables the system to automatically read and send messages without manual intervention. The development process follows the waterfall model, which includes analysis, design, implementation, testing, and deployment. Testing was conducted using black-box testing to ensure the functionality of each component. The implementation at Dian Collection, a small shoe and sandal retail business, demonstrated that the system could successfully deliver messages to over 100 customers with a 95% success rate. The solution helps reduce human error, saves time, and provides message consistency in marketing communication. In addition, the use of familiar tools makes it easy to operate by non-technical users, especially in small and medium enterprises. This system presents a practical and low-cost alternative for businesses to adopt digital marketing strategies without relying on expensive third-party platforms. It also creates an opportunity for small businesses to transform their promotional activities into more structured, automated, and customer-oriented approaches.
Implementation of Automatic Lamp Using Arduino with PIR Sensor Faizin, Moch Nur; Zulfikar, Zulfikar
NEWTON: Networking and Information Technology Vol. 4 No. 3 (2025): February
Publisher : LPPM Universitas KH. A. Wahab Hasbullah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32764/newton.v4i3.6203

Abstract

This research aims to design and implement an automatic lamp control system using Arduino and Passive Infrared (PIR) sensors to reduce electrical energy waste due to human negligence. The system uses two PIR sensors placed in sequence at the entrance to detect human movement and determine the direction of entry or exit. Arduino Uno is used as the microcontroller to process sensor inputs and control the relay that switches the AC lamp on or off. The testing results show that the system works effectively in distinguishing between entry and exit movements. The PIR sensors perform optimally at a distance of 1–2 meters with a response time of less than 500 ms and reliability reaching 100%. The system successfully saves energy by ensuring that the lamp only lights up when someone is inside the room and turns off automatically when the room is empty.
Development Of an Attendance System Using Rfid Based On The Internet of Think Sujono, Sujono; Siswoyo, Tri; Zulfikar, Zulfikar
NEWTON: Networking and Information Technology Vol. 5 No. 3 (2026): February
Publisher : LPPM Universitas KH. A. Wahab Hasbullah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32764/newton.v5i3.6101

Abstract

The attendance system is an important component in the world of education to monitor student attendance regularly and accurately. However, manual attendance methods that are still widely used, such as recording in books, have various disadvantages such as prone to recording errors, data manipulation (absenteeism), and making the attendance recapitulation process difficult. This research aims to develop an automatic attendance system using Radio Frequency Identification (RFID) technology integrated with the Internet of Things ( IoT ). This system is designed so that the attendance recording process can be carried out automatically, in real-time, and directly stored in a web-based database. The system development method uses a prototyping approach, with stages of communication, quick planning, quick design, construction, and feedback from users. The hardware used includes ESP32, MFRC-522 RFID module, 16x2 LCD, buzzer, and push button. While the software is built using PHP Native, MySQL, and Arduino IDE. The system has three main modes, namely Data Add Mode, Opt-In Mode, and Opt-Out Mode. Attendance data will be sent directly to the server and can be accessed by teachers or officers through the web dashboard. The test results using the black box method show that the system is running according to the expected function. The implementation of this system has been proven to improve the efficiency and accuracy of recording student attendance, as well as reduce the administrative burden on the school. The system also has the potential to be further developed with notification features or integration into other academic
School Inventory Management Using Android Based QR code Ulum, Miftahul; Sufaidah, Siti
NEWTON: Networking and Information Technology Vol. 5 No. 3 (2026): February
Publisher : LPPM Universitas KH. A. Wahab Hasbullah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32764/newton.v6i1.6165

Abstract

Inventory management of school facilities is an essential part of asset management to ensure the availability, condition, and effective use of items. However, manual inventory recording often leads to data inaccuracies, difficulties in tracking, and consumes a significant amount of time and effort. Therefore, this study aims to design and develop a mobile application based on Android to assist the inventory management process of school facilities more efficiently and accurately by utilizing QR Code technology. The application is developed using Java/Kotlin programming language and Android Studio framework, with SQLite used for local data storage and PHP-MySQL for data synchronization to the server when connected to the internet. The main features include inventory data input, QR Code generation and printing, QR Code scanning for item tracking, item condition updates, and damaged or repair-needed item reporting. The system is also equipped with user authentication to ensure that only administrators have access to the data. The testing results show that the application runs well on Android devices and is capable of managing inventory data more quickly and accurately compared to manual methods. The integration of QR Codes facilitates instant item identification through scanning, thereby accelerating the recording and checking processes. Thus, this application is expected to be a practical and efficient solution for inventory management in school environments.
Web Based Sales Information System for Crackers Products Using Laravel Framework Firosulhaq, Muhammad; Miftahuddin, Agus Athok
NEWTON: Networking and Information Technology Vol. 5 No. 3 (2026): February
Publisher : LPPM Universitas KH. A. Wahab Hasbullah

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

Home Industry Glagahan, which produces traditional kerupuk (crackers), faces several challenges in managing sales, stock recording, and product distribution, as these processes were previously carried out manually, leading to errors in record-keeping, loss of transaction data, and difficulties in generating structured sales reports. To address these issues, this study developed a Web-Based Sales Information System for Kerupuk Products using the Laravel framework supported by a modular e-commerce package, applying the Waterfall development method that includes requirements analysis, design, implementation, testing, and evaluation stages. The system provides features such as an online product catalog, automated transaction recording, integrated stock management, and sales reports based on specific periods, while system functionality was tested using the Black-box Testing method to ensure that it meets user requirements. The results show that the system successfully assists the business owner in managing sales and stock data more effectively compared to the previous manual method, although limitations remain, such as the lack of fully implemented online payment integration and a relatively simple user interface. In the future, this system can be further enhanced by integrating courier services, digital payment methods, and a more flexible user interface to support wider market expansion.
Design And Implementation of a Short Message Delivery System Using LoRa Technology Sujono, Sujono; Sunaryo, Dwi Agung; Widya, Moh. Anshori Aris
NEWTON: Networking and Information Technology Vol. 5 No. 3 (2026): February
Publisher : LPPM Universitas KH. A. Wahab Hasbullah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32764/newton.v5i3.6241

Abstract

This study presents the design and development of a short message communication system capable of operating in areas without internet connectivity by leveraging LoRa (Long Range) technology. LoRa was selected due to its extended coverage and energy efficiency, making it well-suited for deployment in remote regions. The proposed system integrates ESP32-based transmitter and receiver nodes with the LoRa RA-01 module as the communication medium. A mobile application is developed to provide a user-friendly interface for composing and displaying messages, while an SQLite database is utilized for storing communication records locally. System development follows the Waterfall model, covering requirement analysis, design, implementation, and testing. Experimental results demonstrate that the system successfully transmits and receives messages up to a distance of 100 meters without internet connectivity. The solution offers a practical and efficient alternative for wireless communication, particularly for delivering critical information in areas underserved by conventional telecommunication infrastructure.

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