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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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Arduino-Based Non-Invasive Blood Sugar Analyzer Instrumentation System Hariono, Tholib; Fitri, Izzatul Indana
NEWTON: Networking and Information Technology Vol. 3 No. 3 (2024): February
Publisher : LPPM Universitas KH. A. Wahab Hasbullah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32764/newton.v3i3.4846

Abstract

Arduino-based Non-Invasive Blood Sugar Measurement Instrumentation System is a system designed to measure blood sugar levels without requiring blood samples, as in invasive methods. The system uses photodiodes and LEDs (Light Emitting Diodes) function as a measurement process using optical principles. Arduino as the base of the microcontroller to manage the sensor and measurement process, process the data from the sensor, and send it to the LCD for display. The testing and calibration of the device showed that the average error percentage was around 2.91%, indicating an excellent degree of accuracy in measuring sugar levels non-invasively, although there were slight deviations that were still within acceptable tolerances. By considering the average result of the percentage of error it can be concluded that this system is effective and reliable for blood sugar measurement without invasive.
PORTABLE CLOTHES WASHING MACHINE MODEL DESIGN ARDUINO BASED Indryanto, Surya Puji; Hariono, Tholib
NEWTON: Networking and Information Technology Vol. 3 No. 3 (2024): February
Publisher : LPPM Universitas KH. A. Wahab Hasbullah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32764/newton.v3i3.4858

Abstract

The development of electronic technology provides great benefits for the world of electronics and for everyday life. Single chip computers, also called microcontrollers or microcomputers, also provide technology so that many human aids can be created. One of the tools to complete human tasks is washing clothes. Washing clothes is a routine task that humans do almost every day. It is true that automatic clothes washing machines have been created and many people are already using them, but in some cases, for example, people who travel or stay outside the home will find it difficult to carry or own a conventional clothes washing machine because it is large and takes up space to store. The aim of making this tool is to make it easier and simpler for people to use a clothes washing machine and to carry it everywhere. By using the Arduino system, the washing machine which originally used a module was replaced with an Arduino which is definitely simpler to use. Portability Easy to carry and use anywhere, including in dorms, small apartments, or while traveling. Efficiency Saves air and energy compared to general washing machines. Easy to use and operate. Suitable for small clothes: Ideal for washing small and delicate clothes, such as underwear, socks and towels.
Information system for collecting data on the area of ​​irrigated rice fields at the Jombang district agricultural service Azzahra, Shafira; Zulfikar, Zulfikar
NEWTON: Networking and Information Technology Vol. 3 No. 3 (2024): February
Publisher : LPPM Universitas KH. A. Wahab Hasbullah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32764/newton.v3i3.4860

Abstract

Irrigation is one of the important elements in agriculture, especially in rice fields. Irrigation makes water more available to plants and can increase yields. Therefore, irrigation efficiency and monitoring are important to support agricultural productivity. Looking at the rapid development of technology utilization, it is also needed to help irrigation managers at the Department of Agriculture to collect data systematically. One of them is creating a data collection system in a more modern way. regarding the case of irrigation managers at the Department of Agriculture who have so far been using manual methods. The purpose of this study is to design an Information System for recording the area of ​​rice field irrigation. The SDLC (System development life cycle) method is used with a Waterfall process model: analysis, design, code generation, testing, and support. This system is created using PHP and MySQL programs, Google Chrome software, XAMPP, and MySQL database. The results of the study show that the designed system can help facilitate data collection on the area of ​​rice field irrigation at the Department of Agriculture, Jombang Regency. Keywords: Information System; Data Collection; Irrigation; waterfall
Design of a Carbon Monoxide Gas Measurement Tool Using Microcontroller-Based MQ-7 Gas Sensor in Households Sugianto, Muhammad Agus; Zulfikar, Zulfikar
NEWTON: Networking and Information Technology Vol. 3 No. 3 (2024): February
Publisher : LPPM Universitas KH. A. Wahab Hasbullah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32764/newton.v3i3.4881

Abstract

The increasing presence of carbon monoxide in residential environments poses a serious health risk due to its colorless, odorless, and tasteless nature. This study aims to develop and evaluate a carbon monoxide detection system using the MQ-7 sensor integrated with an Arduino microcontroller. The research employs an experimental design approach with a sequential development model, including system analysis, design, coding, and testing phases. The system is designed to detect carbon monoxide levels and provide early warnings using visual and auditory indicators. Testing results indicate that the system successfully detects varying concentrations of carbon monoxide with satisfactory accuracy and provides timely alerts. This study contributes significantly to household safety by offering a simple, effective, and affordable solution for carbon monoxide detection, thereby enhancing preventive measures against potential carbon monoxide exposure.
Design Of Overheat Detection Device On Vehicle Engine Through Monitoring Water Temperature Or Cooling Oil Nur Huda, Erfan; Zulfikar, Zulfikar
NEWTON: Networking and Information Technology Vol. 3 No. 2 (2023): October
Publisher : LPPM Universitas KH. A. Wahab Hasbullah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32764/newton.v3i2.4897

Abstract

Currently, there is a cooling system in vehicle engines that uses additional cooling which warns the driver that the engine's working temperature has exceeded a predetermined threshold, but not for older vehicles or those that still use a CDI (Capacitor Discharge Ignition) system that only relies on the cooling system. through the fins on the machine. To overcome the problems described previously, research was carried out. The result of this research is a tool or device that can detect excessive heat in a vehicle engine using the DS18B20 sensor. The temperature sensor results are processed using an NodeMCU ESP8266 Lolin microcontroller to obtain information about engine temperature. This tool provides a warning system with fan commands and an LCD display that shows the condition of the engine's working temperature at that time. With this tool, overheating of the engine can be prevented.
Visualization of Carbon Footprint Value Calculation from Residential Activities In The Energy and Transportation Sector In Jombang District Community Nadila, Marcelina Putri; Zulfikar, Zulfikar
NEWTON: Networking and Information Technology Vol. 3 No. 3 (2024): February
Publisher : LPPM Universitas KH. A. Wahab Hasbullah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32764/newton.v3i3.4909

Abstract

This study aims to visualize the calculation of carbon footprint value generated from settlement activities in the energy and transportation sectors in the Jombang Sub-district community. The method used is quantitative with primary data collection through questionnaires and direct surveys and secondary data from related agencies. The analysis was conducted to calculate carbon emissions from using electricity, LPG, and motor vehicle fuel (gasoline and diesel). The results show that household energy consumption produces carbon emissions of 1,200 tons of CO2e per year, while the transportation sector contributes 800 tons of CO2e per year. Total carbon emissions from both sectors reached 2,000 tons of CO2e per year in Jombang Subdistrict. Data visualization was conducted using graphical software to facilitate public understanding of the impact of daily activities on the environment. The findings are expected to serve as a basis for developing more sustainable local policies and encouraging community participation in carbon emission reduction efforts. With this visualization, the community will be more aware of the importance of reducing carbon footprints to achieve a healthier and more sustainable environment.
Microcontroller-Based Air Pollution Monitoring System Chumaidi, Ahmad Fatich; Sujono, Sujono; Hariono, Tholib
NEWTON: Networking and Information Technology Vol. 3 No. 2 (2023): October
Publisher : LPPM Universitas KH. A. Wahab Hasbullah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32764/newton.v3i2.4920

Abstract

The increase in air pollution is a serious environmental issue in many major cities in Indonesia. This study aims to develop an effective and efficient air pollution monitoring system using a microcontroller. The designed system consists of air pollution sensors capable of detecting various pollutants such as PM10, CO2, and NO2. The data collected from the sensors are processed by the microcontroller and displayed in real-time to users through a web-based interface. This method allows users to accurately and promptly monitor the air quality in their surroundings. The results show that the microcontroller-based monitoring system operates stably and provides accurate data on the concentration of pollutants in the air. This system is expected to be a valuable tool for the general public and authorities in monitoring and managing air quality, as well as taking preventive measures against the adverse effects of air pollution.
Application of the R Program for CO2 Emission Calculations Based on Secondary Carbon Footprint at MTs Bahrul Ulum Imal, Khasanul; Zulfikar, Zulfikar
NEWTON: Networking and Information Technology Vol. 3 No. 2 (2023): October
Publisher : LPPM Universitas KH. A. Wahab Hasbullah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32764/newton.v3i2.4926

Abstract

Global warming is partly caused by the increasing amount of greenhouse gas emissions accumulating in the Earth's atmosphere, leading to a rise in surface temperatures over time. Carbon dioxide (CO2) emissions are the main component of greenhouse gases. The largest CO2 emissions from the energy sector come from the use of electricity generated by building activities. This study aims to analyze the CO2 emissions produced from electricity use at MTs Bahrul Ulum. Data collection on electricity usage was conducted by measuring the power consumption of air conditioners, lights, PCs, and laptops used during operational hours, particularly in the MTs Bahrul Ulum school building. CO2 emissions from the electricity consumption of electronic equipment were calculated using emission factors according to the regulations of the Directorate General of Electricity, Ministry of Energy and Mineral Resources (ESDM). The method used is a carbon footprint study. The results show that electricity usage at the location is 6,954.792 kWh/year, and the emissions generated from this electricity usage amount to 8,507.243784 kgCO2/year. This study also developed an application using the R program to facilitate the calculation and analysis of CO2 emissions based on secondary carbon footprints. The application is designed to help users identify and reduce CO2 emissions resulting from daily activities in the school environment.
Web-Based Decision Support System for Budget Prediction Using the SAW Method for Tourism Recommendations Habib, Fahmi Zainal; Sufaidah, Siti
NEWTON: Networking and Information Technology Vol. 3 No. 2 (2023): October
Publisher : LPPM Universitas KH. A. Wahab Hasbullah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32764/newton.v3i2.4933

Abstract

Tourism plays a crucial role in regional and national economies, with local tourism in Indonesia, particularly in Jombang Regency, East Java, offering substantial development potential. However, tourists often face difficulties in planning trips that align with their budgets due to inadequate integration of information on costs, trip duration, and participant numbers. This study develops a web-based Decision Support System (DSS) utilizing the Simple Additive Weighting (SAW) method to enhance trip planning for tourism in Jombang. The DSS integrates data on budget, trip duration, and the number of participants to provide optimal recommendations based on user preferences and constraints. The SAW method facilitates a systematic and objective evaluation process for recommending tourist destinations. The research follows the ADDIE development model, encompassing Analysis, Design, Development, Implementation, and Evaluation stages. Key objectives include creating a system that consolidates cost, duration, and participant data, applying SAW for accurate recommendations, and ensuring an objective evaluation process. The system aims to improve trip planning efficiency, provide accurate recommendations, and enhance user satisfaction. The scope of this study is limited to applying the SAW method for budget prediction in tourism recommendations for Jombang. The developed system is a prototype that may require further refinement for comprehensive implementation.
Design of a Smart Donation Box Based on IoT Setiawan, Deni; Hariono, Tholib
NEWTON: Networking and Information Technology Vol. 3 No. 2 (2023): October
Publisher : LPPM Universitas KH. A. Wahab Hasbullah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32764/newton.v3i2.4951

Abstract

This research, entitled "IoT-based Intelligent Charity Box Design", aims to develop a charity box system that utilizes the Internet of Things (Iot) technology to enhance public participation in charity. In this context, the charity box not only serves as a container for storing donations, but is also equipped with features that can automatically monitor and calculate the amount of money inserted. The system uses the Wemos D1 Mini as a microcontroller connected to the Internet, allowing users to access data in real time through a website. In addition, this smart charity box is equipped with a PIR sensor that detects motion and triggers sound on the DFPlayer, as well as a TCS3200 color sensor that counts the paper money entered. Thus, the research not only offers technological solutions, but also seeks to remind the public of the importance of charity in a more interactive and efficient way. The results of this research are expected to benefit the management of charity funds and raise social awareness in the community.

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