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All Journal Jurnal Ilmiah Teknik Elektro Komputer dan Informatika (JITEKI) TRIDARMA: Pengabdian Kepada Masyarakat (PkM) Community Development Journal: Jurnal Pengabdian Masyarakat Science in Information Technology Letters Jurnal Teknik Elektro (JTE) Bulletin of Science Education Bulletin of Community Engagement Syaikhuna: Jurnal Pendidikan dan Pranata Islam STAI Syaichona Moh. Cholil Bangkalan Journal Electrical and Computer Experiences
Wahyu Tri Handoko
Universitas Negeri Malang
Religion Arts Humanities Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Economics, Econometrics & Finance Education Electrical & Electronics Engineering Engineering Health Professions Languange, Linguistic, Communication & Media Library & Information Science Public Health Social Sciences Other

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Implementation of Caterpillar Pest Control (CPC) on Solar Cell Based Onion Plants to Increase Productivity Wahyu Tri Handoko; Moh. Zainul Falah; Dhiyaurrahman Fakhruddin; Muhammad Sadidul Itqon; Langlang Gumilar; Farah Wardatul Afifah
Bulletin of Community Engagement Vol. 4 No. 2 (2024): Bulletin of Community Engagement
Publisher : CV. Creative Tugu Pena

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51278/bce.v4i2.1295

Abstract

One of the agricultural products that is very necessary as a cooking spice is onions. Onions are a mandatory spice in every dish to add flavor and enjoyment to the dish. Onion plants are not limited to the season at which they are planted so farmers can plant onions at any time, especially shallots. Based on this, one of the Farmer Groups in Krejengan District, Probolinggo Regency, is a forum for deliberation regarding agriculture, especially shallots. In shallot farming in Krejengan District, in dealing with caterpillar and planthopper pests, chemical pesticides are often used excessively. This certainly hurts the health of those who consume shallots and the environmental impact. On the other hand, spraying chemical pesticides has large costs in purchasing pesticides and farmer labor. If this is not done, it will have an impact on reducing shallot crop production and even result in crop failure. This community service activity program aims to reduce the use of chemical pesticides for pest control, which of course can reduce the costs of purchasing pesticides and farmer labor. Apart from that, by reducing the use of chemical pesticides, those who consume shallots are healthier. By doing this, the Agro Makmur Farmers Group can maintain the shallot production yields by creating a pest control device or Caterpillar Pest Control (CPC) for solar cell-based shallot plants so that it is environmentally friendly.
Implementation of a Polycrystalline PV-Based PJU System to Support Mobility and Psychological Environmental Safety in Gondosuli Village Aryudho Widyatno; Fuad Indra Kusuma; Sucipto; Moh. Zainul Falah; Wahyu Tri Handoko; Farah Wardatul Afifah; Sujito
Bulletin of Community Engagement Vol. 4 No. 2 (2024): Bulletin of Community Engagement
Publisher : CV. Creative Tugu Pena

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51278/bce.v4i2.1349

Abstract

Public street lighting (PJU) is critical because it affects the safety and security of road users, particularly at night when appropriate lighting is required. Inadequate street illumination can be harmful to society, increasing the likelihood of accidents and street crime. Mr. Muhammad, the Head of Gondosuli Village in the Pakuniran district, underlines the need for public street lighting. In this context, public street lighting is particularly required for activities in the region at night, so that it can encourage tourism, security, accessibility, and increase community welfare because the existing street lighting in Gondosuli is very inadequate. As a result, these partners considered the development of public street lighting (PJU) as a critical necessity in the region. Polycrystalline photovoltaics (PV) are a form of solar cell that generates electricity from sunlight. Polycrystalline PV is made from a semiconductor material like silicon that has been manufactured into tiny wafers with crystals aligned in diverse directions. Solar Photovoltaic Power Generation (PLTS) systems utilize polycrystalline photovoltaics (polycrystalline PV).
Utilization of Electric Bicycle Trainers as Learning Media to Support the Challenges of the Industrial Revolution 4.0 at SMK N 2 Probolinggo Moh Zainul Falah; Wahyu Tri Handoko; Abdullah Iskandar Syah; Febiolola Milinia Triana; Ghasa Faraasyatul 'Alam; Fuad Indra Kusuma
Bulletin of Community Engagement Vol. 4 No. 3 (2024): Bulletin of Community Engagement
Publisher : CV. Creative Tugu Pena

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51278/bce.v4i3.1553

Abstract

In the contemporary era marked by the beginning of the Fourth Industrial Revolution (4.0), the world of education faces unprecedented challenges in preparing students to face the demands of a rapidly evolving technological and industrial environment. In response, educational institutions, especially vocational schools such as SMK N 2 Probolinggo, strive to improve the competencies of their students so that they can effectively navigate and contribute to the demands of the Industrial Revolution 4.0. This research initiative stems from the awareness of the critical need to align educational practices with emerging trends and the requirements of the contemporary industrial landscape. SMK N 2 Probolinggo recognizes the importance of equipping its students with relevant skills and competencies that will enable them to thrive in an industry marked by automation, digitalization, and technological advancement. The use of electric bicycle trainers as a new learning medium signifies a proactive approach in integrating innovative pedagogical methods with real-world technology applications. By utilizing electric bicycle trainers, students are provided with hands-on experiences that simulate real-world scenarios, enabling them to develop technical proficiency, problem-solving skills, and adaptability that are essential for success in the Industrial Revolution 4.0
Application of Smart Rice Transplanter (SRT) to Improve Efficiency and Yield in Agricultural Areas Salsabila Thifal Nabil Haq; Wahyu Tri Handoko; Moh Zainul Falah; Imam Tree Utomo; Akmah Atikah Amilia; Fuad Indra Kusuma
Bulletin of Community Engagement Vol. 4 No. 3 (2024): Bulletin of Community Engagement
Publisher : CV. Creative Tugu Pena

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51278/bce.v4i3.1554

Abstract

Seboro Village is located in Krejengan District, Probolinggo, East Java Province, with an area of ​​94.75 ha (4.50 mi²) consisting of residential land, agricultural land, public facilities, and plantations. The main agricultural products in Seboro Village are rice in the rainy season and tobacco in the dry season. Seboro Village agriculture plays a very important role in maintaining food security because rice is the main raw material for food and also as the main agricultural producer. In the process of planting rice in Seboro Village itself, it is still relatively traditional, only using hands for the planting process in rice fields, so it requires a lot of workers so that the rice seedling planting process is completed quickly. On the other hand, the planting distance between rice seedlings is not the same so that it can interfere with the growth process between rice plants. Therefore, this community service activity proposes a hand-pushed rice planting tool or Smart Rice Transplanter (SRT) which is a tool to help plant rice in agricultural land efficiently and effectively without having to involve many workers. By using the Smart Rice Transplanter (SRT), it can also produce maximum rice harvest production because there is a system for providing planting distance when planting rice seedlings.  
Integration of VSD-Based Spinner Machines to Increase Efficiency and Product Quality at Alfin Kripik Seboro UMKM Caesar Adlu Hakim; Moh. Zainul Falah; Wahyu Tri Handoko; Ghasa Faraasyatul ‘Alam; Raffi Taufik Gushardana; Sucipto
Bulletin of Community Engagement Vol. 4 No. 3 (2024): Bulletin of Community Engagement
Publisher : CV. Creative Tugu Pena

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51278/bce.v4i3.1555

Abstract

Alfin Seboro Kripik is a Micro, Small, and Medium Enterprise (UMKM) that is engaged in the production of Seboro chips, a traditional Indonesian snack made from cassava. Alfin Seboro Kripik strives to uphold its heritage while adapting to modern market demands. This UMKM uses manual and traditional methods to make its chips, relying on a manual process involving frying and seasoning. Despite its commitment to tradition, Alfin Seboro Kripik faces challenges related to product quality and efficiency in its production line. One important issue is the adhesion of oil to the chips after frying, which affects the taste and texture of the final product. Additionally, the lack of advanced machinery limits the company's ability to meet rising consumer expectations and compete effectively in the marketplace. Realizing the need for innovation and improvement, Alfin Seboro Keripik hopes that there will be efforts to integrate modern technology such as the Variable Speed Drive (VSD) Based Spinner Machine system into its production process. The introduction of VSD-driven spinning machines aims to improve oil removal efficiency, improve product consistency, and optimize production workflows. By embracing innovation, Alfin Seboro Kripik aims to improve quality standards, expand market reach, and contribute to the economic development of local communities.  
The Future of Islamic Education: Breaking Through Boundaries with Line Follower Robot Trainers Toward the Era of Society 5.0 Moh Zainul Falah; Wahyu Tri Handoko; Abdullah Iskandar Syah; Farah Wardatul Afifah; Satrio Dwi Sanjaya
Syaikhuna: Jurnal Pendidikan dan Pranata Islam Vol. 14 No. 02 (2023): October
Publisher : STAI Syaichona Moh. Cholil Bangkalan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58223/syaikhuna.v14i02.7114

Abstract

This research aims to identify and implement the Line Follower Robot Trainer as an innovative effort to advance Islamic education in facing the Society 5.0 era. The research focuses on SMK NU 1 Karanggeneng, Lamongan, as a case study, where robotic technology is used as a learning tool to integrate Islamic concepts with technological advances. This research proposes the Research and Development (R&D). The results showed that using the Line Follower Robot Trainer significantly improved students' understanding of their technological skills. The survey showed that most students (85%) felt more engaged and excited about learning Islam with the help of the Line Follower Robot Trainer. Students reported higher levels of engagement in learning with the robot, and teachers expressed positive support for using this technology in learning. These positive results reflect the potential of technology in enriching students' experiences in preparing for changes in the evolving Society 5.0 era. This research provides a greater understanding of the role of technology in supporting Islamic education, bridging the gap between tradition and innovation, and bringing Islamic education into an increasingly digitized future. The implications of this research can help Islamic education institutions utilize technology as a powerful tool to spread religious values and prepare students to face an increasingly digitally connected era.
Feasibility of Intelligent Electrical Installation Trainer to Support Industry 4.0 Competency for Students of SMK PGRI 3 Malang Wahyu Tri Handoko; Mohamad Rodhi Faiz; Mustafa Darmanto; Luthfianti Wahyu Noerlillah
Bulletin of Science Education Vol. 5 No. 2 (2025): Bulletin of Science Education
Publisher : CV. Creative Tugu Pena

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51278/bse.v5i2.1859

Abstract

The electricity industry is undergoing a transformation from conventional systems to intelligent, digitally connected, and efficient electrical networks, driven by rapid technological advancements in the Industry 4.0 era. As a result, professionals in this sector must acquire skills in emerging technologies such as automation, artificial intelligence (AI), and the Internet of Things (IoT). To address this evolving need, the Electric Power Generation study program at Vocational High School (SMK) PGRI 3 Malang has adopted a Project-Based Learning (PjBL) approach. This study investigates the feasibility and effectiveness of an Intelligent Electrical Installation trainer as a learning tool in supporting student competencies aligned with Industry 4.0 requirements. Initial observations indicated that students exhibited low interest and difficulty in understanding modern electrical systems. The implementation of PjBL is expected to increase student engagement and improve their technical capabilities in designing and implementing IoT- and automation-based electrical systems. The study employs a research and development (R&D) methodology using a branch-based ADDIE model (Analyze, Design, Develop, Implement, and Evaluate). Validation results show a high level of feasibility, with media and content experts rating it at 91.5% and student feedback at 88%. This research contributes to the field of vocational education by developing and validating an innovative, technology-driven instructional model tailored to Industry 4.0 demands. It offers practical insights into enhancing teaching strategies through project-based learning, thereby better preparing vocational students for the high-tech workforce.
Design and Construction of a Solar Power Plant (PLTS) in the 3T rea Tourist Houses of Gangga Murmas Trees Lombok Utara Falah, Moh. Zainul; Wahyu Tri Handoko; Ryan Kurniawan
Journal Electrical and Computer Experiences Vol. 1 No. 2 (2023): July-December
Publisher : Tinta Emas Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59535/jece.v1i2.182

Abstract

Indonesia has great potential for the development of Solar Power Plants (PLTS) thanks to its geographical condition which is located in a tropical area with sunshine all year round Average Daily Irradiation: Around 5-6 kWh/m² per day. This research aims to design and build an Off Grid Solar Power Plant (PLTS) that can meet electrical energy needs in underdeveloped, frontier and outermost areas (3T) in the Gangga Murmas Tree House tourist area, Lombok Utara. This area is known to have limited access to electricity from the main network, so the implementation of an Off Grid PLTS system is considered an effective and sustainable solution. The research method involves field surveys to identify environmental characteristics, energy needs, and electricity consumption patterns in the area. Next, an Off Grid PLTS system design analysis was carried out which included the selection of main components such as solar panels, energy storage batteries and charging controllers. System testing and evaluation is carried out to ensure optimal performance under local environmental conditions. It is hoped that the results of this research can make a significant contribution to the development of renewable energy in the 3T area, increase electricity accessibility, and support the sustainability of the Gangga Murmas Tree House tourist area. This PLTS is designed to meet electricity needs related to lighting at night in this tourist area, where currently there is no lighting at night. The power generated is 600 Wph with an electricity requirement of 120 Wh for 12 hours.
Solar Panel Analysis for Forecasting Solar Irradiation Using Fuzzy Time Series and ANN Methods Falah, Moh. Zainul; Wahyu Tri Handoko; Sujito; Abdullah Iskandar Syah; Muladi; Arif Nur Afandi
Journal Electrical and Computer Experiences Vol. 1 No. 2 (2023): July-December
Publisher : Tinta Emas Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59535/jece.v1i2.183

Abstract

Solar energy is very important because it is a renewable and environmentally friendly source of energy. The demand for solar energy is increasing every year because people are increasingly aware of the importance of using clean and sustainable energy sources. This study aims to analyze the performance of solar panels using a solar irradiation forecasting model developed by the Fuzzy Time Series and Artificial Neural Network (ANN) methods. Solar irradiation data obtained from measurement of solar irradiation by means of IoT is used as input in the forecasting model. The forecasting model is then tested to see its accuracy in predicting solar panel performance. The test results show that the developed forecasting model has high accuracy in predicting solar panel performance. Therefore, the Fuzzy Time Series and ANN methods can be used as an effective tool in analyzing the performance of solar panels by taking into account environmental factors that have an impact on electricity production from solar panels. This research can be a reference for solar panel developers to improve solar panel performance by utilizing solar irradiation forecasting information.
Co-Authors A.N. Afandi Abdullah Iskandar Syah Abdullah Iskandar Syah Abdullah Iskandar Syah Abdullah Iskandar Syah Achmad Imam Agung Aji Prasetya Wibawa Akmah Atikah Amilia Anik Nur Handayani Aryudho Widyatno Ashar, Muhammad Azhari, Muhammad Holqi Rizki Caesar Adlu Hakim Dhiyaurrahman Fakhruddin Didik Dwi Prasetya Faizah Nur Faridah Falah, Moh. Zainul Faraasyatul ‘Alam, Ghasa Farah Wardatul Afifah Farah Wardatul Afifah Farah Wardatul Afifah Farid Baskoro Febiolola Milinia Triana Fitri Zakiyatul Azizah Fuad Indra Kusuma Ghasa Faraasyatul 'Alam Ghasa Faraasyatul ‘Alam Hafid, Ahmad Imam Tree Utomo Iskandar Syah, Abdullah Joumil Aidil Saifuddin Khotibul Umam Langlang Gumilar Luthfianti Wahyu Noerlillah Mahendra Widyartono Ming Foey Teng, Ming Foey Moh Zainul Falah Moh Zainul Falah Moh Zainul Falah Moh Zainul Falah Moh. Zainul Falah Moh. Zainul Falah Mohamad Rodhi Faiz Muhammad Holqi Rizki Azhari Muhammad Sadidul Itqon Muladi Mustafa Darmanto Nanik Nor Laila Putri Galuh Ningtiaz Raffi Taufik Gushardana Rahmat Busono, Milzam Ryan Kurniawan Ryan Kurniawan Salsabila Thifal Nabil Haq Satrio Dwi Sanjaya Siti Sendari Sucipto Sucipto Sucipto Sucipto Sucipto Syamsul Arifin Unit Three Kartini Widiharso, Prasetya Zainul Falah, Moh.