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All Journal JOURNAL OF HEALTHCARE TECHNOLOGY AND MEDICINE JET (Journal of Electrical Technology) Unes Law Review INFOKUM Jurnal Scientia Instal : Jurnal Komputer International Journal of Educational Review, Law And Social Sciences (IJERLAS) Jurnal Ekonomi Sungkai sudo Jurnal Teknik Informatika Jurnal Nasional Teknologi Komputer Elektriese: Jurnal Sains dan Teknologi Elektro Jurnal Masyarakat Indonesia Jurnal Hasil Pengabdian Masyarakat (JURIBMAS) Jurnal Ilmu Psikologi dan Kesehatan Journal of Artificial Intelligence and Digital Business Journal of General Education Science Prosiding Seminar Nasional Teknik UISU (SEMNASTEK) International Journal of Economic, Technology and Social Sciences (Injects) Buletin Utama Teknik Power Elektronik : Jurnal Orang Elektro International Journal of Society and Law Proceedings of The International Conference on Computer Science, Engineering, Social Sciences, and Multidisciplinary Studies
Beni Satria
Universitas Pembangunan Panca Budi, Medan, North Sumatera, Indonesia
Religion Aerospace Engineering Agriculture, Biological Sciences & Forestry Arts Humanities Automotive Engineering Biochemistry, Genetics & Molecular Biology Chemical Engineering, Chemistry & Bioengineering Chemistry Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Earth & Planetary Sciences Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Environmental Science Health Professions Industrial & Manufacturing Engineering Languange, Linguistic, Communication & Media Law, Crime, Criminology & Criminal Justice Library & Information Science Materials Science & Nanotechnology Mathematics Mechanical Engineering Medicine & Pharmacology Nursing Physics Public Health Social Sciences Other

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Corporate Criminal Liability for Alleged Criminal Acts of Employing Medical and Health Workers Without Permission in Hospitals Beni Satria
International Journal of Society and Law Vol. 2 No. 3 (2024): December 2024
Publisher : Yayasan Multidimensi Kreatif

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61306/ijsl.v2i3.341

Abstract

Corporations as legal subjects not only carry out their activities in accordance with economic principles (seeking large profits) but also have an obligation to comply with legal regulations in the health sector used by the government to realize community welfare and social justice. The corporation as the maker, the management responsible for the criminal act can be committed by the association or business entity (corporation), but the responsibility for it is the burden of the management of the legal entity (corporation). Gradually, criminal responsibility shifts from the members of the board to those who order, or by the prohibition of doing so if they neglect to lead the corporation in practice. The purpose of the study: to understand the form of corporate responsibility as a legal entity of hospitals in employing medical personnel and health workers without practice licenses (permits) in hospitals. This study uses a descriptive analytical normative juridical approach with secondary data from literature studies through primary, secondary and tertiary legal materials related to corporate crimes, hospital legal entities, licensing of medical personnel and health workers in Indonesian criminal law. The data was analyzed using qualitative analysis. Conclusion: In the accountability system for hiring medical personnel and health workers without a practice license (permit), the corporation can become the perpetrator of the crime, but the responsible are the members of the management, as long as it is expressly stated in the regulation. Corporations as makers or those who give orders/orders to employ medical personnel and health workers to work without permission. Managers are appointed as responsible; What is seen as done by a corporation is what is done by the complementary tools of the corporation according to its authority based on its articles of association.
Analisa Penggunaan Daya Energi Listrik pada Gedung Perkantoran di CV. Pixxeled Indo Pratama Medan M. Syuhadawan Ismunandar; Beni Satria; Dino Erivianto
Elektriese: Jurnal Sains dan Teknologi Elektro Vol. 14 No. 02 (2024): Artikel Riset Edisi Oktober 2024
Publisher : Information Technology and Science (ITScience)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.47709/elektriese.v14i02.4649

Abstract

Analisis pemakaian energi merupakan aktifitas pemeriksaan berkala untuk ada atau tidaknya suatu penyimpangan dalam suatu kegiatan penggunaan energi. Analisis ini mencakup penentuan dan perhitungan total pemakaian energi dari seluruh perangkat yang digunakan di Gedung Kantor CV.Pixxeled Indo Pratama Medan. Penelitian ini bertujuan untuk mengetahui penggunaan dan biaya pemakaian energi listrik perhari hingga perbulan nya. Penelitian memutuskan untuk menggunakan metode penelitian kuantitatif dengan teknik pengambilan data observasi dan deskriptif. Adapun hasil yang di peroleh dari penelitian pada gedung kantor CV. Pixxeled Indo Pratama Medan dengan daya listrik yang terpakai perhari sebesar 82,824 kwh dengan tarif biaya sebesar Rp. 119.910,1,- dan 2,490 kWh perbulan dengan tarif biaya sebesar Rp. 3.597,303,- perbulan. Perlunya manajemen energi yang lebih efektif untuk mengoptimalkan penggunaan daya dan sirkulasi udara di CV. Pixxeled Indo Pratama Medan. Rekomendasi dapat mencakup penerapan teknologi ramah lingkungan, peningkatan efisiensi peralatan, serta pengelolaan operasional yang bijak guna mendukung keberlanjutan dan penghematan biaya.
An Analysis Of Solar Power Plan Optimization With Solar Reflector Angle Variation Based On IOT Selamat Riady Hutasuhut; Solly Aryza; Beni Satria
INFOKUM Vol. 13 No. 03 (2025): Infokum
Publisher : Sean Institute

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58471/infokum.v13i03.2821

Abstract

This study analyzes the optimization of solar power generation by varying the angle of solar reflectors based on the internet of things (iot). The research aims to determine the most effective reflector angle to maximize the efficiency of solar energy absorption in solar power plants. By utilizing iot technology, real-time monitoring and adjustment of the reflector angles can be achieved to enhance energy capture throughout the day. The methodology involves both experimental and simulation approaches to compare different angles under various environmental conditions. The results of the study indicate that optimal reflector angles significantly improve the overall efficiency of solar power generation. This research contributes to the development of more efficient and sustainable solar power systems by leveraging iot for precise and responsive control mechanisms.
Analysis of the Working System of a Carcinogenic Substance Neutralization Device (Smoke/Gas) in Enclosed Space Using an MQ2 Sensor Based on Arduino Uno Nuraprilyani Pasaribu; Beni Satria; Ahmad Dani
INFOKUM Vol. 13 No. 03 (2025): Infokum
Publisher : Sean Institute

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

Abstract

Air pollution in enclosed spaces, particularly from carcinogenic substances such as smoke and hazardous gases, poses significant health risks. Effective detection and neutralization of these harmful compounds are crucial to ensuring indoor air quality and human safety. This study analysed the working system of a carcinogenic substance neutralization device that utilizes an MQ2 gas sensor and Arduino Uno for real-time monitoring and control. The system is designed to detect the presence of carbon monoxide (CO), liquefied petroleum gas (LPG), smoke, and other harmful gases using the MQ2 sensor. When the sensor detects a gas concentration exceeding a predefined threshold, the Arduino Uno microcontroller triggers an exhaust fan or an air purification mechanism to neutralize the pollutants. The system also features a real-time display and an alarm to alert users of hazardous gas levels. The experimental results indicate that the MQ2 sensor effectively detects gas concentrations with a fast response time. The Arduino-based control system efficiently activates the neutralization process, improving air quality in enclosed spaces. The integration of this system with smart monitoring devices can enhance air pollution management in industrial, residential, and commercial environments. This paper contributes to the development of low-cost, automated air purification systems for enclosed spaces, with potential applications in health safety, environmental protection, and industrial settings. Future research may focus on integrating IoT-based remote monitoring and advanced filtration technologies to enhance the system’s efficiency and adaptability.
A Development IOT Based Real-Time Weather Monitoring System Using NodeMCU ESP32 and BMP280-DHT11 Sensor Beni Satria; Rahmaniar, Rahmaniar; M. Erpandi Dalimunthe; M. Iqbal; Berthauli. S
INFOKUM Vol. 13 No. 03 (2025): Infokum
Publisher : Sean Institute

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

Abstract

This research aims to develop an Internet of Things (IoT) based weather station using NodeMCU ESP32 microcontroller, BMP280 sensor, and DHT11 sensor. The main problem faced is the lack of weather monitoring system.real timewhich can be accessed remotely to support decision making based on current environmental conditions. To overcome this, this study designed a system that is able to automatically collect temperature, relative humidity, and atmospheric pressure data and transmit it to an online platform via a Wi-Fi connection. The collected data is displayed in graphical form on the application.Blynkto facilitate further analysis. The system testing was conducted for 21 days in Medan City with average air temperature measurements ranging from 29°C to 34°C and relative humidity between 63% and 76%. The preliminary results show that the system has a measurement accuracy of around 95%, with a fast and stable connection to the platformclouddepending on the quality of the internet service provider. This system allows monitoring of weather conditions in real time.real timevia Android or iOS devices, making it easy for users to monitor weather parameters from any location. This research not only proves the implementation of IoT in weather monitoring but also opens up opportunities for further development in environmental monitoring and resource management applications.
DC Motor Speed Control System Using Pulse Width Modulation (PWM) On Electric Motorcycles Beni Satria; Hermansyah Alam; Dalimunthe, Erpandi; M. Iqbal; Berthauli S.
International Journal of Economic, Technology and Social Sciences (Injects) Vol. 5 No. 2 (2024): October 2024
Publisher : CERED Indonesia Institute

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

Abstract

The need for efficient and environmentally friendly electric two-wheeled vehicles is increasing along with awareness of the impact of pollution. One of the main challenges in the development of electric vehicles is controlling the speed of DC motors precisely and efficiently. This study aims to design and implement a DC motor speed control system on a two-wheeled vehicle using the Pulse Width Modulation (PWM) method. PWM was chosen because of its ability to regulate motor power efficiently through variations in the width of the digital signal pulse, thereby reducing energy waste and excess heat. The research methods include designing a microcontroller-based PWM circuit, simulating system performance using MATLAB/Simulink software, and direct testing on DC motors with input voltage variations of 3–12 volts. The test results show that the system is able to produce a linear speed response, with an increase in motor rotation from 0 rpm at 3 volts to 1500 rpm at 12 volts. This system is also proven to be energy efficient with power efficiency reaching 85% and reducing motor heat by 20%. Thus, the implementation of PWM as a DC motor speed controller on a two-wheeled electric vehicle not only improves performance and responsiveness, but also contributes to environmental sustainability.
Analisa Penggunaan Daya Energi Listrik pada Gedung Perkantoran di CV. Pixxeled Indo Pratama Medan Ismunandar, M. Syuhadawan; Satria, Beni; Erivianto, Dino
Elektriese: Jurnal Sains dan Teknologi Elektro Vol. 14 No. 02 (2024): Artikel Riset Edisi Oktober 2024
Publisher : Yayasan Cita Cendekiawan Al Khwarizmi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.47709/elektriese.v14i02.4649

Abstract

Analisis pemakaian energi merupakan aktifitas pemeriksaan berkala untuk ada atau tidaknya suatu penyimpangan dalam suatu kegiatan penggunaan energi. Analisis ini mencakup penentuan dan perhitungan total pemakaian energi dari seluruh perangkat yang digunakan di Gedung Kantor CV.Pixxeled Indo Pratama Medan. Penelitian ini bertujuan untuk mengetahui penggunaan dan biaya pemakaian energi listrik perhari hingga perbulan nya. Penelitian memutuskan untuk menggunakan metode penelitian kuantitatif dengan teknik pengambilan data observasi dan deskriptif. Adapun hasil yang di peroleh dari penelitian pada gedung kantor CV. Pixxeled Indo Pratama Medan dengan daya listrik yang terpakai perhari sebesar 82,824 kwh dengan tarif biaya sebesar Rp. 119.910,1,- dan 2,490 kWh perbulan dengan tarif biaya sebesar Rp. 3.597,303,- perbulan. Perlunya manajemen energi yang lebih efektif untuk mengoptimalkan penggunaan daya dan sirkulasi udara di CV. Pixxeled Indo Pratama Medan. Rekomendasi dapat mencakup penerapan teknologi ramah lingkungan, peningkatan efisiensi peralatan, serta pengelolaan operasional yang bijak guna mendukung keberlanjutan dan penghematan biaya.
Modeling the Effect of Changes in Solar Radiation Rays on Solar Cell Output Using MATLAB/Simulink Ali Akbar Berutu; Ahmad Dani; Beni Satria
INFOKUM Vol. 13 No. 04 (2025): Infokum
Publisher : Sean Institute

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58471/infokum.v13i04.2805

Abstract

The intensity of solar radiation is the main factor that affects the performance of solar cells in generating electrical power. This study modeled the effect of solar radiation changes on the power output of solar panels using Matlab/Simulink, with solar radiation data from Nasa Power for the Tanjung Anom location. The simulation was carried out to measure the output power based on variations in solar radiation intensity and ambient temperature in the effective time range, namely 09.00 to 16.00. The results show that the intensity of solar radiation is directly proportional to the output power of solar panels. At the highest radiation intensity of 620.35 W/m², the maximum power produced reaches 107.6 W, with a voltage of 20.35 V and a current of 5.286 A. On the other hand, at the lowest radiation of 205.61 W/m², the power decreases to 11.94 W. The model successfully illustrates the linear relationship between solar radiation, voltage, current, and output power, and shows the sensitivity of solar panels to changes in environmental parameters. Using MATLAB/Simulink, this model can be used to design and optimize photovoltaic systems according to local conditions. This research makes an important contribution to a deep understanding of the characteristics of solar cells, as well as a reference in the development of more efficient and environmentally friendly solar energy systems.
Automatic Classification System Color Of Bottle Detection Tool Using Tcs3200 Sensor Based On Arduino Mulia Supiadi Silalahi; Solly Aryza; Beni Satria
INFOKUM Vol. 13 No. 02 (2025): Infokum
Publisher : Sean Institute

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

Abstract

The increasing demand for automation in industries has led to the development of efficient and cost-effective classification systems. This study focuses on designing and implementing an automatic bottle color classification system using the TCS3200 color sensor, integrated with Arduino microcontroller technology. The system aims to detect and classify bottle colors accurately to streamline industrial processes, such as packaging and sorting. The TCS3200 sensor, capable of detecting a wide spectrum of colors, serves as the primary sensing device. It converts light intensity into frequency signals, which are processed by the Arduino microcontroller to determine the color of the bottle. The classification process involves predefined thresholds for Red, Green, and Blue (RGB) components, allowing the system to categorize bottles into specific color groups. Experimental results demonstrate that the system achieves high accuracy in identifying bottle colors under varying lighting conditions. The system is also highly scalable, making it adaptable to different industrial needs. This research concludes that the proposed solution offers a reliable, efficient, and low-cost alternative for bottle color classification in automated industrial applications.
An Analysis Of Working System Carcinogenic Substance Neutralization Tool (Smoke/Gas) In A Closed Space Using An Arduino Uno-Based MQ3 Sensor Nuraprilyani Pasaribu; Beni Satria; Ahmad Dani
INFOKUM Vol. 13 No. 03 (2025): Infokum
Publisher : Sean Institute

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

Abstract

This study aims to analysed the working system of a carcinogenic substance neutralization device for smoke or gas in enclosed spaces, using an MQ3 sensor based on Arduino Uno. Carcinogenic substances in the form of smoke or gas can pose significant health risks, especially in areas with limited air circulation. The device developed in this research utilizes the MQ3 sensor to detect harmful gases, which are then processed through Arduino Uno to automatically activate the neutralization system. The research method involves the design, assembly, and testing of the neutralization system. The MQ3 sensor functions as a detector for hazardous gases at specific concentration levels, sending data to the Arduino Uno, which triggers the activation of a fan and air filter as the neutralization system. Testing was conducted in an enclosed space to evaluate the effectiveness of the system in reducing harmful gas concentrations over a given period. The results indicate that this neutralization device effectively detects and significantly reduces harmful gas concentrations. The MQ3 sensor is highly responsive to changes in gas levels, and the Arduino Uno-based system allows for efficient automated control. With these results, the device is expected to serve as a solution for improving indoor air quality and protecting users from exposure to carcinogenic substances.
Co-Authors Abdi Santoso Abdullah Muhazzir Abdullah Muhazzir Abdullah Muhazzir Adi Sastra P Tarigan Afandi, Reza Ahmad Daffa Ahmad Dani Ahmad Rizal Nurika Alam, Hermansyah Ali Akbar Berutu Alim Muflih Alprindo Sembiring Meliala Amani Darma Tarigan Amani Darma Trg Apriandi Apriandi Asni Ati Mutia Bahtera Kelana Berthauli S. Berthauli. S Bestari Putra Lase Bintang Tua Sitohang Dalimunthe, Erpandi Dedek Yuhendri Denny Syahputra Dicky Lesmana Dicky Lesmana Eddy Sutejo, Eddy Edward Bahar Ermando Sihombing Erpandi D Erpandi, M Erpita Samosir Fachry Reza Fitriani, Arifah Devi Gultom, Dedi Harianto Gustiar Martua Siregar Habib Syahputra Banurea Hafiz Al Hakim Nasution Haikal Nando Winata Haikal Nando Winata Haikal Nando Winata Hamdani Hamdani . Hamdani Hamdani Harahap, Juliandi Hermansyah Alam Hermansyah Alam Hermansyah Alam Ismunandar, M. Syuhadawan Jhon Wandes P. Hutagaol Jon Timo Bariman M Juneidi Injos II S Kristian Simanjuntak Lubis, Selly Annisa Lungguk Adi Saputra M Iqbal M. Erpandi Dalimunte M. Iqbal M. Irwansyah M. Syuhadawan Ismunandar Marthin Hotniel Marisi Arigatho Simbolon Maulana, M. Rizky Mery Sri Wahyuni Mery Sri Wahyuni Mery Sri Wahyuni Mhd Erpandi Dalimunthe Muhammad Erpandi Dalimunthe Muhammad Rizki Syahputera Mulia Supiadi Silalahi Nawawi, Ikram Novita Delima Siahaan Nugraha Krianto Siregar Nuraprilyani Pasaribu Parlin Siagian Pristisal Wibowo Putra, Bhima Andika Rahmaniar Rahmaniar Rahmaniar Rahmaniar, Rahmaniar Rakha Zahri Andresna Ramadhan, Aulia Redyanto Sidi Ricki Septiando Sinaga Risdawati, Irsyam Rizky Andromedha Persia Roni Afrizal Rudi Saputra S, Bertauli. Sabam Sitorus Samosir, Daniel Junaedi Samuel Sampe Tuah Purba Santiasih, Wayan Ary Selamat Riady Hutasuhut Shilvira, Ayu Sianturi, Barata Mandala Siddik, Muhammad Sidi, Redyanto Simanjorang, Asyiah Siregar, Khusnu Abdillah Siti Suriyatni Sitohang, Theresia Bornito Solly Aryza Stepanus.S, Ronaldo Sudomo Colombus Situmorang tarigan, Amani d Tarigan, Amani Darma W, Pristisal Yopi Andinata yulia, Luh Anggreni Zulkarnaen Lubis Zulkarnain Lubis