Article Per Year (5 Year)
p-Index From 2020 - 2025
3.323
P-Index
This Author published in this journals
All Journal Techno.Com: Jurnal Teknologi Informasi Proceeding of the Electrical Engineering Computer Science and Informatics SELAPARANG: Jurnal Pengabdian Masyarakat Berkemajuan Kilat MAESTRO Jurnal Rekayasa elektrika
Fath, Nifty
Universitas Budi Luhur
Agriculture, Biological Sciences & Forestry Automotive Engineering Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Environmental Science Health Professions Languange, Linguistic, Communication & Media Law, Crime, Criminology & Criminal Justice Medicine & Pharmacology Nursing Public Health Social Sciences Other

Published : 24 Documents Claim Missing Document
Claim Missing Document
Check
Articles

Found 24 Documents
Search

 1   2   3 
DESAIN RENOVASI SISTEM PENERANGAN BUATAN MASJID AL HASANAH, KELURAHAN KREO SELATAN, KECAMATAN LARANGAN, KOTA TANGERANG, BANTEN Nifty Fath; Anggraeni Dyah Susilowati; Harfa Iskandaria
SELAPARANG: Jurnal Pengabdian Masyarakat Berkemajuan Vol 6, No 3 (2022): September
Publisher : Universitas Muhammadiyah Mataram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31764/jpmb.v6i3.10364

Abstract

ABSTRAKMasjid merupakan tempat yang penting bagi umat islam sebagai wadah untuk melaksanakan ibadah dan kegiatan masyarakat. Namun seiring perkembangan waktu, kondisi masjid akan membutuhkan perbaikan agar seluruh kegiatan ibadah di masjid ini bisa berjalan. Salah satu aspek yang perlu diperhatikan demi menunjang  kenyamanan beraktivitas adalah sistem penerangan buatan.  Masjid Al Hasanah yang terletak di Gg. Sawo No 27 RT 001 RW 03 Kelurahan Kreo Selatan Kecamatan Larangan Kota Tangerang, Banten merupakan masjid yang aktif diisi oleh peribadatan dan kegiatan masyarakat. Saat ini, sistem penerangan yang terdapat di dalam masjid tersebut masih belum sesuai dengan standar SNI. Oleh karena itu, dalam kegiatan pengabdian masyarakat ini dirancanglah sebuah desain renovasi sistem penerangan buatan. Hasil yang diperoleh dari kegiatan ini adalah hasil perhitungan titik lampu, desain 3D, serta desain peletakan titik lampu. Kata kunci: renovasi; masjid; desain; penerangan buatan ABSTRACTThe mosque is an important place for Muslims as a place to carry out worship and community activities. However, over time, the condition of the mosque will require improvement so that all worship activities in this mosque can run. One aspect that needs to be considered in order to support the comfort of activities is the artificial lighting system. Al Hasanah Mosque which is located at Gg. Sawo No. 27 RT 001 RW 03 Kreo Selatan Village, Larangan District, Tangerang City, Banten is a mosque that is actively filled with worship and community activities. Currently, the lighting system in the mosque is still not in accordance with SNI standards. Therefore, in this community service activity, a design for the renovation of the artificial lighting system was designed. The results obtained from this activity are the results of the calculation of the light points, 3D designs, and the design of laying the light points. Keywords: renovation; mosque; design; artificial lighting
OTIMISASI DAYA PEMBANGKIT PADA WINDBELT GENEARTOR DENGAN METODE PERTURB & OBSERVE (P&O) Achmad Rizky; Sujono Sujono; Nifty Fath; Nazori AZ; Suwasti Broto
MAESTRO Vol 5 No 2 (2022): Jurnal Maestro Vol.5 No.2. Oktober 2022
Publisher : FAKULTAS TEKNIK UNIVERSITAS BUDI LUHUR

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

Abstract

Energi Baru Terbarukan (EBT) menjadi energi alternatif pengganti energi fosil karena ramah lingkungan dan tidak menghasilkan emisi karbon. Energi baru terbarukan merupakan energi yang berasal dari alam yang tersedia di bumi dalam jumlah yang besar, salah satu contoh pemanfaatan energi angin. Perlu dikembangkan energi angin menjadi energi listrik. Generator sabuk angin merupakan salah satu yang dapat memanfaatkan energi angin menjadi energi listrik. Sabuk angin dapat memanfaatkan gerak atau getaran pita yang tertiup oleh angin kemudian menggerakan magnet yang berada di dekat kumparan dan menginduksi kumparan tersebut sehingga menghasilkan arus listrik.Beberapa faktor yang memperngaruhi induksi GGL terbaik dari sebuha windbelt generator yaitu : ukuran pita, ukuran magnet, jumlah lilitan kumparan, dan keceptan angin. Agar daya yang dihasilakan sabuk angin tetap berada pada titik maksimum meskipun dengan kecepatan angin yang berubah-ubah maka diperlukan sebuah sistem Maksimum Power Point Tracking (MPPT). Oleh karena itu penelitian ini merancang sebuah sistem MPPT dengan menggunakan metode Perturb & Observe (P&O) dengan cara mengendalikan (tension) pita berdasarkan tegangan keluaran windbelt. Nilai rata-rata yang dihasilkan oleh windbelt generator sebesar 1,67 Volt pada pengujian sistem tanpa beban.Pada pengujian sistem menggunakan beban tegangan keluaran dari generator windbelt mengalami penuruan yang drstis karena arus yang dihasilkan sangan kecil sehingga tidak mampu melewati beban. Oleh karena itu penelitian ini merancang sebuah sistem MPPT dengan menggunakan metode Perturb & Observe (P&O) dengan cara mengendalikan (tension) pita berdasarkan tegangan keluaran windbelt. Nilai rata-rata yang dihasilkan oleh windbelt generator sebesar 1,67 Volt pada pengujian sistem tanpa beban. Pada pengujian sistem menggunakan beban tegangan keluaran dari generator windbelt mengalami penuruan yang drstis karena arus yang dihasilkan sangan kecil sehingga tidak mampu melewati beban.Oleh karena itu penelitian ini merancang sebuah sistem MPPT dengan menggunakan metode Perturb & Observe (P&O) dengan cara mengendalikan (tension) pita berdasarkan tegangan keluaran windbelt. Nilai rata-rata yang dihasilkan oleh windbelt generator sebesar 1,67 Volt pada pengujian sistem tanpa beban. Pada pengujian sistem menggunakan beban tegangan keluaran dari generator windbelt mengalami penuruan yang drstis karena arus yang dihasilkan sangan kecil sehingga tidak mampu melewati beban.
PERANCANGAN SISTEM PENDETEKSIAN OBYEK BOLA DENGAN METODE FRAMEWORK YOLOv4 Jalu Nuralim; Nifty Fath; Akhmad Musafa; Sujono Sujono; Suwasti Broto
MAESTRO Vol 5 No 2 (2022): Jurnal Maestro Vol.5 No.2. Oktober 2022
Publisher : FAKULTAS TEKNIK UNIVERSITAS BUDI LUHUR

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

Abstract

In this final project, a spherical object detection system has been designed in which the final result will display the class name according to the detected object and a bounding box on the object indicating the object is detected accordingly. What will be done from having a dataset of 202 images and divided into 70% training data, 20% validation data, 10% test data. By using the YOLOv4 method, it is hoped that the detection of spherical objects will be more efficient in detecting an object that is needed, the final result of the implementation of this spherical object detection system will display a bounding box and the accuracy of objects detected on the laptop screen for testing and analysis results of the YOLOv4 method performance system. done by confusion matrix which calculates the results of accuracy, recall, precision and there are several tests to find out with different conditions the system can detect an object. In the first test, the ball was detected by being blocked by another object in the percentage value of 50%, 60%, 70% of the system being able to detect a ball object that was blocked by another object, then with an obstacle value of 80%, 90%, 100% the system could not detect a ball object.
ANALISA KINERJA MONITORING SUHU DAN KELEMBAPAN TANAH BERBASIS IOT PADA ALAT PENYIRAMAN OTOMATIS TANAMAN CABAI DI DALAM GREEN HOUSE Faisal Adi Putra Tomyka Ode; Eka Purwa Laksana; Nifty Fath; Suwasti Broto; Indra Riyanto
MAESTRO Vol 6 No 1 (2023): Jurnal Maestro Vol.6 No.1. April 2023
Publisher : FAKULTAS TEKNIK UNIVERSITAS BUDI LUHUR

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

Abstract

Chili plants really need to be considered both in terms of planting or watering, but they really need a place that has good soil levels and an ambient temperature that is not too hot or cold. If these plants can be watered automatically, it is likely that the quality of the plants will be good and will get good results. This study aims to design an automatic watering device that will be monitored remotely so that soil moisture is maintained. Where this final project has designed an automatic watering device and keeps the temperature inside the Green House automatically based on IoT and a monitoring system based on several prototypes controlled by Arduino mega2560 and NodeMCU ESP8266 as a data sending tool and connecting to Thinger.io which functions to display data, the pump will active to water the plants when the sensor value reading is above or more than 70% and the pump will stop when the sensor reading value is below or more than 50%, then the fan will turn on when the temperature value inside the green house is more than 28 degrees Celsius and the fan will turn off when the temperature value inside the green house is less than 28 degrees Celsius. The Soil Mousture sensor functions as a reader of the humidity value in chili plants and the DHT11 sensor as a reader of the temperature value in the Green House. Based on the TIPHON standard, QoS testing of monitoring system communications is included in the good category, for throughput testing the index value is 4, packet loss index value is 4, delay index value is 1, and jitter index value is 1.
Implementasi Bat Algorithm dalam Optimasi Penempatan Femtocell Nifty Fath; Eka Purwa Laksana; Rummi Sirait
Jurnal Rekayasa Elektrika Vol 14, No 3 (2018)
Publisher : Universitas Syiah Kuala

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (618.673 KB) | DOI: 10.17529/jre.v14i3.12150

Abstract

Femtocell has been considered as an important technology to increase the cellular system capacity by bringing the base station closer to the user and shrinking the cell dimension. Basically, femtocell networks are deployed in indoor environment such as an office. Thus, femtocell placement problems are one of the important issues in planning the wireless networks, since the manual planning processes are not efficient. In this paper, the solution of femtocell placement problem in an indoor environment is solved by bat algorithm. Selecting the best position of the femtocell is the main objective so the capacity can be maximized. In a 100 trial study, the SNR can be optimized up to 34.89 dB. In conclusion, the bat algorithm is able to improve the SNR efficiently and effectively.
Potential Usage of Solar Energy as a Renewable Energy Source in Petukangan Utara, South Jakarta Eka Purwa Laksana; Yani Prabowo; Sujono Sujono; Rummi Sirait; Nifty Fath; Ardyono Priyadi; Mauridhi Hery Purnomo
Jurnal Rekayasa Elektrika Vol 17, No 4 (2021)
Publisher : Universitas Syiah Kuala

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (991.137 KB) | DOI: 10.17529/jre.v17i4.22538

Abstract

Indonesia is a tropical country located on the equator. The average intensity of solar radiation in Indonesia is 4.8 kWh/m2. This makes Indonesia a country with new and ren ewable energy potential, one of which is solar panel technology. The first step that must be done in the process of installing solar panels in a place is to analyze the potential of solar energy. In this study, an analysis of the potential of solar energy as a new renewable energy source has been carried out at Budi Luhur University, North Petukangan, South Jakarta. Based on the research results, the maximum photovoltaic efficiency that can be achieved is 21.45%. During the day, the efficiency of the solar panels increases along with the ncrease in the value of the voltage obtained. However, the higher the panel temperature, the lower the efficiency of the solar panel. Therefore, a cooling system is needed to anticipate this.
PENINGKATAN PEMAHAMAN TENTANG SMART LIGHTING BERBASIS INTERNET OF THINGS UNTUK EFISIENSI BANGUNAN HEMAT ENERGI KEPADA SISWA SMA BUDI LUHUR TANGERANG Nifty Fath; Peby Wahyu Purnawan; Inggit Musdinar Sayekti Sihing Yang Mawantu
SELAPARANG: Jurnal Pengabdian Masyarakat Berkemajuan Vol 7, No 3 (2023): September
Publisher : Universitas Muhammadiyah Mataram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31764/jpmb.v7i3.17218

Abstract

ABSTRAKKegiatan pengabdian kepada masyarakat (PkM) yang telah dilakukan bertemakan smart lighting berbasis internet of things guna memberikan wawasan dan kemampuan untuk merancang smart lighting yang dapat diaplikasikan di rumah. Kegiatan ini telah dilaksanakan di SMA Budi Luhur, Kecamatan Karang Tengah, Kota Tangerang, Banten. Kegiatan PkM ini dilaksanakan dalam kurun waktu 4 bulan, dimulai dari bulan Maret 2023 sampai dengan Juni 2023. Berdasarkan diskusi langsung dengan salah satu guru di SMA Budi Luhur, dapat disimpulkan permintaan kebutuhan solusi permasalahan dari mitra terkait dengan pemahaman bangunan energi dan penerapannya bagi siswa. Oleh karena itu, telah dilakukan penyusunan strategi persiapan kegiatan, proposal kegiatan pelaksanaan PkM, dan materi serta perlengkapan yang disampaikan ke peserta kegiatan siswa/i SMA Budi Luhur. Kegiatan pengabdian kepada masyarakat telah dilaksanakan dalam bentuk workshop mengenai pemahaman teori IoT guna meningkatkan efisiensi bangunan hemat energi dengan agenda pemaparan dan praktek perancangan IoT secara langsung. Dalam kegiatan PkM yang diusulkan ini, program lebih difokuskan pada pendampingan siswa/i sehingga para peserta memiliki skill kemampuan untuk menciptakan dan mengaplikasikan IoT dalam rangka efisiensi bangunan hemat energi. Kata kunci: IoT; hemat energi; pencahayaan alami; smart lighting; workshop. ABSTRACTCommunity service activities that have been carried out with the theme "Understanding of Internet of Things-Based Smart Lighting for Energy-Saving Building Efficiency for Budi Luhur Tangerang High School Students" to provide insight and skills in the ability to design smart lighting that can be applied at home. This activity was carried out at Budi Luhur High School, Karang Tengah District, Tangerang City, Banten. This PkM activity was carried out over a period of 4 months, starting from March 2023 to June 2023. Based on direct discussions with one of the teachers at Budi Luhur High School, it can be concluded that requests for solutions to problems from partners are related to understanding energy building and its application to students. Therefore, the next step is to formulate an activity preparation strategy, a proposal for the Community Service Program implementation activities, and materials and equipment to be delivered to the participants in the Budi Luhur High School student activities. Community service activities have been carried out in the form of workshops on understanding IoT theory in order to increase the efficiency of energy-efficient buildings with an agenda of direct presentation and practice of IoT design. In this proposed PkM activity, the program is more focused on assisting students so that participants have the skills to create and apply IoT in the framework of energy-efficient building efficiency. Keywords: IoT; energy saving; natural lighting; smart lighting; workshops.
BIKE RENTAL LOCATION TRACKING SYSTEM WITH INTERNET OF THINGS IMPLEMENTATION Fikri Hidayatulloh; Peby Wahyu Purnawan; Indra Riyanto; Nifty Fath; Suwasti Broto
MAESTRO Vol 6 No No 2 (2023): Vol.6 No. 2. Oktober 2023
Publisher : FAKULTAS TEKNIK UNIVERSITAS BUDI LUHUR

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

Abstract

The situation of bicycle rentals in the tourist spots of the old city, there is one bicycle rental company whose locations are scattered at several points in the old city, the bicycles used are ontel bicycles. Bike rentals are guarded by several people with the aim of maintaining bicycles. The design of a GPS system on bicycles that can be controlled through a hosting application, consists of two main parts, namely the design of the hardware to provide GPS on bicycles, through the hosting application and the software for the control system. The concept used for the process of granting gps is with two parts, namely Node and Gateway. The NEO 6M GPS module functions as a bicycle monitoring and is used for long-distance communication links. A system that has been comprehensively tested both in terms of accuracy and internet of things (IOT). Conduct GPS Tracker testing on bicycles in the Kota Tua area to find out how accurate the GPS Tracker is in determining the location of bicycles in the Kota Tua area. The test will produce the number of location points collected by the Neo 6M GPS while traveling in the Kota Tua area, the more point data collected, the better the precision and accuracy. The test results will also show bicycle trips in the Kota Tua area. From the results of an analysis of the Internet of Things on the GPS Tracker device, everything works well and is in line with expectations. Communication between the Sim 800L and Website Hosting has a delay. Making this system requires several components, such as Arduino Uno as the brain of the GPS Tracker device and also the GPS module. Neo 6M to get the coordinates from the satellite. For sending data to the server using the GPRS Sim 800L module, the system can display geofencing of the location of the bicycle on the monitoring map so that users can find out where the bicycle is even though the bicycle is rented out. The alert system can display notifications when the bicycle is outside the geofencing area "the bicycle has exceeded the geofencing area"
RANCANG BANGUN DIGITAL SIGNAGE SEBAGAI PAPAN INFORMASI KEHADIRAN ASISTEN LABORATORIUM BERBASIS RFID Rizqina Rihadatul 'Aisy; Nifty Fath; Eka Purwa Laksana
MAESTRO Vol 6 No No 2 (2023): Vol.6 No. 2. Oktober 2023
Publisher : FAKULTAS TEKNIK UNIVERSITAS BUDI LUHUR

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

Abstract

The laboratory has information that must be updated frequently to provide students with information regarding the presence of laboratory assistants. Therefore, in this study, digital signage will be used as an information medium that can display laboratory assistant presence data in real-time. Through digital signage, laboratory assistant presence information can be displayed digitally and accurately. The initial step of the program is to initiate the database. After the E-KTP is attached to the RFID, the database will check whether the identity on the card is recognized or not. If the card is registered on the attendance form, it will be displayed on digital signage. Based on the test results, the use of digital signage as an information board based on RFID as a method of identifying the presence of laboratory assistants has given good results. This system can display real-time and accurate attendance information through digital signage. In addition to testing the duration of the RFID reading when exposed to obstacles in the form of plywood and acrylic and when not exposed to obstacles, it shows variations in reading duration depending on the surrounding environment of the RFID reader. Furthermore, Quality of Service (QoS) testing was carried out, which showed very good results according to TIPHON standards. The test results show the lowest delay in the morning using a tethering network with a value of 11 ms and the highest throughput in the morning using a tethering network with a value of 736.649 bits/s. Packet loss and jitter are 0 each time.
Rancang Bangun Alat Monitoring dan Proteksi Kapasitor Bank Berbasis Internet of Things Yayan Sopyan; Peby Wahyu Purnawan; Nifty Fath
MAESTRO Vol 6 No No 2 (2023): Vol.6 No. 2. Oktober 2023
Publisher : FAKULTAS TEKNIK UNIVERSITAS BUDI LUHUR

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

Abstract

ABSTRACT Capacitor bank is one of the electrical equipment that is needed in a building to improve the quality of the power factor so that the performance of other electrical equipment can be maintained properly. However, in the operation of capacitor banks, capacitors often overheat, resulting in explosions and then fires, as happened in a mall in the Depok area and the eastern part of Jakarta. Based on these problems, research was carried out to monitor and protect capacitor banks with Internet of Things (IoT) technology and the DS18B20 temperature sensor. The research only reached the prototype of the building's electrical network. The DS18B20 sensor attached to the capacitor body reads the temperature of the capacitor and the PZEM004T and SCT013 reads electrical parameters. The DS18B20 sensor functions as a temperature reader from the capacitor and the temperature reading results will be sent to the Arduino Mega which has been programmed. If the capacitor is in operational condition but the capacitor temperature is read above 70⁰C then to protect the capacitor, Arduino Mega will order the relay to cut off the flow of electricity to terminal Coil A1 Contactor so that the capacitor is Off (no electric power). At the same time PZEM004T via SCT013 will read electrical parameters such as power factor, current, power, voltage and Kwh. If the power factor reading is <0.8 then to improve the power factor, Arduino Mega will instruct the relay to activate the capacitor but with the condition that the temperature of the capacitor does not exceed 70⁰C. Capacitor temperature readings and electrical parameter readings will be displayed by Arduino Mega to the LCD screen as well as to one of the Internet of Things platforms, namely the Thingspeak application as a monitoring facility. ESP 8266 is a WIFI chip with the TCP/IP Stack protocol that will receive data from Arduino Mega in the form of electrical parameters and temperature of the capacitor and then the data will be sent to the IOT Cloud platform via the internet network using the API KEY (Application Programming Interface) which is the API between interface that can connect one application to another. Data requests by mobile phones and PCs use the IOT (Thingspeak) platform with an API as the link. The results obtained with the design of an internet of things-based capacitor bank monitoring and protection device besides facilitating monitoring in real time easily can also prevent unwanted things such as capacitor explosions.
Co-Authors Achmad Rizky Achmad Rizky Angga Permana Anggraeni Dyah S Ardyono Priyadi Aulia Rakhman Broto, Suwasti Dwiyanto, Damar Faisal Adi Putra Tomyka Ode Fikri Hidayatulloh Harfa Iskandaria Indra Riyanto Inggit Musdinar Sayekti Sihing Yang Mawantu Jalu Nuralim Laksana, Eka Purwa Mauridhi Hery Purnomo Muqod, Syahrinnuar Musafa, Akhmad Nazori AZ Peby Wahyu Purnawan Reno Ardiansyah Rifqi Putra Riswarta Rizqina Rihadatul 'Aisy Rummi Santi Rama Sirait Rummi Sirait Sendy Maulana Sujono Sujono Sujono Sujono Suwasti Broto Tri Visenno Yani Prabowo Yayan Sopyan zaki, Achmad zaidan