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Mohammad Shihab
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President University Master of Technology Management Program Jalan Ki Hajar Dewantara Mekarmukti Cikarang Utara, Bekasi, Jawa Barat Indonesia
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JEEE- Journal of Electrical And Electronics Engineering
Published by President University
ISSN : 25279432     EISSN : 25281232     DOI : -
Core Subject : Engineering,
Aerospace Engineering Chemical Engineering, Chemistry & Bioengineering
JOURNAL OF ELECTRICAL AND ELECTRONICS ENGINEERING merupakan jurnal keilmuan bidang Teknik Elektro yang memuat tulisan-tulisan ilmiah mengenai penelitian-penelitian murni dan terapan serta ulasan-ulasan umum tentang perkembangan teori, metode dan ilmu-ilmu terapan terkait.
Arjuna Subject : Teknik (semua kategori) - Teknik Listrik dan Elektro
Articles 5 Documents
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Search results for , issue "Vol 1, No 2 (2016): JOURNAL OF ELECTRICAL AND ELECTRONICS ENGINEERING" : 5 Documents clear
Design and Construct Water Levitation Module with Arduino Uno Zaiul Farhan; Antonius Suhartomo
Journal of Electrical And Electronics Engineering Vol 1, No 2 (2016): JOURNAL OF ELECTRICAL AND ELECTRONICS ENGINEERING
Publisher : President University

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (758.744 KB) | DOI: 10.33021/jeee.v1i2.191

Abstract

Sound is exotic thing that ready to be researched and explored. Although many researches were done on this theme, there are still many things that can be obtained when researching about sound. For example, levitate things with ultrasonic frequency. It is amazing that sound, which is like a vibe, can levitate things. From that idea, the writer fascinated to construct the water levitation circuit. In this project, with Arduino and a strobe light, the writer creates a design that makes it possible to see the water levitation phenomenon with using audible frequency.The device provides an optical illusion, so the blink of LED that hit droplets from tube, pumped by water pump, looks like levitate with human eyes.  This method can show the variations of water levitation phenomena with correct time setting of the blinking LED and frequency setting of the speaker. The synchronization frequency of LED and speaker will make the water stay. But, frequency of the LED higher than the speaker, then it will make droplets ascend and vice versa, if frequency of LED lower than the speaker, it will make droplets descend as normally it does.Keywords: strobe light, sound, droplets, levitation, optical illusion, LED.
A Remote Controlled Car Using Wireless Technology Joni Welman Simatupang; Michael Yosua
Journal of Electrical And Electronics Engineering Vol 1, No 2 (2016): JOURNAL OF ELECTRICAL AND ELECTRONICS ENGINEERING
Publisher : President University

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (934.577 KB) | DOI: 10.33021/jeee.v1i2.192

Abstract

Automation or automatic control is the use of various control system for operating any equipment or device such as a remote controlled (toy) car, switching on telephone networks, and other useful applications with minimal or reduced human interventions. This paper proposes a design and implementation of a remote controlled car by wi-fi technology via computer or mobile devices. In completing this research work, wireless software and hardware technologies have been used, such as wireless module of ESP8266 for transceiver (transmitter and receiver), Arduino Uno as microcontroller, an H-bridge L293D IC for motor controller, and two electric DC motors are used to move the automobile. Two objectives of this project are to expand the limitation range of a normal radio  frequency car using wi-fi technology and also to create a ubiquitous technology for automobile that operates in daily life with a control system. The test result shows that the controlled car can move in any direction. However, the performance depends on the device signal strength where the maximum testing range is only about 20 meters’ distance from the user’s location.Keywords: automation, wi-fi technology, remote controlled car, Arduino, signal strength.
Parking Assistance with ATMega16 Microcontroller Dea Rizki Febrianti Tawakal; Erwin Sitompul
Journal of Electrical And Electronics Engineering Vol 1, No 2 (2016): JOURNAL OF ELECTRICAL AND ELECTRONICS ENGINEERING
Publisher : President University

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (575.366 KB) | DOI: 10.33021/jeee.v1i2.179

Abstract

Nowadays safety becomes an increasing important factor in developing cars. Measures come in the form of physical strengthening and diagnostics improvement of the car. One way to improve the safety of a car is by implementing a car parking assistance. Although it already becomes a standard feature in some cars, the additional charge for the customers is still considerably high.  This condition motivates the author to develop and implement a car parking assistance with affordable price and suitable for any types of car. The proposed system utilizes the ATmega16 Microcontroller and an ultrasonic sensor. The ultrasonic has a transmitter that produces a pulse in every 62.5 ms, and a receiver that detects the reflected pulse. The time of wave travel and thus the distance can be deduced. An LCD and a LED indicate the presence of object in front of the ultrasonic sensor. The resulting prototype proved that a car parking assistance can be made with low cost. Besides, it can be installed in any car with minimal adjustment.
Analisis Sentimen Media Sosial Opini Ujian Nasional Berbasis Komputer menggunakan Metoda Naive Bayes Fajar Priyono; Surti Kanti; Iqbal Dzulfiqar I; Imam Amirulloh; Endang Sri P; Alvi Alvi; Didi Rosiyadi
Journal of Electrical And Electronics Engineering Vol 1, No 2 (2016): JOURNAL OF ELECTRICAL AND ELECTRONICS ENGINEERING
Publisher : President University

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (519.105 KB) | DOI: 10.33021/jeee.v1i2.189

Abstract

Ujian Nasional merupakan proses tolak ukur kemampuan hasil belajar siswa dan siswi selama proses belajar di sekolah, seiring perkembangan zaman, terdapat perubahan pada proses ujian nasional, yaitu sistem pengerjaan ujian nasional secara terkomputerisasi atau dapat di sebut dengan Computer Based Test (CBT). Dengan adanya Ujian Nasioal Berbasis komputer tentu menjadi bahasan-bahasan baru bagi masyarakat, baik bahasan pro dan kontra sehingga banyak masyarakat yang melontarkan opini-opininya melalui media sosial. Penelitian ini telah membahas mengenai analisa sentimen opini ujian nasional berbasis komputer. Sample yang di ambil sebanyak 181 kalimat sentimen yang di olah menggunakan algoritma Naive Bayes dengan mengelompokkan data menjadi tiga kelas Sentimen Positif, Netral, Negatif. Hasil pengolahan data menunjukan kelas sentimen netral memiliki nilai tertinggi sebesar 79% dan nilai terendah di peroleh kelas negatif dengan nilai 0.09%. Sedangkan tingkat akurasi ketiga kelas sentimen mencapai 100%.Keywords— Naive Bayes, Opini, Sentimen, Twitter The National exam is a benchmark of students’ learning capability result during learning process in schools. As the era develops, national exam is changing in its process. Nowadays, the test uses Computer Based Test (CBT) system. The existence of this system leads to new topics for society. Consequently, pro and contra opinions are thrown by them through social media. Therefore, this research discuses about analyses of sentiment opinions on CBT national exam. Naive Bayes’ Algorithm is used for processing 181 data samples in form of sentiment sentences. The data samples are grouped into three classess; Positive, Neutral, and Negative. The results of data processing have shown that Neutral sentiment gains the highest percentage 79% while the Negative sentiment is the lowest with value 0.09% Overall, accuracy degree of the three sentiment classes reach 100%.Keywords— Naive Bayes, Opini, Sentimen, Twitter
Smart Trash Bin With Solar Cell Mia Galina; Ulfa Dwinda Umar
Journal of Electrical And Electronics Engineering Vol 1, No 2 (2016): JOURNAL OF ELECTRICAL AND ELECTRONICS ENGINEERING
Publisher : President University

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (609.086 KB) | DOI: 10.33021/jeee.v1i2.190

Abstract

Smart Trash Bin with Solar Cell is a device which can help the people to increase their awareness about environmental hygiene. With an automatic lid and volume level indicators, people do not need to touch the lid to open it and check whether the bin is already full or not. This smart trash bin will send alerts when they are getting full. If the first ultrasonic sensor detected an object, the automatic lid will be open, while the second ultrasonic sensor detect inside of the trash bin whether it is already half full, half-quarter full or totally full to trigger the indicator to start working. The automatic lid and volume level indicators will be implemented by using Arduino UNO program. And due to the eco-friendly consideration, this device uses a solar cell to produce power to activate it.Keywords: Smart Trash Bin, Ultrasonic Sensor, Servo Motor, Solar Cell, Environmental Awareness

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