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Development of Radar and Navigation Radar Modules As A Learning Media Radar Course And Navigation In The Department Of Electrical Engineering, UNESA Farid . Baskoro
INAJEEE (Indonesian Journal of Electrical and Electronics Engineering) Vol. 1 No. 1 (2018)
Publisher : Department of Electrical Engineering, Faculty of Engineering, Universitas Negeri Surabaya

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

Abstract

AbstractRADAR (Radio Detection And Ranging) is a tool used to detect and know the distance of an object.Radar is one of the important tools in the world of telecommunications, shipping and in the militaryworld. So that the State University of Surabaya, especially the Department of Electrical Engineeringeducation set Radar and Navigation as One of the compulsory lecture that must be taken in the field ofcommunication electronics studies. In this study the author tries to develop teaching module to facilitatestudents in studying radar and navigation subjects. Where in the module consists of 7 chapters namelyRadar History, Radar Type, In Flight Radar, Navigation System, Infrastructure Radar, Hadware radar, andRadar Calibration and Radar Technique. The results of this module are then validated by expert lecturersand giving a student response questionnaire. Results for module validation by expert media obtained anaverage score of 84.06% for student responses in an average score of 83.21%. Based on the above datacan be stated that the module is suitable to be used as one of the reference and can be accepted by thestudents.Keywords: Radar. Radar Type, Teaching Module, Radar Infrastructure
Perancangan dan Simulasi Sistem Lampu Lalu Lintas 4 Arah dengan Menggunakan Programmable logic Controller Omron CP1E dengan Tampilan Cx-Designer Rifqi Firmansyah; Farid Baskoro; Bagus Rio Rynaldo
INAJEEE (Indonesian Journal of Electrical and Electronics Engineering) Vol. 1 No. 2 (2018)
Publisher : Department of Electrical Engineering, Faculty of Engineering, Universitas Negeri Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26740/inajeee.v1n2.p13-18

Abstract

Kepadatan arus lalu lintas di jalan raya khususnya di kota-kota besar di Indonesia telah menjadi permasalahan yang serius. Hal tersebut disebabkan oleh beberapa faktor antara lain: faktor manusia, faktor jalan, faktor lingkungan. Kemacetan lalu lintas pun sering terjadi dipersimpangan jalan ataupun perempatan jalan. Pada persimpangan/perempatan jalan volume kendaraan tidak sama antara satu dengan yang lainnya. Pada makalah ini, dirancang suatu sistem lampu lalu lintas 4 arah dengan menggunakan programmable logic controller  (PLC) omron CP1E. selain itu ditambahkan pula antarmuka agar sistem dapat memantau kepadatan arus lalu lintas dan dapat memberikan tindakan khusus berupa perubahan waktu ditiap-tiap lampu lalu lintas. Antar muka pada penelitian ini menggunakan Human machine interface (HMI) CX-Designer.
Prototype Smarthome dengan Catatan Waktu saat Membuka Pintu dan Kontrol Nyala Lampu Berbasis Internet Of Things Farid Baskoro; Arif Widodo; Rifqi Firmansyah; Aristyawan Putra Nurdiansyah
INAJEEE (Indonesian Journal of Electrical and Electronics Engineering) Vol. 2 No. 1 (2019)
Publisher : Department of Electrical Engineering, Faculty of Engineering, Universitas Negeri Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26740/inajeee.v2n1.p29-34

Abstract

Abstak - Internet of things (IOT) merupakan hal yang sudah tidak bisa dihindari. Semakin bertambahnya tahun, kebutuhan menggunakan IOT semakin meningkat. IOT mampu diaplikasikan dalam banyak hal termasuk dalam pelayanan rumah atau biasa disebut dengan smarthome. Oleh karena itu, penelitian kali ini akan memanfaatkan IOT sebagai pelayanan keamanan rumah. Tidak hanya diterapkan sebagai pelayanan keamanan rumah, tetapi penelitian kali ini juga menerapkan IOT kedalam sistem penerangan rumah. Hasil dari penelitian menunjukan bahwa sistem keamanan rumah berfungsi dengan baik dengan pengiriman data waktu serta identitas diri saat memasuki rumah, dan nyala atau mati lampu rumah mampu dikontrol menggunakan internet.
Klasifikasi Osteoarthritis Berbasis Dual Tree Complex Wavelet Transform dan Contrast Limited Adaptive Histogram Equalization (CLAHE) Menggunakan Active Shape Models Mohammad Meizaki Fatihin; Farid Baskoro; Arif Widodo
INAJEEE (Indonesian Journal of Electrical and Electronics Engineering) Vol. 3 No. 1 (2020)
Publisher : Department of Electrical Engineering, Faculty of Engineering, Universitas Negeri Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26740/inajeee.v3n1.p15-24

Abstract

Citra adalah representasi dari informasi yang terkandung di dalamnya sehingga mata manusia dapat menganalisis dan menafsirkan informasi sesuai dengan tujuan yang diharapkan. Salah satu bentuk citra medis adalah citra x-ray. Penelitian ini mengidentifikasi gambar x-ray Osteoarthritis Lutut yang diambil pada berbagai tingkat keparahan, mulai dari KL-Grade 0 hingga KL-Grade 4. Penelitian ini menggunakan metode CLAHE dan DTCWT untuk proses preprosessing dan menggunakan metode Active Shape Model (ASM) untuk proses segmentasi, menggunakan 35 data pelatihan dan 200 data uji dari Osteoarthritis Initiative (OAI). Pengujian citra uji dalam penelitian ini dengan mengekstraksi tekstur citra menggunakan metode GLCM dan segmentasi citra menggunakan ASM, sehingga proses scanning untuk penentuan titik-titik yang berfungsi untuk mengukur ketebalan cartilage. Hasil Ekstraksi tekstur memiliki tingkat akurasi klasifikasi KL-Grade 0 57,5%, KL-Grade 1 memiliki akurasi 33.3%, KL-Grade 2 37,5%, KL-Grade 3 37,5% dan KL-Grade 4 34,3 %. Sedangkan untuk pengukuran ketebalan tulang rawan memiliki akurasi klasifikasi untuk KL-Grade 0 sebesar 62.5%, kemudian KL-Grade 1 sebesar 44.4 %, sedangkan untuk KL-Grade 2 memiliki keberhasilan klasifikasi 60%, kemudian KL-Grade 3 memiliki klasifikasi berhasil dengan benar 70%, dan untuk KL-Grade 4 51.4%.
Study Comparative of Antenna for Microwave Imaging Applications Rachmat Agus Kurdyanto; Nurhayati Nurhayati; Puput Wanarti Rusimamto; Farid Baskoro
INAJEEE (Indonesian Journal of Electrical and Electronics Engineering) Vol. 3 No. 2 (2020)
Publisher : Department of Electrical Engineering, Faculty of Engineering, Universitas Negeri Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26740/inajeee.v3n2.p41-47

Abstract

AbstractMicrowave can be applied for telecommunicaions, radar and microwave imaging. This wave has been widely used in everyday life, such as in the industrial word in the fields of robotics, microwave vision, imaging burrier objects, vehicular guidance, biomedical imaging, remote sensing, wheater radar, target tracking, and other apllications. Microwave imaging is a technology that uses electromagnetic waves at frequencies from Megahertz to Gigahertz. Utilization of microwave imaging in addition to information technology and telecommunications, this wave application can be used to process an image because of its ability to penetrate dielectric materials. The purpose of writing this article is to determine microwave imaging application, the working principle of antennas used for microwave imaging applications and antenna specifications used for microwave imaging applications. Microwave imaging research has been carried out using several different type of antennas such as vivaldi and monopole antennas. Where the signal tha is transmitted and will be exposed to the object will send a different return signal so that an image of an object will be obtained which will be processed on the computer. The working frequency of the antenna for microwave imaging applications is in a wide frequency range (UWB antenna). The antennas that are applied include the vivaldi antenna which works at a frequency of 1-11 GHz and a monopole antenna that works at a frequency 1,25-2,4 GHz for biomedical imaging applications, while for radar applications in the construction field it can use a frequency of 0,5-40 GHz.
Serial Peripheral Interface (SPI) Communication Application as Output Pin Expansion in Arduino Uno Farid Baskoro; Miftahur Rohman; Aristyawan Putra Nurdiansyah
INAJEEE (Indonesian Journal of Electrical and Electronics Engineering) Vol. 3 No. 2 (2020)
Publisher : Department of Electrical Engineering, Faculty of Engineering, Universitas Negeri Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26740/inajeee.v3n2.p63-69

Abstract

Serial Peripheral Interface (SPI) is a synchronous serial communication whose data or signal transmission involves Chip Select (CS) or Slave Select (SS) pins, Serial Clock (SCK), Master Out Slave In (MOSI), and Master In Slave Out (MISO). In the Arduino Uno, there are four pins that allow Arduino Uno to perform SPI communication. In this research, SPI communication is implemented to expand the output of the Arduino Uno by using the features of the MCP23S17 IC so that the Arduino Uno, which initially has 20 output pins, can expand to 36 output pins.The results of the research show that the Arduino Uno manages to control 36 output pins. 16 output pins from the MCP23S17, 16 output pins from the Arduino Uno, and 4 pins are used for the SPI communication line. The results of this study also show the form of the SPI communication signal from Arduino Uno in declaring 21 registers on MCP23S17, declaring the MCP23S17 pin register as output, and implementing the output using LEDs.
Detection System of Drowsiness for Car Driver Using Image Processing Completed with Multi Level Safety Merlyn Royeni Waty; Nur Kholis; Farid Baskoro; Arif Widodo
INAJEEE (Indonesian Journal of Electrical and Electronics Engineering) Vol. 4 No. 2 (2021)
Publisher : Department of Electrical Engineering, Faculty of Engineering, Universitas Negeri Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26740/inajeee.v4n2.p29-37

Abstract

The rate of road traffic accidents in the 38th and 39th week of 2020 has increased. Many factors influence the occurrence of accidents, one of the reasons is that the driver is sleepy. The parameters used to determine the condition of drowsiness are identifying the condition of the eyelids. With this identification, an image processing system can be utilized by applying the Haar Casecade Classifier and Circular Hough Transform methods with Find Countur using HSV parameters. The detection uses a camera with the driver's eye input, if the image detected is a drowsy eye, the system will wake up the driver by turning on a sound alarm, besides this system is equipped with an SMS gateway feature that will be sent to the driver's relatives, that the driver is sleepy. Message notification sent contains the condition and location of the rider. Based on system-wide testing, this system has a success rate of 100% against HSV1, 96% against HSV2 and HSV3, 89% against HSV4, and 88% against HSV5 on eye detection results and response time. The resulting error is because the lighting at a certain distance is not match with HSV set, the system experiences a freeze due to the buzzer sound delay that is too long and the performance of the PC is also less than optimal. 
Automatic Packaging Conveyor Tracking System Based on Arduino Uno Using Photodiodes and SRF04 Ultrasonic Sensors Rachmanda Aisah Putri; Nur Kholis; Farid Baskoro
INAJEEE (Indonesian Journal of Electrical and Electronics Engineering) Vol. 4 No. 2 (2021)
Publisher : Department of Electrical Engineering, Faculty of Engineering, Universitas Negeri Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26740/inajeee.v4n2.p38-43

Abstract

Tracking Conveyor in this packaging is a system whose mechanics work to move an item that is on the conveyor from one place to another, basically this conveyor is widely used in the industrial world which is used for the transportation of very large goods. In order to achieve a large number of products to be produced, a fairly good and efficient movement is needed in order to achieve the production target, at this time there is still a lot that is still relatively manual carried out by human labor, while the movement to move goods quickly requires tools to move products to other places. in the box. This study aims to produce a conveyor tracking system in automatic packaging based on AU (Arduino Uno) using an ultrasonic sensor SRF04 and a photodiode sensor. The method used is a quantitative type method, which is a research method that uses numerical values, this type of research has many approaches that use numerical values, ranging from data collection and display of research results. With the above shortcomings, the authors encourage research and development of the use of appropriate and efficient technology, by combining ultrasonic sensors and photodiode sensors with conveyors. The result of this research is the sensor combination with the addition of a photodiode sensor combination to detect the presence of objects that have been applied to run the conveyor. In running this conveyor, two sensor requirements must be met, namely the distance to the object with the ultrasonic sensor should not be less than 5 cm and not more than 11 cm. The second requirement is that the distance between the object and the photodiode sensor should not be more than 11 cm. If both conditions are met, the conveyor will run.
Analysis of IEEE 802.15.4-Based Delay and Slot Duration Adjustment Combination Methods on Wireless Sensor Networks Fitria Nisa Andari; Eppy Yundra; Nur Kholis; Arif Widodo; Farid Baskoro
INAJEEE (Indonesian Journal of Electrical and Electronics Engineering) Vol. 4 No. 2 (2021)
Publisher : Department of Electrical Engineering, Faculty of Engineering, Universitas Negeri Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26740/inajeee.v4n2.p51-58

Abstract

IEEE 802.15.4 is one of the standards of the Wireless Sensor Network (WSN) which is at the Medium Access Control (MAC) layer. IEEE 802.15.4 is also technology and protocol within a computer network that can connect all device quickly, has a large capacity and low power consumption. The challenge of Wireless Sensor Network is how to improve the Wireless Sensor Network network performance matrix (goodput, bandwidth utilization, and energy consumption) both in the Contention Access Period (CAP) and in the Contention Free Period (CFP) based on the IEEE 802.15.4 standard. This research is an analysis combination of adjustment delay and slot duration methods to increase goodput, bandwidth utilization and reduce energy consumption in Wireless Sensor Networks in the allocation guaranteed  time slots on fixed data simulated using Castalia Simulator software. The problem of this research is whether the combination method can improve the performance matrix of Wireless Sensor Networks on fixed data compared to other methods (SUDAS, ADES, IEEE 802.15.4 Standard). This reserch it aims to determine the performance matrix of combination methods is when compared to other methods (Superframe Duration Adjustment Scheme (SUDAS), Adjustment Delay Scheme (ADES), IEEE 802.15.4 standard) using quantitative approach research methods. Based on the data obtained, the goodput of the combined method increased by 10%, 416%, and 513% respectively compared to the SUDAS method, ADES method, and IEEE 802.15.4 standards. Bandwidth utilization of the combination methods increased by 0.025, 0.223 and 0.232, respectively compared to the SUDAS method, the ADES method, and the IEEE 802.15.4 standard. And the consumption of the combination methods are respectively reduced by 1.02%, 8.72% and 9.08% compared to the SUDAS, ADES and IEEE 802.15.4 standards. With the combination method of delay adjustment and slot duration it is able to optimize the performance of the Wireless Sensor Network compared to other methods. 
Rancang Bangun Sistem Informasi Keberadaan dan Situasi Dosen di Ruang Dosen Berbasis Radio Frequency Identification (RFID) dan Aplikasi Android KIKI DWI WIJAYANTI; FARID BASKORO
JURNAL TEKNIK ELEKTRO Vol 9 No 2 (2020): MEI 2020
Publisher : Universitas Negeri Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26740/jte.v9n2.p%p

Abstract

Sistem yang dibuat meliputi pembacaan RFID, otentikasi data, update data keberadaan dan situasi dosen (sibuk/tidak sibuk) di ruang dosen. Reader RFID yang digunakan adalah MFRC-522 yang terhubung dengan mikrokontroler NodeMCU ESP8266. Lalu informasi data keberadaan dan situasi dosen dikirim ke cloud computing (Realtime Database Firebase) melalui jaringan internet. Tampilan antarmuka menggunakan aplikasi android yang telah terintegrasi dengan realtime database Firebase dan RFID. Posisi tag terhadap reader RFID yang paling optimal adalah posisi sejajar dengan jarak baca maksimal 4,4 cm. Dibandingkan dengan posisi miring ±45°yang hanya menghasilkan jarak baca maksimal 2,2 cm dan posisi tegak lurus tag tidak dapat terbaca oleh reader RFID. Ketika posisi tag dan reader terhalang oleh logam dan posisi tag ditempelkan pada logam selama proses pembacaan oleh reader RFID maka didapatkan hasil pengujian bahwa tag tidak dapat dibaca oleh raeeder. Pada saat reader dan tag melakukan proses pembacaan dengan gangguan logam disekitarnya, maka jarak logam dari RFID lebih dari sama dengan 7 cm sehingga jarak baca RFID tidak semakin berkurang karena medan elektromagnetik induksi terganggu oleh logam. Hasil black box testing menunjukkan bahwa fungsionalitas sistem berjalanan sesuai rancangan dengan presentase kesalahan data adalah 0%. Dengan catatan koneksi internet yang handal. Kuesioner tingkat kepuasan mahasiswa terhadap sistem pada aplikasi Android (rentang nilai, 1= sangat tidak setuju – hingga – 5 = sangat setuju) hasil yang diperoleh 4,775 mudah dimengerti, 4,85 membantu mahasiswa bertemu dosen, 4,85 membantu mahasiswa mengetahui situasi dosen, 4,325 aplikasi interaktif, 4,7 aplikasi informative, dan 4,45 aplikasi proporsional. Kata Kunci : RFID, Aplikasi Android, Keberadaan dan situasi dosen
Co-Authors A. Samrul Ilmun Nafik A.A. Ketut Agung Cahyawan W Achmad . Khoirudin Achmad Fahrur Rozi Achmad Imam Agung Aditya Chandra Hermawan Afrianzah Pradypta Ahmad . Nizar Akbar Sena Wijaya Alam Sulthonie Habibie Andi Muhammad Febrian Ramadhan Gazali Andika Dwi Wibowo Andy Muhammad Hanani Anja Alfa Beet Aqsal Renaldi Permata Dewata Arfiyan Wildan Habibi Arif . Widodo Arif Widodo Arif Widodo aristyawan Nurdiansyah Aristyawan Putra Nurdiansyah Aristyawan Putra Nurdiansyah Aruna Karunika Rindra Ary . Prastyawan Bagus Rio Rynaldo Bambang Suprianto . Desi Arista Ratnasari Dewangga Yudhistira Dicky . Kurniawan Dimas Kusuma Putra Ekohariadi Ekohariadi . Endryansyah . . Endryansyah Endryansyah Eppy . Yundra Eppy Yundra Fahmi . Alamsyah Falihul Fajri Al Faruq Fandik Agung Kurniawan Faris Dawwas fatihin, mohammad meizaki Fendi . Achmad Fiqih Yerdian Alamsyah Fitria Nisa Andari Habib Wildan Fahruri Hanif Wigung Nugroho Hapsari Peni Agustin Tjahyaningtijas I Gusti Putu Asto I Gusti Putu Asto Buditjahjanto Ibnu . Azhari ibrohim . Ita Mubarokah Jepri . Iswantoro Kanda Dias Nurmahandy Kiki Dwi Wijayanti Lilik Anifah Lilik Anifah Lusia Rakhmawati Mahendra Widyartono Merlyn Royeni Waty Miftahur Rohman Mochamad Jauhar Nur Ainul Sirojuddin Moh Aprilianto Nafian Mohamad . Bahtiar Mohammad Meizaki Fatihin Mohammad Meizaki Fatihin Muhamad Syariffuddien Zuhrie Muhammad Ilham Taufiqi Muhammad Syariffuddien Zuhrie MUHAMMAD THORIQ Muhammad Ulumul Khasan Muhammad Wildan Nur Karim Muhammad Yusril Muqorrobin Mulya Adi Prasetiya Mumtazusysyifa Maimunah Munoto Munoto Naufal Tri Wibowo Nofiatul . Khasanah Nur . Kholis Nur Kholis Nurdiansyah, Aristyawan Putra Nurdiansyah, Arityawan Putra Nurhayati . Nurhayati Nurhayati Nurhayati, . . Nurul Arrijal Fahmi Parama Diptya Widayaka PRASETYA DIMAS WARDHANA Prayuda Ari Guntoro Puput Wanarti Rusimamto Puput Wanarti Rusimamto Rachmanda Aisah Putri Rachmat Agus Kurdyanto Rahmadian, Reza Ramadhan Firdiyanto Firdaus Ribhi Atma Ivory Rifqi Firmansyah Rifqi Firmansyah, Rifqi Rina Harimurti Rizki Zella Novita Sari Rizky . Susanto Rohman, Miftahur Rynaldo, Bagus Rio Ryo Chandra Aldi Wibawa Septia Wahyuni Surya Ningsih Septian Eko Nugroho Stefanus Adhie Nugroho Subuh Isnur Haryudo Tri Rijanto Unit Three Kartini Wahyu Tri Handoko widi . aribowo widi . ariwibowo widi Ari bowo widi aribowo Widi Aribowo Wiyli Yustanti YUNI YAMASARI Yunus Alam Suryatna