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INDONESIA
Jurnal Teliska
Published by Politeknik Negeri Sriwijaya
ISSN : 20850786     EISSN : 26542765     DOI : -
Core Subject : Science, Engineering,
Computer Science & IT Control & Systems Engineering Electrical & Electronics Engineering Industrial & Manufacturing Engineering Mechanical Engineering
JURNAL TELISKA adalah Jurnal dengan akses terbuka, jurnal peer-review yang diterbitkan oleh Jurusan Teknik Elektro, Politeknik Negeri Sriwijaya, Indonesia. Teliska diterbitkan dengan frekuensi 3 (tiga) kali dalam setahun dengan jumlah volume yang bervariasi. Artikel dapat berupa hasil penelitian, kajian ilmiah, dan analisis serta pemecahan masalah yang relevan dengan bidang teknik elektro, diantaranya Teknik Telekomunikasi/Komunikasi Nirkabel/Keamanan Jaringan, Teknik Listrik/Sistem Tenaga Listrik dan Teknik Elektronika/Sistem Isyarat Elektronis/Sistem Kendali, Sistem Informasi/Internet of Things/Kecerdasan Buatan. Semua artikel yang dikirimkan harus melaporkan hasil penelitian asli, yang sebelumnya tidak dipublikasikan, eksperimental atau teoritis yang tidak dipublikasikan dan sedang dipertimbangkan untuk dipublikasikan di tempat lain. Publikasi naskah yang diserahkan tunduk pada peer review. Baik aspek umum dan teknis dari makalah yang dikirimkan ditinjau sebelum dipublikasikan. Naskah harus mengikuti gaya jurnal dan dapat ditinjau dan diedit. Sistem pengajuan dan penerbitan online menggunakan Open Journal System (OJS). Pengajuan harus dilakukan secara online melalui situs pengiriman Website TELISKA dengan melakukan Registrasi terlebih dahulu setelah itu Login . Makalah yang diterima akan tersedia secara online.
Arjuna Subject : Teknik (semua kategori) - Teknik Listrik dan Elektro
Articles 63 Documents
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IMPLEMENTASI FACE RECOGNITION, SENSOR GETAR DAN PASSWORD SEBAGAI PENGAMAN GANDA PADA SMART DOOR LOCK BERBASIS IOT : Teknik Elektro Nurhafidzah; Muhammad Nawawi; Johansyah Al Rasyid
TELISKA - JURNAL TEKNIK ELEKTRO POLITEKNIK NEGERI SRIWIJAYA Vol 16 No II Juli (2023): TELISKA Juli 2023
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.8166970

Abstract

The development of door lock technology is now sophisticated with the existence of various smart door lock innovations using sensors, cards, fingerprints, passwords, to face recognition or voice recognition. This is because the conventional keys on the market have an inadequate level of security, such as being easily lost and duplicable. This research aims to implement a double security system at the door with an innovative idea that combines face recognition, vibration sensors, and passwords which of course has better security than locks or locks. Identification technology that will be used in face recognition uses a Histogram of Oriented Gradients (HOG). The system created is based on the Internet of Things (IoT) which can provide information and early warning through notifications in the form of photos and messages that an unknown person has been detected in front of the house on a telegram in real time.
ANALISA KETEPATAN ENCODER PADA SISTEM STEERING AUTONOMOUS ELECTRIC CAR METODE PULSE COUNTER: Teknik Elektro M. Rizki Romadhon; Amperawan; Muhammad Nawawi
TELISKA - JURNAL TEKNIK ELEKTRO POLITEKNIK NEGERI SRIWIJAYA Vol 16 No II Juli (2023): TELISKA Juli 2023
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.8167144

Abstract

The encoder in the steering system of an Autonomous electric car is a component used to determine the direction andposition of the racksteer displacement in the Autonomous electric car itself. The advantage of the encoder in this steeringsystem is its ability to read the number of rotations and direction of rotation of the car's steering wheel through pulsereadings from both channels of the encoder, without the need for additional specialized sensors. The data generated by theencoder is then used as a reference to ensure that the racksteer position is in the correct position during automatic controlin autonomous driving mode. Automatic control in an Autonomous electric car is achieved by reading the car's positionrelative to the road using lane detection methods through digital image processing on Raspberry Pi 4. The results of imageprocessing provide data such as direction and speed required by the car to accelerate when approaching or exiting a turn.The data from Raspberry Pi 4 is then received by the microcontroller to command the motor on the racksteer, taking intoconsideration the previous position of the racksteer obtained through the encoder.
SISTEM KONTROL FUZZY LOGIC ALAT PENYIRAMAN OTOMATIS PADA TANAMAN TOMAT DAN KAKTUS: Teknik Elektro Adi Saputra; Yordan Hasan; Niksen Alfarizal
TELISKA - JURNAL TEKNIK ELEKTRO POLITEKNIK NEGERI SRIWIJAYA Vol 16 No II Juli (2023): TELISKA Juli 2023
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.8183234

Abstract

Plants need proper care, including adequate watering, in order to grow properly and provide optimal results. In an effort to increase the efficiency of watering plants, this study proposes the use of a fuzzy logic control system to control automatic watering devices for tomato and cactus plants. The method used in this study involved collecting relevant environmental data, such as soil moisture, temperature, and light intensity. This data is then processed using the fuzzy logic method to obtain the optimal soil moisture level for each type of plant. The proposed fuzzy logic control system uses several linguistic variables, including "dry, moist and wet", to describe soil moisture levels. Fuzzy logic rules that have been determined based on expert knowledge are applied in the control system to produce optimal watering decisions. The results showed that this fuzzy logic control system is capable of controlling automatic watering devices with high accuracy. Tomato and cactus plants grown in the experimental environment experienced an increase in plant growth and health after the application of this control system. Soil moisture is maintained within an optimal range, thereby increasing the efficiency of water use and avoiding the risk of excess or shortage of water. Keywords: Watering Plants, Fuzzy Logic, Tomatoes and Cactus
SIMULASI SISTEM KENDALI PENYORTIR BARANG OTOMATIS WARNA DAN NON WARNA MENGGUNAKAN OPTIC DIFFUSE SENSOR YANG BERBASIS PLC GLOFA GM4-PA2A: Teknik Elektronika Dicky Firmansyah; Iskandar Lutfi; Dewi Permata Sari
TELISKA - JURNAL TEKNIK ELEKTRO POLITEKNIK NEGERI SRIWIJAYA Vol 16 No II Juli (2023): TELISKA Juli 2023
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.8167030

Abstract

Pada saat ini dunia industri manufaktur telah mengalami perkembangan yang sangat besar, dapat dilihat dari penggunaan alat-alat teknologi yang dapat membantu mempermudah aktivitas produksi. Programmable logic control (PLC) merupakan salah satu teknologi yang mengambil peranan penting dalam menjalankan berlangsungnya proses produksi termasuk pada aktivitas penyortiran barang warna dan non warna. Dalam hal ini peranan PLC sangat penting untuk kemajuan dan perkembangan sebuah industri serta dapat mempermudah pekerjaan. Untuk itu dengan dibuatnya simulasi penyortiran barang warna dan non warna yang berbasis PLC GLOFA GM4-PA2A agar dapat membantu dan mempermudah dalam penyortiran barang secara otomatis. Dimana alat tersebut sudah dilengkapi dengan beberapa fitur seperti sensor optic diffus yang berperan untuk mendeteksi barang warna dan non warna sehingga dapat dipisahkan secara otomatis. Dalam melakukan simulasi tersebut menggunakan aplikasi pemrograman GMWIN sebagai media agar dapat memerintah PLC tersebut sesuai yang dibutuhkan. 
PENERAPAN TEKNOLOGI KOMUNIKASI MULTIHOP UNTUK MONITORING KONDISI LAMPU PENERANGAN JALAN UMUM BERBASIS LORA: Teknik Telekomunikasi Nadila Ade Rosta Paramitha; Mohammad Fadhli; Martinus Mujur Rose
TELISKA - JURNAL TEKNIK ELEKTRO POLITEKNIK NEGERI SRIWIJAYA Vol 16 No II Juli (2023): TELISKA Juli 2023
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.8183298

Abstract

Street lighting is one of the public facilities that plays a vital role in providing safety and comfort for road users. Therefore, any problems that occur with street lighting must be handled quickly and precisely. To achieve this goal, this study proposes a system for monitoring the condition of street lighting using LoRa-based multihop communication technology. In this study, each street light unit is equipped with an ACS172 current sensor and a BH1750 light sensor to determine the damage that occurs to the street lights automatically. Data from these two sensors is sent using LoRa Ra-02 to the relay and then forwarded to the gateway. The gateway forwards the data to the Firebase server so that the results of monitoring public street lighting can be observed via the internet network. Based on the results of system testing, the street light units (sensor nodes) can communicate with relays up to a distance of 200 m and with gateways up to a distance of 400 m. The gateway can also properly send sensor data to the Firebase server, so monitoring results can be viewed online via a smartphone.
SISTEM MONITORING SUHU DAN KELEMBABAN PADA ALAT PENGERING PADI BERBASIS SOLAR CELL: Teknik Elektronika Alika Maharani; R.D. Kusumanto; A. Rahman
TELISKA - JURNAL TEKNIK ELEKTRO POLITEKNIK NEGERI SRIWIJAYA Vol 16 No II Juli (2023): TELISKA Juli 2023
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.8188076

Abstract

ABSTRACT Grain drying is one of the post-harvest processing processes which aims to reduce the moisture content in the grain to a certain extent until dry grain is obtained according to standards in order to enter the milling process. In general, Indonesian people use traditional methods in carrying out the process of drying grain, namely by drying it under the hot direct sun. Based on this, a machine is needed to help dry this post-harvest grain so that it can dry grain with maximum results in a short time and of course still save energy. This research aims to design and make a dryer as well as be able to monitor the temperature and humidity of the grain so that the grain can be dried according to milling standards. Key words : Grain, Solar Cell, Monitoring, Dryer
SMART SYSTEM KANDANG BIBIT AYAM PEDAGING MENGGUNAKAN ARDUINO MEGA 2560 R3 BERBASIS IOT Muhammad Nur Fajri; Sabilal Rasyad; Abdurrahman
TELISKA - JURNAL TEKNIK ELEKTRO POLITEKNIK NEGERI SRIWIJAYA Vol 16 No III November (2023): TELISKA November 2023
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.8207130

Abstract

Controlling temperature, humidity, and providing proper feed and drink in broiler broiler cages are important factors in maintaining the health and growth of chickens. To improve the efficiency and quality of this control, a system was created that automatically regulates temperature, humidity, as well as feed and drink using the fuzzy method. The fuzzy method is used to process temperature and humidity sensor data and apply fuzzy logic decisions in controlling the intensity of heating lamps, fans, and feed and drink. Sensor data will be entered into a fuzzy system that has been developed, where linguistic variables such as "cold", "warm", and "dry” will be used to represent temperature and humidity conditions. Through the interface provided, breeders can monitor and adjust temperature settings, humidity, and feeding and drinking schedules automatically. This interface allows breeders to enter preferences and limits in the fuzzy system, as well as see a visualization of the conditions of the cage and the decisions produced by the system. By implementing this smart broiler cage system with the fuzzy method, it is hoped that farmers can improve the efficiency of temperature and humidity control, as well as improve the quality of feeding and drinking. This will contribute to better growth and optimal health for broiler breeders, as well as increase productivity and profitability in broiler farms.
IMPLEMENTASI KONTROL SUHU AC (AIR CONDITIONER) PADA RUANGAN MEETING SECARA OTOMATIS MENGGUNAKAN METODE FUZZY LOGIC BERBASIS IOT Ahmad Firly Akbar; Abdurrahman; Sabilal Rasyad
TELISKA - JURNAL TEKNIK ELEKTRO POLITEKNIK NEGERI SRIWIJAYA Vol 16 No III November (2023): TELISKA November 2023
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.8375740

Abstract

Meeting rooms are important environments in terms of productivity and user comfort. The right temperature in a meeting room plays an important role in improving the concentration, performance, and comfort of meeting participants who are discussing. However, manually adjusting the temperature of the AC in the room is often a complicated and time-consuming task. Therefore, there is a need for an automatic device that can control the AC temperature effectively and efficiently. Key words : AC temperature controller, Internet of Things, Fuzzy Logic
ANALISA SISTEM KENDALI KECEPATAN MOTOR BLDC PADA MOBIL AUTONOMOUS MENGGUNAKAN PWM (PULSE WIDTH MODULATION) BERBASIS ARDUINO Fajar Amran; Amperawan; Masayu Annisah
TELISKA - JURNAL TEKNIK ELEKTRO POLITEKNIK NEGERI SRIWIJAYA Vol 16 No III November (2023): TELISKA November 2023
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.8375870

Abstract

Bldc motor is an alternative component for autonomous electric car because it has several advantages over conventional DC motors which still use brushes and commutators, while bldc motors do not use brushes and commutators but use electronic circuits to control the bldc motor with high efficiency, high operating life, high maintenance. low and low noise. By using a universal mosfet driver that has a hall effect sensor, hall effect can help calculate the pwm of a bldc motor controlled by arduino. The arduino controlling the universal mosfet driver will calculate using the pwm system of the bldc motor. This system will help the autonomous electric car transportation industry in controlling speed.
SISTEM MONITORING VOLUME DAN BERAT SAMPAH PADA ALAT PEMILAH SAMPAH ORGANIK DAN ANORGANIK BERBASIS INTERNET OF THINGS MENGGUNAKAN APLIKASI BLYNK Annisa Salamah; RD Kusumanto; Evelina
TELISKA - JURNAL TEKNIK ELEKTRO POLITEKNIK NEGERI SRIWIJAYA Vol 16 No III November (2023): TELISKA November 2023
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.8207096

Abstract

Currently the accumulation of waste due to bad management will certainly polute the environtment, especially in residential areas. For this reason, a system is needed that can help manage thus waste so that is runs well. This study aims to design and bulid a system that will help to monitoring the weight and volume of waste based on the Internet of Things (IoT) to make it easier for waste workers to know when the waste is full and must be disposed of immediately to a landfill. This monitoring system is uses a load cell weight sensor and ultrasonic sensor JSN-SR04T which is instaleed on the organic and inorganic waste box that integrated with the internet via the NodemCU ESP8266 and controlled by the Arduini Uni microcontroller. This system can measure the weight and volume of waste in real time and send notifications when the waste box is full from a test disatance of 1 km.

Page 5 of 7 | Total Record : 63

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