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All Journal Setrum : Sistem Kendali-Tenaga-elektronika-telekomunikasi-komputer Prosiding Semnastek JUTEKS Jurnal Mantik Journal of Robotics and Control (JRC) JURMA : Jurnal Program Mahasiswa Kreatif
Bayu Adhi Prakosa
Universitas Ibn Khaldun Bogor
Aerospace Engineering Computer Science & IT Control & Systems Engineering Economics, Econometrics & Finance Education Electrical & Electronics Engineering Engineering Languange, Linguistic, Communication & Media Mathematics Mechanical Engineering Physics Public Health Social Sciences

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Vehicle Security System using Short Message Service (SMS) as a Danger Warning in Motorcycle Vehicles Ritzkal, Ritzkal; Nuraeni Puji Astuti; Ritzkal Ritzkal; Ade Hendri Hendrawan; Bayu Adhi Prakosa
Journal of Robotics and Control (JRC) Vol 1, No 6 (2020): November
Publisher : Universitas Muhammadiyah Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.18196/jrc.1642

Abstract

Security system to alert and warn when a vehicle is stolen. This tppl aims to provide information to vehicle owners when a vehicle is in danger by sending coordinate points using SMS (Short Message Service) and can be displayed right with the Google Maps application to make it easy for vehicle owners to track or know the position of the vehicle. Vehicle safety system using SMS (Short message Service) and GPS (Global Positioning System) based on microcontroller and displayed with this smartphone utilizing technology that can make it easier for users to use, namely: (1) neo 6 GPS module, (2) the minimum microcontroller system circuit in Atmega Arduino uno module, (3) SIM GSM 800L module, (4) Smartphones, (5) as well as google maps applications and (6) SMS (short message service) which are already smartphones. Making software (software) this tool uses the C programming language and uses the MIT App Inventor Application.
Pemanfaatan Mikrokontroler AVR untuk Pengendalian Sejumlah Parameter Fisis pada Analogi Smartgreenhouse Bayu Arief Prakoso; Arief Goeritno; Bayu Adhi Prakosa
Setrum : Sistem Kendali-Tenaga-elektronika-telekomunikasi-komputer Vol 9, No 1 (2020): Edisi Juni 2020
Publisher : Fakultas Teknik Elektro - Universitas Sultan Ageng Tirtayasa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36055/setrum.v9i1.8055

Abstract

A number of physical parameters are related to the air temperature and humidity in the room, soil humidity, and the presence of light. All physical parameters are used to measure the performance of the control system based-on ATmega32 microcontroller. The measurement results of the control system performance are then sent and displayed on an Android-based device to find out the performance of the sending and receiving data system assisted by the Bluetooth protocol network. The measurement result of room temperature values is ranging of 26-36 0C and the humidity is ranging of 54-74%. Measurement result against the soil moisture parameter is 85% that obtained from the conversion of 3 volts dc in 8-bit digital data, while the soil humidity at normal condition is 60%.The presence light sensor when not detecting light, the sensor output value of 5 volts dc is converted into 256 scales digital data. For this condition, the controller sends a signal of 256 scales or maximum output to the actuator for energizing the lamp, so that maximum light can be produced. Assisted by Android-based smartphone and Bluetooth protocol network for sending and receiving data display based-on the measurement and monitoring of a number of physical parameters, so that it is the suitability of the display that produced by the control system based-on ATmega32 microcontroller.
IMPLEMENTASI PERALATAN BERBASIS ANDROID BERBANTUAN BLUETOOTH UNTUK TAMPILAN PANTAUAN KONDISI INSTALASI KELISTRIKAN PADA OTOBIS Bayu Adhi Prakosa; Arief Goeritno; Irvan Mustofa
Prosiding Semnastek PROSIDING SEMNASTEK 2016
Publisher : Universitas Muhammadiyah Jakarta

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

Abstract

Telah dilakukan integrasi peralatan berbasis Android berbantuan  bluetooth  ke sistem mikrokontroler ATmega32 untuk tampilan pantauan kondisi instalasi kelistrikan pada otobis.  Kondisi terpantau berupa kondisi tidak terjadi gangguan hubung singkat atau sistem dikatakan aman dan kondisi terjadi gangguan hubung singkat dan perlu perbaikan, yaitu saat terdapat gangguan pada lampu pada instalasi kelistrikan pada otobis, meliputi: (i) lampu ruangan, (ii) lampu dekat, (iii) lampu jauh, (iv) lampu rem, (v) lampu mundur, dan (vi) lampu hazard.  Perangkat komunikasi berbasis Android dengan telepon genggam (handphone) merk Samsung I8190 untuk pengoperasian aplikasi. Modul bluetooth  terdapat 2 buah pin untuk tegangan 5 volt dc dan 2 buah pin untuk RX dan TX.  Kata kunci:  Peralatan berbasis Android berbantuan  bluetooth,  tampilan pantauan kondisi, instalasi kelistrikan pada otobis.
Water Turbidity Monitoring System, Water Temperature and Fish Feed Using Arduino Mega 2560 Web-Based Abdul Khayr; Ritzkal Ritzkal; Bayu Adhi Prakosa
Jurnal Mantik Vol. 4 No. 3 (2020): November: Manajemen, Teknologi Informatika dan Komunikasi (Mantik)
Publisher : Institute of Computer Science (IOCS)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35335/mantik.Vol4.2020.965.pp1611-1615

Abstract

In daily life, fish that are kept in an aquarium must be aware of water turbidity, water temperature and feeding so that these fish need tools that can be adjusted continuously. As for the background of this writing is checking water turbidity, water temperature and feeding fish are still done manually, causing problems when fish keepers are busy or have to leave the house for a long time. The formulation of the problem of this research are (i) how to design and implement a monitoring system for water turbidity, water temperature and fish feed using the WEB-based Arduino Mega 2560 which can be scheduled based on time and (ii) how are the results of the monitoring system testing water turbidity, water temperature fish feed using WEB-based Arduino Mega 2560. By conducting 4 stages of research (i) Analysis of System Work and Requirements Analysis (ii) Design of Hardware Design, Schematic Design, Database Design, WEB Design, Network Design (iii) Hardware Implementation and Software Implementation (iv) Testing. The results of this study are a monitoring system for water turbidity, water temperature and fish feed according to a predetermined schedule with a monitoring system using the web. Water turbidity, water temperature and feeding are adjusted as needed. The servo will be active if the time on the real time clock (RTC) is the same as the schedule data variable that has been set.
Security Analysis of Wireless Local Area Network (WLAN) Network with the Penetration Testing Method Fikriyadi Fikriyadi; Ritzkal Ritzkal; Bayu Adhi Prakosa
Jurnal Mantik Vol. 4 No. 3 (2020): November: Manajemen, Teknologi Informatika dan Komunikasi (Mantik)
Publisher : Institute of Computer Science (IOCS)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35335/mantik.Vol4.2020.974.pp1658-1662

Abstract

Wireless Local Area Network (WLAN) is an alternative in overcoming cabling problems in a local network. Often wireless network security that is installed still uses vendor default settings such as SSID, IP Address, remote management, DHCP enabled, frequency channels, without encryption, even user or password for wireless administration. How does a strong WLAN security system work? The most common security system applied to wireless networks at this time is starting from securing access points by applying the MAC Filtering concept, using WPA / WPA2-PSK security keys, and RADIUS server authentication. To see the quality of wireless LAN network security, how do you analyze the test of the existing security system in the network. The method that can be used in evaluating wireless networks is by testing the system by simulating forms of attacks on wireless networks with the Penetration Testing method. By carrying out 4 stages of research using the penetration testing method (i) the planning stage, (ii) the discovery stage, (iii) the attack stage and (iv) the report stage, from the attack stage (Cracking The Encryption, Bypassing MAC Address, Attacking The Infrastructure and MITM ) using Kali Linux got the results of four types of attacks carried out, only one of which was failed, namely the cracking attack type of the encryption on the RADIUS server due to using captive portal authentication
Implementation of Duck Egg Hatcher System and Web-Based Monitoring Dhimas Bagus Adi Saputro; Ritzkal Ritzkal; Bayu Adhi Prakosa
Jurnal Mantik Vol. 4 No. 3 (2020): November: Manajemen, Teknologi Informatika dan Komunikasi (Mantik)
Publisher : Institute of Computer Science (IOCS)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35335/mantik.Vol4.2020.975.pp1701-1704

Abstract

Writing this research aims for Web-based egg incubators are tools or machines used to hatch poultry eggs such as ducks and the like, with temperature regulation using NodeMCU ESP 8266 as the control center, DHT11 sensor as temperature sensor, LCD as its appearance, lights and fans. NodeMCU ESP 8266 has an input in the form of a temperature sensor, this sensor will detect 2 temperatures in the incubator and display it on the LCD. This egg incubator uses a fan that functions as a cooler by removing heat in the incubator space and a lamp that functions as a heater, so the incubator will work automatically. How to design and implement a web-based set of duck egg hatching tools and how to display the egg incubator temperature and humidity information on a web connected to an egg incubator suite. By conducting 4 stages of research (i) Analysis of How the System Works and Analysis of Needs (ii) Design Hardware Design, Schematic Design, Database Design, WEB Design, Network Design (iii) Hardware Implementation and Software Implementation (iv) Testing. The results of this research are in the form of designing a duck egg incubator system and web-based monitoring including (i) DHT 11 Sensor Function Testing, Relay Function Testing, WEB Testing. Sensor and WEB testing are in accordance with their functions. The next test is to use the Blackbox on the implementation of the Duck Egg Performance system and Web-Based Monitoring. In this test it is in accordance with its function.
Microcontroller Based Money Storing Tools with Web Monitoring and Social Media Prayoga Aldi Kurniawan; Ritzkal Ritzkal; Bayu Adhi Prakosa
Jurnal Mantik Vol. 5 No. 2 (2021): Augustus: Manajemen, Teknologi Informatika dan Komunikasi (Mantik)
Publisher : Institute of Computer Science (IOCS)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35335/mantik.Vol5.2021.1379.pp693-700

Abstract

The money deposit box is one of the equipment at home that functions as a place to store money, although there are many practical money storage media, but there are still those who like to store money in the Money Deposit Box but in that storage many do not know how much the nominal money is. already saved. For this reason, a money storage box based on the Arduino Mega microcontroller was made. This tool can provide information on the amount of money saved and is equipped with a lock as a security. This study designs the hardware platform: (1) Ardunio Mega 2560 (2) TCS3200 sensor (3) DC motor (4) LCD i2C (5) 1ch relay (6) selenoyd doorlock (7) RTC DS3231 (8) Ethernet shield module, and Software: (1)Windows 10 (2)Arduino IDE 1.8 (2)XAMPP 3.2 (3)PHP 10 (4)MySQL (5)Visual Studio Code 1.5 The system is connected to the Internet Network. the data flow will be stored into a MySQL-based database at the NCC Lab, the nominal money obtained from reading the TCS3200 will be flowed through the Internet network, where the use of the ethernet shield module can integrate money storage equipment on the computer with a local MySQL database. Integration of hardware components, software and internet network.
Design and Build Online Attendance System Using NFC Based on IoT Suhartono Suhartono; Bayu Adhi Prakosa; Ritzkal Ritzkal
Jurnal Mantik Vol. 5 No. 3 (2021): November: Manajemen, Teknologi Informatika dan Komunikasi (Mantik)
Publisher : Institute of Computer Science (IOCS)

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

Abstract

This research designs the Hardware Platform: (1) Ardunio Mega 2560 (2) NFC Sensor PN 532 (3) Buzzer (4) LCD i2C (5) Ethernet shield module, and Software: (1)Windows 10 (2)Arduino IDE 1.8 (2)XAMPP 3.2 (3)PHP (4)MySQL (5)Visual Studio Code 1.5 The system is connected to the Internet Network the data stream will be stored into a MySQL-based database in the NCC Lab, student data obtained from reading the NFC reader will be streamed through the Internet network, where the use of the ethernet shield module can integrate attendance equipment on a computer with a local MySQL database. Integration of Hardware and Software components produces an online attendance system for solutions at SLB ABCD Fitria Bogor, hardware, software and online attendance system services have been tested, with the following results: (1) the success of the system feature test, can refer to the black box test attachment (2) efficiency of attendance administration (3) improve the reporting performance of user agencies. This system solution has never been implemented in SLB ABCD Fitria Bogor schools and probably in many other special schools in Indonesia, which have service features and hardware and software systems that are simple, reliable and easy to implement, so that they can be added value for users, for further research can improve responsive websites.
Human Heart Rate Detection With Web Monitoring: Ritzkal Ritzkal; Bayu Adhi Prakosa2; Rendi Juhar Maulana
Jurnal Mantik Vol. 5 No. 3 (2021): November: Manajemen, Teknologi Informatika dan Komunikasi (Mantik)
Publisher : Institute of Computer Science (IOCS)

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

Abstract

Monitoring heart rate and body temperature is one of the tools to find out information on body health, especially heart conditions and body temperature. There are still some health places that still use the manual method of monitoring heart rate and body temperature, especially general practitioners' practices. By using the Hardware Pulse sensor and the Ds18b20 as a microcontroller, it is easier for us to find out information about heart rate and body temperature that can be viewed digitally. This monitoring makes it easier for doctors to get information about heart rate and body temperature as a follow-up material for doctor's examinations which can be viewed via the LCD on the device and the WEB with the help of Ethernet Shield as a system tool to connect to the internet network. With a heart rate and body temperature monitoring device, you can find out the condition of your heart and body temperature "Low, Normal, and High". By utilizing the Arduino Uno microcontroller as the main electronic data receiver to process data previously data through the Pulse sensor as input for heart rate data and the Ds18b20 as input for body temperature data which will then be displayed on the LCD and WEB, in order to make it easier to get information on the patient's heart rate and body temperature. efficiently and effectively.
Implementation of Body Temperature Checking System with Automatic Door Lock Web and Arduino Assistance Apip Supriana; Bayu Adhi Prakosa; Ritzkal Ritzkal
Jurnal Mantik Vol. 5 No. 3 (2021): November: Manajemen, Teknologi Informatika dan Komunikasi (Mantik)
Publisher : Institute of Computer Science (IOCS)

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

Abstract

The main objective of this research is to investigate the implementation of the IOT prototype that contributes to the movement to prevent COVID-19 transmission to support COVID-19 free programs among higher education institutions in Bogor with the implementation of the existing system. Several efforts were made, one of which was checking the body temperature when entering the room. for normal temperature will be allowed to enter and if fever is not allowed to enter. Body temperature measurement can also be done with conventional infrared thermometers that have been circulating in the community, but this infrared thermometer requires guards for its operation who will be at risk of contracting COVID-19. Then a body temperature measurement tool was built using the Arduino Mega2560 microcontroller and web assistance to minimize the spread of COVID-19 when entering the room. There are several methods including Analysis, Design, Implementation, Testing. This tool is designed to use the MLX90614-DCI sensor as a temperature sensor which will be displayed on the LCD if the temperature is normal then the relay will cut off electricity on the electromagnetic door so that the door lock will open and vice versa. The temperature that is read will be stored in the database and will appear on the web to monitor the temperature read by the body temperature measuring device. This tool has been tested for comparison with conventional infrared thermometers with a difference of 0.3oC so that it is feasible to use.
Co-Authors Abdul Khayr Alief Juan Aprian Apip Supriana Arief Goeritno Bayu Arief Prakoso Cepi Hermawan Dhimas Bagus Adi Saputro Fikriyadi Fikriyadi Hendrawan, A. Hendri Hersanto Fajri Irvan Mustofa Meita Arifany Moh Risnandar Moh Subchan Nuraeni Puji Astuti Pramuko, Andik Eko Kristus Prayoga Aldi Kurniawan Rendi Juhar Maulana Ritzkal, Ritzkal Suhartono Suhartono Willy Mandela