cover
Article Per Year (5 Year)
All
Home Page
OAI Link
Editorial Team
Contact
Reviewer
Google Scholar
Contact Name
Ritzkal
Contact Email
inova.tif@uika-bogor.ac.id
Phone
+6288212632557
Journal Mail Official
inova.tif@uika-bogor.ac.id
Editorial Address
Jl. K.H.Sholeh Iskandar KM.2 Kota Bogor-Jawa Barat- Indonesia
Location
Kota bogor,
Jawa barat
INDONESIA
Jurnal Inovatif : Inovasi Teknologi Informasi dan Informatika
Published by Universitas Ibn Khaldun Bogor
ISSN : 26545535     EISSN : 26545519     DOI : 10.32832/inovatif
Core Subject : Science, Education,
Computer Science & IT Other
Perkembangan ilmu Bidang Teknologi Informasi dan Informatika sudah banyak memberikan manfaat bagi peningkatan efektifitas dan efisiensi dalam berbagai kegiatan berbagai bidang ilmu. Jurnal INOVA-TIF (Inovasi Teknologi Informasi dan Informatika) ialah jurnal yang berisi artikel-artikel ilmiah yang meliputi bidang keilmuan tersebut yang memiliki turunan dalam topik Sistem Informasi, Geo Informatika, Net Centric Computing, dan Rekayasa Perangkat lunak. Jurnal ini dikhususkan untuk mengedepankan teknologi terapan dalamnya. Diharapkan Jurnal INOVA-TIF dapat menjadi sebuah sarana diseminasi hasil penelitian yang berkaitan dengan bidang teknologi Infomasi dan Informatika.
Arjuna Subject : Ilmu Komputer (semua kategori) - Ilmu Komputer (Lain-Lain)
Articles 26 Documents
 1   2   3 
Security System on Motorcycles Using RFID (Radio Frequency Identification) Based Microcontroller ATMega328P Kasman, Albert; Kasum, Kasum
Jurnal Inovatif : Inovasi Teknologi Informasi dan Informatika Vol. 6 No. 2 (2023)
Publisher : Universitas Ibn Khaldun Bogor

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

Abstract

A Security System has been made on motorcycles using RFID (Radio Frequency Identification) based on the ATMega328P Microcontroller. This system is applied to motorcycles with a tap card or tap RFID (Radio Frequency Identification) keychain which has an identity on each card entered into the program by the owner. The devices used in this system are RFID (Radio Frequency Identification) as input, 16x2 LCD as display, relay as electronic switch and ATMega328P microcontroller that runs programs. The system works by an identification method using a means called RFID (Radio Frequency Identification) labels or transponders to store and retrieve data over long distances. RFID (Radio Frequency Identification) card ID or keychain stored in EEPROM memory on the microcontroller and RFID card or keychain tapped or affixed. If the card ID or keychain does not match several taps, the engine cannot be started, either the double starter or kick starter and the buzzer installed will give an alarm for 60 seconds.
Design and Application of RFID Microcontroller-Based Starter System Using Sim Card (Driver's License) Kasum, Kasum; Kasman, Alber
Jurnal Inovatif : Inovasi Teknologi Informasi dan Informatika Vol. 6 No. 2 (2023)
Publisher : Universitas Ibn Khaldun Bogor

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

Abstract

A Driver's License (SIM) is proof of registration and identification given by the Indonesian National Police to a person who has met administrative requirements, is physically and spiritually healthy, understands traffic regulations and is skilled in driving a motor vehicle and has a driver's license as one of the safety drivers, where when a person has a driver's license, it indicates that a person is fit to carry a vehicle. The purpose of this final project is to make a driver's license or driver's license a special key for motor vehicles that have many benefits. The system, which is designed using RFID cards, will detect cards that already have a special id. The controller used is an atmega328 microcontroller. The relay is used as a switch that serves to disconnect the current from the motor battery to the starter system and output to the alarm buzzer. The way this RFID-based starter system works is that when the rfid is registered in the microcontroller program, the rfid can be used to start the machine by bringing the rfid closer to the rfid reader tag, then the reader tag will read the rfid card on the microcontroller system and be forwarded to the relay, then to the starter motor , then the engine starts, then when the rfid is not registered, the buzzer The alarm will turn on. With RFID cards, it prevents underage or unlicensed drivers and drivers always carry their driver's license. Motorized vehicles can be kept safe, they must use an RFID card that has been registered and if it is not registered, it can be read by the system, then the buzzer alarm sounds.
Design of ABS Pneumatic Brake Simulation Tool Arduino Based Hidayat, Nur; Hamid, Hamid
Jurnal Inovatif : Inovasi Teknologi Informasi dan Informatika Vol. 6 No. 2 (2023)
Publisher : Universitas Ibn Khaldun Bogor

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

Abstract

The simulation of the pneumatic antiloc brake system (ABS) is a system on the vehicle that functions to prevent the wheels from locking during sudden braking. The application of the antilock brake system is still limited to certain vehicles because the price is quite expensive. For this reason, a study on the ABS brake simulation system was carried out to find out how the pneumatic brake system works. The addition of ultrasonic sensor components that are controlled through arduino ABS is poured into the design of the ABS pneumatic brake system (antilockbrakesystem). This test was carried out to determine the ultrasonic sensor control as an automatic control of the brake with a variation in the distance set on the arduino microcontroller brake control (200 cm, 100 cm) performs air solenoid control as a braking trigger in the condition before, during and after braking. The research was conducted looking at the control of the Arduino application monitor. From the results of the study, it was obtained that the addition of ultrasonic sensor components to the condition when the vehicle has obstacles or obstacles to brake work automatically which often occurs in urban areas. The system is carried out using ultrasonic trigger work. From this data, the ABS braking system works according to the ABS braking system settings that rely on ultrasonic distance resistance to produce medium to full valve closure commands.
Microcontroller-Based Car Automatic Braking System Nasrullah, Hamid; Kasman, Albert
Jurnal Inovatif : Inovasi Teknologi Informasi dan Informatika Vol. 6 No. 2 (2023)
Publisher : Universitas Ibn Khaldun Bogor

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

Abstract

Traffic accidents are one of the largest causes of death in the world, with Indonesia being one of the countries that records a high death rate due to accidents. One of the main factors causing accidents is the driver's negligence in controlling the vehicle. In an effort to reduce accidents, automatic braking technology is an effective solution to prevent accidents due to braking system failure or the driver's inability to brake properly. The research aims to design and test an automatic braking system using an Arduino-based microcontroller and ultrasonic sensors to detect the distance of the obstacle in front of the vehicle. The system is designed to stop the vehicle automatically before it hits an obstacle, with testing conducted using the system's delay settings to optimise stopping distance. The test results showed that at a delay setting of 150 ms, the vehicle stopped at an average distance of 18.56 cm from the target of 20 cm, while at a delay setting of 300 ms, the vehicle stopped at an average distance of 25.44 cm from the target of 30 cm. This system shows a fairly high success rate in improving vehicle safety and reducing the risk of accidents.
Design of IoT-Based Temperature and Humidity Monitoring System to Support Work Environment Safety in Furniture Workshop Arini, Nuskha Ilma; Etruly, Niki; Prasetya, Juliasari
Jurnal Inovatif : Inovasi Teknologi Informasi dan Informatika Vol. 7 No. 2 (2024)
Publisher : Universitas Ibn Khaldun Bogor

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

Abstract

The furniture industry is one of the sectors with high risks to the health and safety of workers. Permenaker No. 5 of 2018 establishes comfortable working temperature standards between 18°C - 28°C, with humidity levels between 40% - 60%. Uncontrolled temperature and humidity conditions in furniture workshop environments can lead to various health and safety issues, including dehydration, fatigue, decreased concentration, and increased risk of workplace accidents. The furniture workshop is a learning facility at Polifurneka, equipped with various machines for furniture production processes. To ensure a safe working environment in the Polifurneka furniture workshop, a system is needed to measure working conditions in real time. This allows workshop managers to identify high-risk areas and take appropriate preventive actions. One preventive measure that can be implemented is the development of an Internet of Things (IoT)-based temperature and humidity monitoring system. This study develops an IoT-based temperature and humidity monitoring system to monitor working conditions in the furniture workshop using two types of sensors: DHT 11 and DHT 22 sensors. From the test results of these two sensors, DHT 22 sensor demonstrates a higher accuracy level, both for temperature and humidity readings compared to the DHT 11 sensor.
The Development of a Deep Learning-Based Chatbot for Stock Keeping Unit (SKU) Management Julianto, Hendra; Wijaya, Gautama; Haeruddin, Haeruddin
Jurnal Inovatif : Inovasi Teknologi Informasi dan Informatika Vol. 7 No. 2 (2024)
Publisher : Universitas Ibn Khaldun Bogor

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

Abstract

Digital communications platforms, one of the revolutionary breakthroughs brought by rapid technological development. Such breakthroughs include technology in chatbots, which has now become a mighty tool, especially within the commercial sectors. This research hence focuses on the evolution of a chatbot in solving SKU management problems through deep learning technologies, such as the Multilayer Perceptron neural networks. The chatbot's goal is to deliver precise and effective information on SKU codes, stock levels, and product characteristics. The chatbot showed a high accuracy rate of 98% in answering questions about the given dataset after extensive testing. The findings demonstrate the potential of chatbots with deep learning to improve customer service and operational effectiveness in companies

Page 3 of 3 | Total Record : 26

 1   2   3 

Filter by Year

2023 2024


Reset
Filter By Issues
All Issue Vol. 7 No. 2 (2024) Vol. 7 No. 1 (2024) Vol. 6 No. 2 (2023)