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Sistem Komputer & Teknologi Intelegensi Artifisial (SIKOMTIA)
Published by Universitas Bung Karno
ISSN : -     EISSN : 29648602     DOI : https://doi.org/10.59039/sikomtia
Core Subject : Science, Engineering,
Computer Science & IT Control & Systems Engineering
Jurnal Sistem Komputer & Teknologi Intelegensi Artifisial (SIKOMTIA) diterbitkan enam bulanan pada bulan Juni dan Desember oleh FIKOM, Universitas Bung Karno. Jurnal SIKOMTIA bertujuan untuk mempublikasikan penelitian terkini dalam bidang sistem komputer dan teknologi kecerdasan buatan. Jurnal ini menyediakan wadah bagi para peneliti, akademisi, dan profesional untuk berbagi pengetahuan, gagasan, dan inovasi terkait pengembangan sistem komputer dan aplikasi kecerdasan buatan. Ruang lingkup SIKOMTIA meliputi topik-topik seperti pemrosesan bahasa alami, pengenalan pola, pengolahan citra, robotika, jaringan saraf tiruan, logika fuzzy, sistem ekspert, dan pengoptimalan algoritma. Melalui publikasi yang berkelanjutan akan mendorong perkembangan dan pemahaman yang lebih baik tentang implementasi teknologi komputer dan kecerdasan buatan yang relevan dengan kebutuhan masyarakat dan industri. Artikel yang diterbitkan ditinjau secara double-blind. Keputusan untuk menerima atau tidak adalah hak dewan redaksi berdasarkan rekomendasi peninjau.
Arjuna Subject : Ilmu Komputer (semua kategori) - Ilmu Komputer (Lain-Lain)
Articles 8 Documents
 1 
Search results for , issue "Vol. 1 No. 2 (2023): June" : 8 Documents clear
Rancang Bangun Robot Beroda Penggerak Kipas dengan Deteksi Api Berbasis Mikrokontroler Atmega328 Roby Anggi Maresya Putra; Asruddin Asruddin; Yoga Listi Prambodo
Sistem Komputer & Teknologi Intelegensi Artifisial (SIKOMTIA) Vol. 1 No. 2 (2023): June
Publisher : FIKOM Universitas Bung Karno

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (951.884 KB) | DOI: 10.59039/sikomtia.v1i2.9

Abstract

Electricity is inseparable from human daily life. Many devices operate by utilizing electrical energy. If there is negligence in its usage, it can cause electrical short circuits and even lead to fires. Fires that occur can have a significant impact on the surrounding community and the environment. To address this issue, a prototype in the form of a robot needs to be developed, which has the ability to detect and extinguish fires. Utilizing technological advancements such as fire detection sensors that can communicate with a microcontroller to search for and detect the presence of fire, as well as assistance from ultrasonic sensors to detect obstacles. The fire extinguishing mechanism of this robot prototype utilizes a fan module that becomes active when a fire is detected.
Rancang Bangun Purwarupa Alat Penyanitasi Tangan Menggunakan Sensor Ultrasonik Berbasis Arduino Unggul Boy Natanail; Yoga Listi Prambodo; Mega Tri Kurnia
Sistem Komputer & Teknologi Intelegensi Artifisial (SIKOMTIA) Vol. 1 No. 2 (2023): June
Publisher : FIKOM Universitas Bung Karno

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (482.075 KB) | DOI: 10.59039/sikomtia.v1i2.10

Abstract

Hands are one of the potential mediums for viruses to enter the body during daily activities, so handwashing is one way to prevent the entry of viruses into the body. Using a hand sanitization device is one alternative. An automatic hand sanitization device can be useful in encouraging people to wash their hands without having to touch the device itself, which is usually done manually by pressing to dispense the soap. By planning and creating an automated hand sanitization system based on Arduino integrated with an ultrasonic sensor, this provides a solution to detect objects around the container. Consequently, the servo motor component will work automatically as a lever presser on the soap container pump. The hand sanitization device is programmed using simple instructions, and its performance will help the community prevent the entry of viruses by cleaning their hands after activities without having to touch the soap container.
Rancang Bangun Purwarupa Mobil Bergerak Menggunakan Pengendali Suara Berbasis Mikrokontroler Atmega328 Serli Yuni Wulandari; Joko Saputro; Asruddin Asruddin
Sistem Komputer & Teknologi Intelegensi Artifisial (SIKOMTIA) Vol. 1 No. 2 (2023): June
Publisher : FIKOM Universitas Bung Karno

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (562.275 KB) | DOI: 10.59039/sikomtia.v1i2.11

Abstract

One type of prototype car with interesting special abilities to develop is a voice-controlled prototype car based on the ATmega328 microcontroller module EasyVR, Motor Driver as the stepper motor controller, and using wheels with a stepper motor as the driver. EasyVR Commander serves as the voice recorder. In the control system, several voice commands are used. The first command is "ROBOT", waiting for the LED to light up, and then the second command is "FORWARD", which makes the prototype car move forward. The first command is "ROBOT", waiting for the LED to light up, and then the second command is "REVERSE", which makes the prototype car move backward. The first command is "ROBOT", waiting for the LED to light up, and then the second command is "RIGHT", which makes the prototype car move to the right. The first command is "ROBOT", waiting for the LED to light up, and then the second command is "LEFT", which makes the prototype car move to the left. The first command is "ROBOT", waiting for the LED to light up, and then the second command is "ACTION", which triggers a reaction from the prototype car. The prototype car will move according to voice commands and pressure through sound waves.
Rancang Bangun Purwarupa Alat Pembuka Pintu Garasi Menggunakan Limit Switch dan Fingerprint Berbasis Arduino Juanda Manik; Joko Saputro; Yoga Listi Prambodo
Sistem Komputer & Teknologi Intelegensi Artifisial (SIKOMTIA) Vol. 1 No. 2 (2023): June
Publisher : FIKOM Universitas Bung Karno

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1164.439 KB) | DOI: 10.59039/sikomtia.v1i2.12

Abstract

In everyday life, many activities are commonly performed manually. Therefore, it is not surprising that microcontroller-based technology is now being implemented, allowing manual processes to be automated. This research aims to address the dependency on human labor in manually opening and closing garage doors. A garage door is a mechanical device used to enclose the parking space for vehicles inside a house. The problem often faced by garage owners is the need for human assistance in opening the garage door. In this research, an innovative automatic device is proposed to open and close the garage door using a pressure sensor using limit switch and fingerprint sensor based on the Arduino microcontroller. By utilizing this technology, garage owners can easily operate the garage door without human intervention. The pressure sensor detects the position of the vehicle near the door, while the fingerprint sensor is used to provide restricted access only to authorized users.
Rancang Bangun Purwarupa Alat Pengayun Ranjang Bayi Menggunakan Sensor Suara Berbasis Mikrokontroler Atmega328 Antonius Son Gelu; Yoga Listi Prambodo; Mega Tri Kurnia
Sistem Komputer & Teknologi Intelegensi Artifisial (SIKOMTIA) Vol. 1 No. 2 (2023): June
Publisher : FIKOM Universitas Bung Karno

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (777.079 KB) | DOI: 10.59039/sikomtia.v1i2.13

Abstract

Baby cribs typically require human effort to swing, which can be time-consuming and exhausting if done manually by a person continuously. Hence, the idea emerged to design a prototype device that can automatically swing the baby crib, helping to ease the mother's task, just like cradling a baby. The purpose of this prototype device is to lighten the burden of mothers who often become fatigued when soothing their children and then need to leave them in a calm state to attend other activities. This device can automatically swing the crib triggered by the sound of a crying baby, which will be detected by a sound sensor and processed by the ATmega328 microcontroller on Arduino. Subsequently, Arduino commands the servo motor to activate and swing the baby crib. Having this device will provide benefits in assisting a mother to soothe her baby while still being able to carry out other activities.
Rancang Bangun Prototipe Sistem Start Engine dan Alarm Sepeda Motor Menggunakan Mikrokontroler Arduino Berbasis Android Punaji Haruman; Joko Saputro; Asruddin Asruddin
Sistem Komputer & Teknologi Intelegensi Artifisial (SIKOMTIA) Vol. 1 No. 2 (2023): June
Publisher : FIKOM Universitas Bung Karno

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (807.452 KB) | DOI: 10.59039/sikomtia.v1i2.14

Abstract

The rapid development of information technology has had a significant impact on various fields, both through the use of electronics and mobile devices, as well as the easily developed Android operating system. However, the current vehicle security systems are still inadequate in ensuring the safety of vehicles, especially concerning criminal activities such as theft and robbery. To address this issue, the idea of implementing a telephone facility through research has emerged, aiming to design and create a prototype of a start engine and motorcycle alarm system using the Arduino microcontroller based on Android. The purpose of this research is to reduce the frequency of crimes that occur through tampering with vehicle contacts, with the expectation that the implementation of an improved security system will lead to a decrease in vehicle theft cases and provide better protection for vehicle owners.
Rancang Bangun Alat Pemantau Suhu Kandang Ayam dan Stok Pakan Menggunakan Arduino Nano Berbasis SMS Gateway Eko Ardyansyah; Yoga Listi Prambodo; Asruddin Asruddin
Sistem Komputer & Teknologi Intelegensi Artifisial (SIKOMTIA) Vol. 1 No. 2 (2023): June
Publisher : FIKOM Universitas Bung Karno

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (771.008 KB) | DOI: 10.59039/sikomtia.v1i2.15

Abstract

This research focuses on the development of a temperature monitoring device for chicken coops and chicken feed, which is essential in the poultry industry. The device is designed to address specific conditions in the livestock industry that cannot be manually handled by humans. The design methodology involves software development using object modeling (UML), hardware design through circuit schematics, and the construction of the device. The device utilizes HC-SR04 ultrasonic sensor and DHT11 sensor to measure humidity and temperature inside the chicken coop. Testing is conducted to measure the chicken feed supply using the ultrasonic sensor, as well as the humidity and temperature inside the chicken coop using the DHT11 sensor. The final outcome of this research is the implementation of a temperature monitoring device for chicken coops and chicken feed that functions according to the needs of poultry farmers. The Arduino Nano microcontroller is integrated with an SMS gateway device as an intermediary to transmit programmed process instructions as text messages containing real-time information.
Rancang Bangun Purwarupa Pengendali Relay Menggunakan Mikrokontroler Arduino Berbasis Internet of Things Ilham Ilham; Asruddin Asruddin; Joko Saputro
Sistem Komputer & Teknologi Intelegensi Artifisial (SIKOMTIA) Vol. 1 No. 2 (2023): June
Publisher : FIKOM Universitas Bung Karno

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (929.684 KB) | DOI: 10.59039/sikomtia.v1i2.16

Abstract

Electricity is one of the essential needs for human life, as almost every activity humans engage in involves the use of electric energy. The advancement of technology in the field of computers has enabled humans to have a forward-thinking mindset in the application of electronic devices. The development of sophisticated technology that can remotely control household electronic devices such as lights using the Internet of Things (IoT) aims to save electrical energy used in each home. IoT serves as a transmission medium for embedded computing devices that are individually identified within the internet infrastructure. The control system in this research is designed through the relay circuit control method using the Arduino ATmega328 microcontroller as the central control unit of the system. It is supported by the ESP8266 WiFi module, which functions as a communication tool between the microcontroller and the wide-ranging interconnection network via WiFi, collaborating through a user interface design for an Android-based application.

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