2026-04-15T23:16:08Z https://journal.fikom.site/sikomtia/index.php/research/oai

oai:ojs.journal.fikom.site:article/1 2023-08-16T04:38:25Z research:ART

Rancang Bangun Alat Pengamanan Kotak Amal Menggunakan Sensor Sidik Jari dan SMS Gateway Berbasis Mikrokontroler Irawan, Thomas Yudi Prambodo, Yoga Listi Zulkarnain, Iskandar Charity Box Security Fingerprint SMS Gateway Microcontroller SIM800L Charity boxes provided in many public places today still use locks such as master locks or padlocks. The rampant cases of theft of charity boxes occur repeatedly because charity boxes are easily broken into and even transported by thieves. The absence of a double security system is an obstacle for charity box managers. Realizing the design concept of a double security system for charity boxes using several electronic components such as fingerprint sensors and methods of sending notifications will minimize the occurrence of the crime of theft or burglary of charity boxes. The security device design architecture is made using the notification method in the form of notifications via short messages using a communication device, namely the SIM800L serial module as a transmission medium for sending short message text data if irregularities are found in the charity box. This charity box security system uses an authorization system for managers who are entitled to be registered with the device in the form of a cellular number. The microcontroller control board plays an important role in processing various instructions so as to produce output information on the screen that is installed in the charity box to display access information when the device is working. Another feature of this tool is that it is equipped with a buzzer component as a warning sign in the form of a sound if an activity process is not recognized it will ring loudly according to the conditions. A security system like this will provide a solution and increase security in the storage of charity boxes so managers can feel comfortable. FIKOM Universitas Bung Karno 2022-12-31 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Peer-reviewed Article application/pdf https://journal.fikom.site/sikomtia/index.php/research/article/view/1 10.59039/sikomtia.v1i1.1 Sistem Komputer dan Teknologi Intelegensi Artifisial (SIKOMTIA); Vol. 1 No. 1 (2022): December; 1-12 2964-8602 10.59039/sikomtia.v1i1 eng https://journal.fikom.site/sikomtia/index.php/research/article/view/1/2 Copyright (c) 2022 Thomas Yudi Irawan, Yoga Listi Prambodo, Iskandar Zulkarnain https://creativecommons.org/licenses/by/4.0/

oai:ojs.journal.fikom.site:article/2 2023-08-16T04:38:25Z research:ART

Rancang Bangun Alat Kendali Aroma Ruangan Menggunakan Pengharum Ruangan Otomatis Berbasis Mikrokontroler Tupan, Klen Saputro, Joko Whendasmoro, Raditya Galih Unusual Aroma Air Freshener Bacteria Free RTC Module Microcontroller The average time spent indoors while working or doing activities tends to be long. A room needs a sense of comfort to support activities in the room. A comfortable room is not only influenced by attractive furniture and decorations, but the smell in the room is one of the most important factors to make residents feel comfortable when they are in it. Rooms that give off an unpleasant odor can come from bacteria that have long settled on decorative items and can cause an unnatural smell and disturb comfort. Therefore, a tool is needed to neutralize odors in unpleasant room conditions with an air freshener that can work automatically, so that the room smells good at all times and is consistent with the tool's working time. To overcome this, this study aims to design and build an automatic air freshener based on Arduino Uno using the Real Time Clock (RTC) module. FIKOM Universitas Bung Karno 2022-12-31 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Peer-reviewed Article application/pdf https://journal.fikom.site/sikomtia/index.php/research/article/view/2 10.59039/sikomtia.v1i1.2 Sistem Komputer dan Teknologi Intelegensi Artifisial (SIKOMTIA); Vol. 1 No. 1 (2022): December; 13-21 2964-8602 10.59039/sikomtia.v1i1 eng https://journal.fikom.site/sikomtia/index.php/research/article/view/2/3 Copyright (c) 2022 Klen Tupan, Joko Saputro, Raditya Galih Whendasmoro https://creativecommons.org/licenses/by/4.0/

oai:ojs.journal.fikom.site:article/3 2023-08-16T04:38:25Z research:ART

Rancang Bangun Alat Kendali Pengairan Perkebunan Selada Menggunakan Sensor Pengukur Debit Air Berbasis Mikrokontroler Alam, Akbar Tegar Prambodo, Yoga Listi Microcontroller Ultrasonic Water Pump Irrigation Lettuce Plantation The irrigation controller in lettuce plantation irrigation aims to optimize the water that enters the ditches around the lettuce plantations so that the lettuce plants are not easily damaged due to stagnant water during the rainy season which can result in crop failure. Using the literature study method, collect data from sources that are relevant to the topic of the problem which is the main cause of crop failure in lettuce. From the existing conditions, it is necessary to design a tool to be able to minimize the water discharge to overcome the problems that occur. Schematics on the design and workings of the device were obtained from field observations and designed in the form of a prototype and similar to the logic of the tool when it works. The instrument was instructed as a control for the tool to measure the water discharge equivalent to the need in the ditches around the lettuce plants and the tool tested applied voltage measurements when the tool performed at time intervals that matched the initial requirements. The results of the research applied to the tool can work automatically and maintain the stability of the distribution of power to each sensor used with test intervals according to the results of the needs of lettuce plantation farmers. FIKOM Universitas Bung Karno 2022-12-31 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Peer-reviewed Article application/pdf https://journal.fikom.site/sikomtia/index.php/research/article/view/3 10.59039/sikomtia.v1i1.3 Sistem Komputer dan Teknologi Intelegensi Artifisial (SIKOMTIA); Vol. 1 No. 1 (2022): December; 22-32 2964-8602 10.59039/sikomtia.v1i1 eng https://journal.fikom.site/sikomtia/index.php/research/article/view/3/4 Copyright (c) 2022 Akbar Tegar Alam, Yoga Listi Prambodo https://creativecommons.org/licenses/by/4.0/

oai:ojs.journal.fikom.site:article/4 2023-08-16T04:38:25Z research:ART

Rancang Bangun Alat Kontrol Lampu Jarak Jauh Menggunakan Mikrokontroler Berbasis Website Frare, Laban Yoel Ishak Ramos, Samuel Light Control Equipment Microcontroller Website Automation Wemos ESP8266 It is very important to pay attention to the management of electrical devices in spaces for human activity related to the specified time when the time is on and when it is off to avoid wasting energy using wasted energy. There are several procedures for managing electricity that has been implemented using renewable technology in the current era of industrial trends 4.0, including controlling lights and other electrical devices. In general, light control uses manual procedures by turning on the switch directly, starting from offices, shopping centers, public places and others. In this modern era, it is possible for humans to use technological updates by changing the use of light switches to become automatic using a microcontroller control board and a wifi module as a transmission medium that is integrated with the web as a portal for monitoring light points installed in a building or facilities. general. This study aims to obtain new habits of the community regarding the use of automatic light control devices in order to save on the cost of using electricity. This change is also beneficial for everyone who is outside the house in their daily life, so they don't have to go home when they want to turn on the lights. By using the website platform, electrical devices located in different rooms can be controlled via cell phones and can also be controlled via computers or gadgets. FIKOM Universitas Bung Karno 2022-12-31 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Peer-reviewed Article application/pdf https://journal.fikom.site/sikomtia/index.php/research/article/view/4 10.59039/sikomtia.v1i1.4 Sistem Komputer dan Teknologi Intelegensi Artifisial (SIKOMTIA); Vol. 1 No. 1 (2022): December; 78-90 2964-8602 10.59039/sikomtia.v1i1 eng https://journal.fikom.site/sikomtia/index.php/research/article/view/4/9 Copyright (c) 2022 Laban Yoel Ishak Frare, Samuel Ramos https://creativecommons.org/licenses/by/4.0/

oai:ojs.journal.fikom.site:article/5 2023-08-16T04:38:25Z research:ART

Perancangan dan Pembuatan Alat Pemantau Lampu Lalu Lintas Simpang Lima Menggunakan Mikrokontroler Berbasis Web Mejart, Fahri Prambodo, Yoga Listi Valentine, Hany Maria Monitoring System Traffic Lights Five Intersections Microcontroller ESP8266 Congestion has become a significant problem for road users, in particular, the occurrence of queues at intersections. Traffic lights have an important role related to the control system to regulate road users so that they are orderly in every queue at the crossroads. The current traffic light control system still uses a static timing system, so to solve this problem an innovation is needed in the form of making a traffic light monitoring device at a five-lane intersection using a web-based microcontroller as the input used to control road user traffic lights. The design of this tool uses a module with the ESP8266 series as a module capable of managing and sending data via internet media, by installing three LEDs each on five lanes which will be processed automatically, equipped with a buzzer component as a marker where traffic light signs are placed. . The circuit will be controlled using an Arduino type microcontroller with the ATmega2560 series. The results of the tests carried out show that the website that has been made can control LEDs, with a buzzer as a marker of information regarding the state of the traffic light, it can work with related provisions at intersections. FIKOM Universitas Bung Karno 2022-12-31 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Peer-reviewed Article application/pdf https://journal.fikom.site/sikomtia/index.php/research/article/view/5 10.59039/sikomtia.v1i1.5 Sistem Komputer dan Teknologi Intelegensi Artifisial (SIKOMTIA); Vol. 1 No. 1 (2022): December; 55-66 2964-8602 10.59039/sikomtia.v1i1 eng https://journal.fikom.site/sikomtia/index.php/research/article/view/5/7 Copyright (c) 2022 Fahri Mejart, Yoga Listi Prambodo, Hany Maria Valentine https://creativecommons.org/licenses/by/4.0/

oai:ojs.journal.fikom.site:article/6 2023-08-16T04:38:25Z research:ART

Rancang Bangun Purwarupa Alat Pengupas Buah Salak Berbasis Mikrokontroler Taufik, Taufik Saputro, Joko Prototype of Peeler Microcontroller TCS3200 Sensor Snakefruit Bipolar Stepper Snakefruit is a fruit that is widely known by the people of Indonesia, many varieties of salak plants have superior properties both in terms of taste and appearance of the fruit. The process of stripping the salak fruit itself still uses the manual method (by hand) or by using a kitchen knife. This peeling process is one of the obstacles in the production of salak fruit as a basic product because it takes a lot of time to peel a single salak fruit and requires extra precision so that the hands are not injured due to the rough texture of the salak skin. So the purpose of this research is to make a prototype of a snake fruit peeler using an Arduino microcontroller as a data processor using several other supporting sensors such as the TCS3200 color sensor as a detector for the color of the skin of the snake fruit and a stepper motor to drive the wheels on the machine. to facilitate the purpose of trading business as well as how the work of the tool in an efficient method and productivity that is more competent and useful. FIKOM Universitas Bung Karno 2022-12-31 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Peer-reviewed Article application/pdf https://journal.fikom.site/sikomtia/index.php/research/article/view/6 10.59039/sikomtia.v1i1.6 Sistem Komputer dan Teknologi Intelegensi Artifisial (SIKOMTIA); Vol. 1 No. 1 (2022): December; 43-54 2964-8602 10.59039/sikomtia.v1i1 eng https://journal.fikom.site/sikomtia/index.php/research/article/view/6/6 Copyright (c) 2022 Taufik Taufik, Joko Saputro https://creativecommons.org/licenses/by/4.0/

oai:ojs.journal.fikom.site:article/7 2023-08-16T04:38:25Z research:ART

Rancang Bangun Alat Transfer Data Teks Nirkabel Bawah Air Berbasis Mikrokontroler Duha, Erlin Yunus Saputro, Joko Sharyanto, Sharyanto Infrared Text Data Transfer Microcontroller Wireless Underwater Communication is a very important factor to avoid misunderstanding, with communication it will be easy to understand what is meant between the object of introduction and the recipient of information. However, communication is still an obstacle for those who carry out underwater activities such as diving. Many ordinary divers do not understand the diver's signal code which will be a problem because of the difficulty in communicating if something happens that requires them to carry out information sharing activities underwater. Innovation is needed to be implemented, namely research that is able to facilitate divers to communicate underwater the same as using diver sign language. The purpose of this research is to design a wireless data transfer tool that can be used underwater by utilizing the Arduino microcontroller control board as a data processing component supported by an infrared sensor as a transmitting medium which aims to capture infrared light waves as a wireless communication medium. The marker components such as LEDs and LCDs indicate and display information from the processing results when data is successfully received and sent. The power distribution uses low voltage currents to carry out the performance of wireless data transfers underwater with the results of safe test criteria while the device is working in water. FIKOM Universitas Bung Karno 2022-12-31 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Peer-reviewed Article application/pdf https://journal.fikom.site/sikomtia/index.php/research/article/view/7 10.59039/sikomtia.v1i1.7 Sistem Komputer dan Teknologi Intelegensi Artifisial (SIKOMTIA); Vol. 1 No. 1 (2022): December; 33-42 2964-8602 10.59039/sikomtia.v1i1 eng https://journal.fikom.site/sikomtia/index.php/research/article/view/7/5 Copyright (c) 2022 Erlin Yunus Duha, Joko Saputro, Sharyanto Sharyanto https://creativecommons.org/licenses/by/4.0/

oai:ojs.journal.fikom.site:article/8 2023-08-16T04:38:25Z research:ART

Perancangan Dan Pembuatan Alat Pengendali Pencahayaan Akuarium Berbasis Mikrokontroler Laila, Asnat Khettri Kurnia, Mega Tri Lighting Aquarium Microcontroller Biota Aquascape ESP32 Camera An important factor in the maintenance of biota for flora and fauna in the aquarium is about lighting the lights to illuminate the aquarium space properly besides being able to invite the attention of connoisseurs of the beauty of skilled craftsmen of aquascape biota. Lighting settings in the aquarium can also be useful for the survival of aquatic animals such as ornamental fish and aquatic plants that adorn the beauty of the aquarium. Good lighting is lighting that allows the biota objects in the aquarium to be seen clearly. Fish keepers or people who come to see the biota in the aquarium sometimes don't, so the lights are on continuously which can lead to a waste of electrical energy. The reason for this research is to design and build a lighting control device for a microcontroller-based aquarium, which can work automatically using the ESP32CAM module with a camera feature to recognize that it is true that there is no object other than a human face with a detected facial object, then the lighting of the aquarium light becomes bright and will die if no facial objects are found around the aquascape aquarium. FIKOM Universitas Bung Karno 2022-12-31 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Peer-reviewed Article application/pdf https://journal.fikom.site/sikomtia/index.php/research/article/view/8 10.59039/sikomtia.v1i1.8 Sistem Komputer dan Teknologi Intelegensi Artifisial (SIKOMTIA); Vol. 1 No. 1 (2022): December; 67-77 2964-8602 10.59039/sikomtia.v1i1 eng https://journal.fikom.site/sikomtia/index.php/research/article/view/8/8 Copyright (c) 2022 Asnat Khettri Laila, Mega Tri Kurnia https://creativecommons.org/licenses/by/4.0/

oai:ojs.journal.fikom.site:article/9 2023-08-16T04:38:33Z research:ART

Rancang Bangun Robot Beroda Penggerak Kipas dengan Deteksi Api Berbasis Mikrokontroler Atmega328 Putra, Roby Anggi Maresya Asruddin, Asruddin Prambodo, Yoga Listi Electricity Microcontroller Wheeled Robots Fire detection Extinguishing 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. FIKOM Universitas Bung Karno 2023-06-30 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Peer-reviewed Article application/pdf https://journal.fikom.site/sikomtia/index.php/research/article/view/9 10.59039/sikomtia.v1i2.9 Sistem Komputer dan Teknologi Intelegensi Artifisial (SIKOMTIA); Vol. 1 No. 2 (2023): June; 91-103 2964-8602 10.59039/sikomtia.v1i2 eng https://journal.fikom.site/sikomtia/index.php/research/article/view/9/10 Copyright (c) 2023 Roby Anggi Maresya Putra, Asruddin Asruddin, Yoga Listi Prambodo https://creativecommons.org/licenses/by/4.0

oai:ojs.journal.fikom.site:article/10 2023-08-16T04:38:33Z research:ART

Rancang Bangun Purwarupa Alat Penyanitasi Tangan Menggunakan Sensor Ultrasonik Berbasis Arduino Natanail, Unggul Boy Prambodo, Yoga Listi Kurnia, Mega Tri Microcontroller Viruses Handwashing Hand Sanitization Device Arduino 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. FIKOM Universitas Bung Karno 2023-06-30 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Peer-reviewed Article application/pdf https://journal.fikom.site/sikomtia/index.php/research/article/view/10 10.59039/sikomtia.v1i2.10 Sistem Komputer dan Teknologi Intelegensi Artifisial (SIKOMTIA); Vol. 1 No. 2 (2023): June; 104-111 2964-8602 10.59039/sikomtia.v1i2 eng https://journal.fikom.site/sikomtia/index.php/research/article/view/10/11 Copyright (c) 2023 Unggul Boy Natanail, Yoga Listi Prambodo, Mega Tri Kurnia https://creativecommons.org/licenses/by/4.0

oai:ojs.journal.fikom.site:article/11 2023-08-16T04:38:33Z research:ART

Rancang Bangun Purwarupa Mobil Bergerak Menggunakan Pengendali Suara Berbasis Mikrokontroler Atmega328 Wulandari, Serli Yuni Saputro, Joko Asruddin, Asruddin Prototype Car Microcontroller Stepper Motor Voice Commands EasyVR Commander 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. FIKOM Universitas Bung Karno 2023-06-30 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Peer-reviewed Article application/pdf https://journal.fikom.site/sikomtia/index.php/research/article/view/11 10.59039/sikomtia.v1i2.11 Sistem Komputer dan Teknologi Intelegensi Artifisial (SIKOMTIA); Vol. 1 No. 2 (2023): June; 112-124 2964-8602 10.59039/sikomtia.v1i2 eng https://journal.fikom.site/sikomtia/index.php/research/article/view/11/12 Copyright (c) 2023 Serli Yuni Wulandari, Joko Saputro, Asruddin Asruddin https://creativecommons.org/licenses/by/4.0

oai:ojs.journal.fikom.site:article/12 2023-08-16T04:38:33Z research:ART

Rancang Bangun Purwarupa Alat Pembuka Pintu Garasi Menggunakan Limit Switch dan Fingerprint Berbasis Arduino Manik, Juanda Saputro, Joko Prambodo, Yoga Listi Limit Switch Fingerprint Sensor Microcontroller-based Technology Garage Door Arduino 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. FIKOM Universitas Bung Karno 2023-06-30 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Peer-reviewed Article application/pdf https://journal.fikom.site/sikomtia/index.php/research/article/view/12 10.59039/sikomtia.v1i2.12 Sistem Komputer dan Teknologi Intelegensi Artifisial (SIKOMTIA); Vol. 1 No. 2 (2023): June; 125-136 2964-8602 10.59039/sikomtia.v1i2 eng https://journal.fikom.site/sikomtia/index.php/research/article/view/12/14 Copyright (c) 2023 Juanda Manik, Joko Saputro, Yoga Listi Prambodo https://creativecommons.org/licenses/by/4.0

oai:ojs.journal.fikom.site:article/13 2023-08-16T04:38:33Z research:ART

Rancang Bangun Purwarupa Alat Pengayun Ranjang Bayi Menggunakan Sensor Suara Berbasis Mikrokontroler Atmega328 Gelu, Antonius Son Prambodo, Yoga Listi Kurnia, Mega Tri Baby Crib Prototype Device Automatic Swing Microcontroller ATMega328 Sound Sensor 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. FIKOM Universitas Bung Karno 2023-06-30 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Peer-reviewed Article application/pdf https://journal.fikom.site/sikomtia/index.php/research/article/view/13 10.59039/sikomtia.v1i2.13 Sistem Komputer dan Teknologi Intelegensi Artifisial (SIKOMTIA); Vol. 1 No. 2 (2023): June; 137-148 2964-8602 10.59039/sikomtia.v1i2 eng https://journal.fikom.site/sikomtia/index.php/research/article/view/13/13 Copyright (c) 2023 Antonius Son Gelu, Yoga Listi Prambodo, Mega Tri Kurnia https://creativecommons.org/licenses/by/4.0

oai:ojs.journal.fikom.site:article/14 2023-08-16T04:38:33Z research:ART

Rancang Bangun Prototipe Sistem Start Engine dan Alarm Sepeda Motor Menggunakan Mikrokontroler Arduino Berbasis Android Haruman, Punaji Saputro, Joko Asruddin, Asruddin Alarm System Vehicle Security System Start Engine Arduino Android Application 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. FIKOM Universitas Bung Karno 2023-06-30 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Peer-reviewed Article application/pdf https://journal.fikom.site/sikomtia/index.php/research/article/view/14 10.59039/sikomtia.v1i2.14 Sistem Komputer dan Teknologi Intelegensi Artifisial (SIKOMTIA); Vol. 1 No. 2 (2023): June; 149-159 2964-8602 10.59039/sikomtia.v1i2 eng https://journal.fikom.site/sikomtia/index.php/research/article/view/14/17 Copyright (c) 2023 Punaji Haruman, Joko Saputro, Asruddin Asruddin https://creativecommons.org/licenses/by/4.0

oai:ojs.journal.fikom.site:article/15 2023-08-16T04:38:33Z research:ART

Rancang Bangun Alat Pemantau Suhu Kandang Ayam dan Stok Pakan Menggunakan Arduino Nano Berbasis SMS Gateway Ardyansyah, Eko Prambodo, Yoga Listi Asruddin, Asruddin Poultry industry Ultrasonic DHT11 Sensor Arduino Nano SMS Gateway 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. FIKOM Universitas Bung Karno 2023-06-30 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Peer-reviewed Article application/pdf https://journal.fikom.site/sikomtia/index.php/research/article/view/15 10.59039/sikomtia.v1i2.15 Sistem Komputer dan Teknologi Intelegensi Artifisial (SIKOMTIA); Vol. 1 No. 2 (2023): June; 160−171 2964-8602 10.59039/sikomtia.v1i2 eng https://journal.fikom.site/sikomtia/index.php/research/article/view/15/15 Copyright (c) 2023 Eko Ardyansyah, Yoga Listi Prambodo, Asruddin Asruddin https://creativecommons.org/licenses/by/4.0

oai:ojs.journal.fikom.site:article/16 2023-08-16T04:38:33Z research:ART

Rancang Bangun Purwarupa Pengendali Relay Menggunakan Mikrokontroler Arduino Berbasis Internet of Things Ilham, Ilham Asruddin, Asruddin Saputro, Joko Electricity Internet of Things Electronic Devices Arduino Microcontroller Android Based Application 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. FIKOM Universitas Bung Karno 2023-06-30 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Peer-reviewed Article application/pdf https://journal.fikom.site/sikomtia/index.php/research/article/view/16 10.59039/sikomtia.v1i2.16 Sistem Komputer dan Teknologi Intelegensi Artifisial (SIKOMTIA); Vol. 1 No. 2 (2023): June; 172−182 2964-8602 10.59039/sikomtia.v1i2 eng https://journal.fikom.site/sikomtia/index.php/research/article/view/16/16 Copyright (c) 2023 Ilham Ilham, Asruddin Asruddin, Joko Saputro https://creativecommons.org/licenses/by/4.0

oai:ojs.journal.fikom.site:article/17 2024-02-03T21:21:40Z research:ART

Penerapan Metode Color Based Detection Menggunakan Platform ESP32-Cam Sebagai Alat Pendeteksi Ikan Betta Varian Albino Ardiansyah, Fahmi Prambodo, Yoga Listi Iswidodo, Iswidodo ESP32-Cam Variant Identification Albino Betta Fish Object Detection Colour-Based Detection This research aims to overcome the problems that arise in identifying Betta fish variants, especially Albino variants, which are often difficult to distinguish by ordinary people due to difficulties in distinguishing visual differences. This problem encourages the need to develop a tool that is able to automatically distinguish Betta Albino fish variants. This research presents the concept of implementing the ESP32-Cam platform as a Betta Albino fish variant detection tool. The novelty of this research lies in the use of the ESP32-Cam platform which is an innovation as a detection tool. The urgency of this research lies in the need for a tool that can help ordinary people in identifying Betta Albino fish variants easily without requiring knowledge of Betta fish species. The method used in this research is colour-based detection using the eloquent surveillance library. The image capture process is done through an ESP32-Cam camera by utilising the concept of object detection and image processing. This research also involves the application of components such as TCS 3200, LM393, and LCD 1602 I2C to support the function of the detection tool. The results show that the Betta Albino fish variant object detection device is able to identify colour differences accurately. Through the ESP32-Cam platform, this tool successfully creates an automated solution that can distinguish Betta Albino fish variants well. In conclusion, this study confirms that the use of the ESP32-Cam platform in designing the Betta Albino fish variant detection tool can be practically applied. This tool has the potential to contribute in facilitating the accurate identification of Betta Albino fish variants to the general public. FIKOM Universitas Bung Karno 2023-12-31 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Peer-reviewed Article application/pdf https://journal.fikom.site/sikomtia/index.php/research/article/view/17 10.59039/sikomtia.v1i3.17 Sistem Komputer dan Teknologi Intelegensi Artifisial (SIKOMTIA); Vol. 1 No. 3 (2023): December; 183-191 2964-8602 10.59039/sikomtia.v1i3 eng https://journal.fikom.site/sikomtia/index.php/research/article/view/17/21 Copyright (c) 2023 Fahmi Ardiansyah, Yoga Listi Prambodo, Iswidodo Iswidodo https://creativecommons.org/licenses/by/4.0

oai:ojs.journal.fikom.site:article/18 2024-02-03T21:21:00Z research:ART

Rancang Bangun Alat Sortir Jeruk Medan Berdasarkan Luas Lingkar Berbasis Mikrokontroler ATMega2560 Ginting, Yafet Nikolas Abdillah, Junindo Sarimole, Frencis Matheos Orange Fruit Sorting Microcontroller Ultrasonic IR Proximity Automation The increasing demand in the agricultural sector demands efficient fruit sorting solutions. This study considered the design and implementation of a orange fruit sorter combining ultrasonic sensor technology, servo motor, and infrared proximity. This tool aims to measure small to large dimensions of orange fruits. The use of infrared proximity aims to counter the fruit in each path where the orange runs to its container, and then the calculated information is displayed on the LCD screen to provide clear information for farmers. The main advantage of this tool is its ability to automatically classify orange fruits by size and amount. The integration of ultrasonic sensors and infrared proximity provides accuracy in distance measurement and fruit counting. This tool innovation provides unprecedented solutions and potential in orange fruit sorting, and can increase productivity in the agricultural industry. This research uses a technology design and implementation approach by integrating ultrasonic sensors, servo motors, IR proximity, on microcontrollers. The designed tool is able to classify orange fruits automatically by size and number. The design of this orange sorter promises to increase efficiency in the agricultural industry. The implementation of sensor technology and automation systems has the potential to provide the right solution for fruit sorting needs. FIKOM Universitas Bung Karno 2023-12-31 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Peer-reviewed Article application/pdf https://journal.fikom.site/sikomtia/index.php/research/article/view/18 10.59039/sikomtia.v1i3.18 Sistem Komputer dan Teknologi Intelegensi Artifisial (SIKOMTIA); Vol. 1 No. 3 (2023): December; 192-198 2964-8602 10.59039/sikomtia.v1i3 eng https://journal.fikom.site/sikomtia/index.php/research/article/view/18/22 Copyright (c) 2023 Yafet Nikolas Ginting, Junindo Abdillah, Frencis Matheos Sarimole https://creativecommons.org/licenses/by/4.0

oai:ojs.journal.fikom.site:article/19 2024-02-03T21:20:08Z research:ART

Rancang Bangun Alat Monitoring Stamina Atlet Basket Menggunakan Mikrokontroler Berbasis Internet Of Things Rumata, Awaluddin Magain Marlin, Syamsu Harjono, Prawiro Stamina Monitoring Heart Rate Monitoring Basketball Athlete Microcontroller Internet of Things In this study discussed the importance of regulating stamina and heartbeat in basketball athletes, this device was designed to reduce the risk of fatalities in players to the end of death. To see the performance of the tool can be seen from some indicators about the stamina monitoring tool that can help to enhance the potential of players in preparing for the upcoming game, as well as can help the coach design the game strategy. The aim of this study is to look at the success of stamina monitoring devices designed for coaches, basketball athletes, and medical teams. The research methods used in this research are by collecting data through books and other literature, performing hardware design to explain schematic processes on tools as well as streams, and performing software design to describe schematical processes as tool commands. Based on the highest elevation data obtained to see the detected heart rate is at 60 and the lowest figure is at 44. It is expected that the subjects will be able to apply methods of exercise that can improve the stamina of basketball athletes. FIKOM Universitas Bung Karno 2023-12-31 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Peer-reviewed Article application/pdf https://journal.fikom.site/sikomtia/index.php/research/article/view/19 10.59039/sikomtia.v1i3.19 Sistem Komputer dan Teknologi Intelegensi Artifisial (SIKOMTIA); Vol. 1 No. 3 (2023): December; 199-205 2964-8602 10.59039/sikomtia.v1i3 eng https://journal.fikom.site/sikomtia/index.php/research/article/view/19/20 Copyright (c) 2023 Awaluddin Magain Rumata, Syamsu Marlin, Prawiro Harjono https://creativecommons.org/licenses/by/4.0

oai:ojs.journal.fikom.site:article/20 2024-02-03T21:19:19Z research:ART

Rancang Bangun Alat Pendeteksi Keaslian Batu Bacan Doko Berbasis Mikrokontroler ATMega2560 Alhamid, Umar Djafar Prambodo, Yoga Listi Asruddin, Asruddin Bacan Doko Stone Authenticity Detector Microcontroller Color Sensor Light Intensity This research designed and developed a tool to detect the authenticity of Bacan Doko. The development of this tool uses TCS3200 sensor components as a detection of color variations in stones, BH1750 sensors to measure light intensity, and LCD1602 to display information on stone detection results visually. This study aims to overcome the problem of identifying the authenticity of Bacan Doko stones which are often difficult to detect accurately by ordinary people who do not understand the world of gemology, which results in the existence of fake stones on the market. The presence of this tool provides innovation in the world of gemology by utilizing microcontroller and sensor technology to overcome the authentication problem of Bacan Doko stone accurately, and support the integrity of the gemstone market. The development of data processing algorithms is carried out to analyze and process information received from input values on sensors. The detection tool provides good results to recognize and distinguish genuine Bacan Doko stones based on the color characteristics of the sensor identification results TCS3200 taking into account the light intensity measured by the BH1750 sensor and information can be displayed clearly through the LCD screen. The development of this tool successfully proved its effectiveness in identifying the authenticity of Bacan Doko stone. This tool can be a reliable solution for traders and gemstone observers in ensuring the authenticity of Bacan Doko. FIKOM Universitas Bung Karno 2023-12-31 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Peer-reviewed Article application/pdf https://journal.fikom.site/sikomtia/index.php/research/article/view/20 10.59039/sikomtia.v1i3.20 Sistem Komputer dan Teknologi Intelegensi Artifisial (SIKOMTIA); Vol. 1 No. 3 (2023): December; 206-213 2964-8602 10.59039/sikomtia.v1i3 eng https://journal.fikom.site/sikomtia/index.php/research/article/view/20/23 Copyright (c) 2023 Umar Djafar Alhamid, Yoga Listi Prambodo, Asruddin Asruddin https://creativecommons.org/licenses/by/4.0 185a6b25f8fc9d6d8c733fadb8da62b1