Garuda - Garba Rujukan Digital

Pemanfaatan Metode AIDA Dalam Desain Website Sebagai Media Promosi Produk Pada UMKM Andik Prakasa Hadi; Ahmad Zainudin; Nuris Dwi Setiawan
JUPITER (Jurnal Penelitian Ilmu dan Teknologi Komputer) Vol 13 No 2 (2021): JUPITER Edisi Oktober 2021
Publisher : Teknik Komputer Politeknik Negeri Sriwijaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/3657.jupiter.2021.10

KISS Semarang is an UMKM located in Mangunharjo, established in 2010. “KISS” Semarang MSME has done media promotions by distributing brochures. However, it is not optimal in its promotional media. A product catalog in the business world is a medium that serves to promote goods sold to attract buyers, in the business world a catalog is very important because it is more efficient to promote the products offered. The design of the website design in this study uses the AIDA analysis method: Attention, Interest, Desire, Action. In this study, the authors set KISS Semarang as the research subject, the data obtained for research needs using techniques such as interviews, observations, questionnaires and literature studies. The results showed that in field trials, website design was useful and could be used to promote products.

Implementasi Internet Of Things (Iot) Dalam Monitoring Suhu Dan Kelembaban Ruang Produksi Obat Non Steril Menggunakan Arduino Berbasis Web Fujiama Diapoldo Silalahi; Jarot Dian; Nuris Dwi Setiawan
JUPITER (Jurnal Penelitian Ilmu dan Teknologi Komputer) Vol 13 No 2 (2021): JUPITER Edisi Oktober 2021
Publisher : Teknik Komputer Politeknik Negeri Sriwijaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/3662.jupiter.2021.10

Information technology can improve the quality of work in industry. One of them is about monitoring temperature and humidity in non-sterile drug production rooms. This temperature and humidity is monitored by the QA (Quality Assurance) department, which is used to see if the temperature and humidity of the non-sterile drug production room is well conditioned. From the existing problems, it is necessary to have an intelligent system that can monitor temperature and humidity appropriately and periodically. One of them is the use of the Internet of Things (IoT) for Simulation of Temperature and Humidity in a Non-Sterile Drug Production Room using a Temperature Sensor (LM35) and an Arduino and Web-Based Humidity Sensor (DHT 22). This tool will detect the temperature and humidity in each non-sterile drug production room periodically, if the temperature exceeds the maximum limit in the non-sterile drug production room, the fan will turn on releasing hot air inside. From all the data that has been collected, it will be processed by the Arduino Uno R3 microcontroller and will be displayed on the website as an interface, for early detection on the website, a DC Fan appears which rotates when the temperature exceeds the maximum limit. Data transmission uses ESP8266 as a wireless module.

Sistem Monitoring Detak Jantung Untuk Mendeteksi Tingkat Kesehatan Jantung Berbasis Internet Of Things Menggunakan Android Jarot Dian; Fujiama Diapoldo Silalahi; Nuris Dwi Setiawan
JUPITER (Jurnal Penelitian Ilmu dan Teknologi Komputer) Vol 13 No 2 (2021): JUPITER Edisi Oktober 2021
Publisher : Teknik Komputer Politeknik Negeri Sriwijaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/3669.jupiter.2021.10

The heart is a vital human organ that has an important role. Human heart rate is also an important factor in determining a person's level of health. A slow or fast heart rate will have a negative impact on a person's health. To find out if the heart rate is still beating normally or not, then measurements are taken, both measurements with experts and with heart rate measuring instruments. The adult heart rate ranges from 60-100 bpm. Through technological developments in telecommunications systems, users can obtain the desired information. One of these technological developments is the use of a microcontroller that can control or send data via sensors. From the above background, the author makes a system or tool that can monitor the heart rate to detect the level of health. This system utilizes a wemos microcontroller and a pulse sensor that will read the heart rate beats per minute.

Sistem Monitoring Kesehatan Karyawan Menggunakan Wemos D1 Untuk Antisipasi Penularan Covid 19 Berbasis Internet Of Things Nuris Dwi Setiawan; Irene Ongkowijoyo
JUPITER (Jurnal Penelitian Ilmu dan Teknologi Komputer) Vol 13 No 2 (2021): JUPITER Edisi Oktober 2021
Publisher : Teknik Komputer Politeknik Negeri Sriwijaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/3945.jupiter.2021.10

The Covid-19 pandemic has had a negative impact on the economic sector, many companies have laid off employees to reduce transmission, but this has caused a bigger problem. The decline in production levels threatens to make companies lose money, this is responded well by the government by issuing a "New Normal" policy. ” is a policy that allows a company to employ employees with strict health protocols. One of the contents of the protocol is to monitor the body temperature of employees when they enter the company, checking body temperature when entering the company is not enough because there are often employees who suddenly get sick at work, employee health conditions that are not monitored properly will have an impact. further spread of the corona virus. The creation of a real-time employee health monitoring system will help anticipate the transmission of covid-19 detected from body temperature, using the MLX90614 sensor connected to the Wemos D1 microcontroller which is used to manage data from the sensor and send data wirelessly. This device can turn on the buzzer automatically if the employee's body temperature is above the normal body temperature limit to warn the company if the employee's health condition is not good, the tool is packaged in a practical way so that it can be used by employees throughout work and does not interfere with performance, monitoring results obtained will be displayed to the user in real time through the Android Application interface and will be stored in the form of a text file in the database.

PERANCANGAN APLIKASI JALUR PENDAKIAN DAN MONITORING PENDAKI GUNUNG UNGARAN BERBASIS GLOBAL POSITIONING SYSTEM (GPS) Khoirur Rozikin; Nuris Dwi Setiawan
Teknik: Jurnal Ilmu Teknik dan Informatika Vol 1 No 1 (2021): Mei : Jurnal Ilmu Teknik dan Informatika
Publisher : LPPM Sekolah Tinggi Ilmu Ekonomi - Studi Ekonomi Modern

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51903/teknik.v1i1.26

Ungaran Mountain has a height of 2050 meters above sea level, this mountain is suitable for beginner climbers who want to know more about climbing hobbies, Ungaran climbers themselves only take about 3-5 hours, depending on the speed of walking, the climbing route is also quite light and very suitable for heating before starting to climb higher mountains. Thus many novice climbers who want to try to climb and conquer Mount Ungaran, armed with minimal experience of mountain climbing, the risks they face are even greater, ranging from getting lost, being hypothermic to death while climbing. To make it easier for Ungaran mountain climbers who are dominated by novice climbers in this study, the Ungaran Mountaineering Track and Monitoring Application Based on the Global Positioning System (GPS) on the Android System "which was built to make it easier for Ungaran mountain climbers to access information provided by Ungaran mountain climbers. needed to climb Mount Ungaran, and it is also useful for the team at base camp to monitor climbers who climb..

Pengembangan Perangkat Pembelajaran Fisika Berbasis Multimedia Pada Materi Impuls Dan Momentum Daniel Rutdjiono; Nuris Dwi Setiawan
Teknik: Jurnal Ilmu Teknik dan Informatika Vol 1 No 1 (2021): Mei : Jurnal Ilmu Teknik dan Informatika
Publisher : LPPM Sekolah Tinggi Ilmu Ekonomi - Studi Ekonomi Modern

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51903/teknik.v1i1.28

This study aims to design and develop an effective learning media and become a media to assist in studying Physics in depth at SMK Mataram Semarang, especially in the Impulse and Momentum material. Physics becomes a boring subject for students, because many students think that Physics is a lesson that is difficult to understand, less interesting and feels monotonous. This has an impact on decreasing students' interest and value in studying Physics.The research was conducted using the Research and Development (R&D) method with six stages, namely Research and Information Collecting (Research and Information Gathering), Planning (planning), Develop Premliminary Form of Product (Product Design Making), Premliminary Field Testing (Product Design Validation) , Main Product Revision (Design Revision), Main Field Testing (Product Testing of Products in the Field by Prospective Users). Determination of the feasibility level of multimedia-based learning media based on design validation by experts and product trials to students using a research instrument in the form of a questionnaire. The development of multimedia-based learning devices can develop devices that have been used so far, from conventional devices to become more interesting learning media. The application of multimedia-based learning media can help support the teaching and learning process to make it easier to explain or deliver material to students. In addition, it can help students to understand more deeply so that students' scores can be increased more than without using learning media.

Otomasi Pencampur Nutrisi Hidroponik Sistem NTF (Nutrient Film Technique) Berbasis Arduino Mega 2560 Nuris Dwi Setiawan
Jurnal Teknik Informatika UNIKA Santo Thomas Vol 3 No 2: Tahun 2018
Publisher : LPPM UNIKA Santo Thomas

Menanam dengan sistem hidroponik adalah mengganti tanah dengan menggunakan air sebagai media tanam, diperlukan sistem pengairan dan pemberian nutrisi yang tepat agar tanaman dapat berkembang dengan baik, salah satunya adalah NFT (Nutrient Film Technique) sistem ini membuat akar tanaman tersirkulasi sehingga mendapatkan cukup air, nutrisi dan oksigen, pada sistem NFT memerlukan tangki penampung sebagai tempat pencampuran nutrisi dengan air yang dialirkan ke akar tanaman, pemberian nutrisi harus dengan takaran yang tepat yang terdiri dari pencampuran pupuk dengan air. Sistem NFT merupakan sistem tanam yang baik namun membutuhkan waktu yang banyak terutama untuk mengamati stok nutrisi.[1] Sitem otomasi yang menggunakan Arduino Mega 2560 dan terintegrasi dengan berbagai sensor, sistem otomasi untuk hidroponik antara lain untuk mengatur pompa, LED grow light, sistem pemupukan dan water flow. Hasil yang akan dicapai adalah hidroponik dengan sistem NTF yang mempunyai otomasi pencampuran nutrisi.

Perancangan sistem Perawatan Aquaponik Tanaman Cabe Rawit Dan Ikan Lele Menggunakan Arduino Berbasis Internet Of things Nuris Dwi Setiawan
Jurnal Teknik Informatika UNIKA Santo Thomas Vol 5 No 1 Tahun 2020
Publisher : LPPM UNIKA Santo Thomas

require a large area, but there are still problems, namely in terms of watering, but there are still problems with the aquaponic plant care system, the manual system used has not been able to detect turbidity in the water in the pond catfish, detecting water pH in fish ponds, temperature detecting water in catfish ponds automatically and in real time, this requires cultivators to check water conditions continuously, this is quite troublesome. From the existing problems, it is necessary to have an intelligent system that can monitor the aquaponics system in real time and with precision. One of them is to use a smart system using an Arduino based on the Internet of Things. The tool used is Arduino. Arduino functions to process signals from the ds18b20 temperature sensor, turbidity sensor, and water pH as components and to display a 16x2 LCD. Arduino is implemented with a program that functions as an initializer and hardware configuration as well as reading signals and input from the temperature sensor and cloudy, pH water which then processes it given several conditions to produce information and display the LCD. The results of the study can control the temperature sensor, cloudiness, pH of the water, automatically in the aquaponic system maintenance, the measurements obtained from the sensors installed in the Cayenne Pepper and Catfish Treatment System Using the Arduino-Based Aquaponic Method. The light will be active when the temperature is not normal, and if the water is cloudy, the pH is not normal, the red light will be on.

Otomasi Pencampur Nutrisi Hidroponik Sistem NTF (Nutrient Film Technique) Berbasis Arduino Mega 2560 Nuris Dwi Setiawan
Jurnal Teknik Informatika UNIKA Santo Thomas Vol 3 No 2: Tahun 2018
Publisher : LPPM UNIKA Santo Thomas

Menanam dengan sistem hidroponik adalah mengganti tanah dengan menggunakan air sebagai media tanam, diperlukan sistem pengairan dan pemberian nutrisi yang tepat agar tanaman dapat berkembang dengan baik, salah satunya adalah NFT (Nutrient Film Technique) sistem ini membuat akar tanaman tersirkulasi sehingga mendapatkan cukup air, nutrisi dan oksigen, pada sistem NFT memerlukan tangki penampung sebagai tempat pencampuran nutrisi dengan air yang dialirkan ke akar tanaman, pemberian nutrisi harus dengan takaran yang tepat yang terdiri dari pencampuran pupuk dengan air. Sistem NFT merupakan sistem tanam yang baik namun membutuhkan waktu yang banyak terutama untuk mengamati stok nutrisi.[1] Sitem otomasi yang menggunakan Arduino Mega 2560 dan terintegrasi dengan berbagai sensor, sistem otomasi untuk hidroponik antara lain untuk mengatur pompa, LED grow light, sistem pemupukan dan water flow. Hasil yang akan dicapai adalah hidroponik dengan sistem NTF yang mempunyai otomasi pencampuran nutrisi.

Perancangan sistem Perawatan Aquaponik Tanaman Cabe Rawit Dan Ikan Lele Menggunakan Arduino Berbasis Internet Of things Nuris Dwi Setiawan
Jurnal Teknik Informatika UNIKA Santo Thomas Vol 5 No 1 Tahun 2020
Publisher : LPPM UNIKA Santo Thomas

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54367/jtiust.v5i1.1558

require a large area, but there are still problems, namely in terms of watering, but there are still problems with the aquaponic plant care system, the manual system used has not been able to detect turbidity in the water in the pond catfish, detecting water pH in fish ponds, temperature detecting water in catfish ponds automatically and in real time, this requires cultivators to check water conditions continuously, this is quite troublesome. From the existing problems, it is necessary to have an intelligent system that can monitor the aquaponics system in real time and with precision. One of them is to use a smart system using an Arduino based on the Internet of Things. The tool used is Arduino. Arduino functions to process signals from the ds18b20 temperature sensor, turbidity sensor, and water pH as components and to display a 16x2 LCD. Arduino is implemented with a program that functions as an initializer and hardware configuration as well as reading signals and input from the temperature sensor and cloudy, pH water which then processes it given several conditions to produce information and display the LCD. The results of the study can control the temperature sensor, cloudiness, pH of the water, automatically in the aquaponic system maintenance, the measurements obtained from the sensors installed in the Cayenne Pepper and Catfish Treatment System Using the Arduino-Based Aquaponic Method. The light will be active when the temperature is not normal, and if the water is cloudy, the pH is not normal, the red light will be on.

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