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All Journal Jurnal Teknoin Technologia: Jurnal Ilmiah Jurnal Arsitektur dan Perencanaan (JUARA)
Medilla Kusriyanto, Medilla
Jurusan Teknik Elektro, Fakultas Teknologi Industri Universitas Islam Indonesia
Civil Engineering, Building, Construction & Architecture Computer Science & IT Engineering

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Kajian Desain Rumah Sakit Mobil Maharika, Ilya Fadjar; Risdiyono, Risdiyono; Kusriyanto, Medilla; Sujarwo, Ari; Nugraheni, Fitri; Nurmianto, Awaluddin; Danarti, Retno; Suswardana, Suswardana; Arasya Maharika, Raka Affa; Fadillah, Titania Nur
Jurnal Arsitektur dan Perencanaan (JUARA) Vol 4, No 2 (2021): September (Jurnal Arsitektur dan Perencanaan)
Publisher : Universitas Aisyiyah Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31101/juara.v4i2.2074

Abstract

Bencana dan pandemi memerlukan respon sistem kesehatan yang gesit. Karakter geografis Indonesia juga menuntut kelincahan di satu sisi dan integrasi sistem di sisi lain yang belum sepenuhnya direspons oleh sistem eksisting yang mengandalkan infrastruktur stasioner. Saat ini, dalam literatur dan praktik global, mobile health care system telah menjadi trend namun belum menjadi bagian dari wacana di Indonesia. Penelitian ini bertujuan untuk memulai desain rumah sakit modular untuk mengisi kesenjangan sistemik ini. Penelitian pendahuluan ini dilakukan dengan menggunakan metode tinjauan pustaka naratif untuk mengidentifikasi kriteria desain kritis sebagai bagian dari metodologi penelitian desain. Artikel ini merekomendasikan enam kriteria penting untuk ide desain arsitektur dan pengembangan kebijakan untuk rumah sakit mobile modular.
PROTOTYPE ROBOT PENJINAK BOM TERINTEGRASI IP KAMERA DENGAN KOMUNIKASI WIRELESS BERBASIS MIKROKONTROLER ATMEGA 8535 Medilla Kusriyanto; Alvin Sahroni; Damar Anggit
Teknoin Vol. 21 No. 2 (2015)
Publisher : Faculty of Industrial Technology Universitas Islam Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20885/.v22i2.3703

Abstract

Bomb is an object with high destructive power. Today the bomb threat in Indonesia are common. Research earlier bomb squad robot has a weakness in the design of wireless communication and video viewer. This study tries to design a prototype robot bomb disposal by using IP cameras and wireless communication using a WIZnet based microcontroller interface ATMega8535. Video is displayed with MJPEG viewer designed using Visual Basic. The movement of the robot is set using the buttons on the monitoring software that is integrated with MJPEG viewer. From the test results obtained prototype robot can move in accordance with the existing arrangements on the monitoring system by using MJPEG as robot navigation. Robots also managed to pick up objects using a gripper simulated bomb and put it into a simulated bombing. In this study used camera is a camera that is found on android phone because of limited funds. The future can use the integrated camera with IP addressing
RANCANG BANGUN KENDALI SUHU DAN TEKANAN PADA EKSTRAKTOR SOXHLET TERINTEGRASI PEMBATAS WAKTU EKSTRAKSI MENGGUNAKAN MIKROKONTROLLER ATMEGA 16 Medilla Kusriyanto
Teknoin Vol. 19 No. 1 (2013)
Publisher : Faculty of Industrial Technology Universitas Islam Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20885/.v19i1.4408

Abstract

Extraction of compounds in a variety of materials, especially materials crops today are often found as a source of natural medicine. Soxhlet is one tool that is used as a medium of extraction of these compounds. Temperature and pressure as well as the long extraction affects the quality of compound extraction obtained. Control of temperature, pressure and time ekstraski kabanyakan still use manual so that there is an error caused by the user or device measuring. In this paper will be discussed extractor soxhlet integrated with the control system temperature, pressure and restrictions on timing extraction using a microcontroller ATMega 16 so that the extraction process can be run automatically. Control system temperature and pressure using a thermocouple type K which has a limit of measurement 0 - 12000C and pressure sensors MPX5700 which has a limit of measurement of the pressure of 0-700 Kpa. All output of this sensor will be read by the ADC microcontroller ATMega 16 is already integrated with internal ADC with a resolution of 10 Bit. Restrictions on the timing ekstraski done by using timer microcontroller
RANCANG BANGUN TIMBANGAN DIGITAL TERINTEGRASI INFORMASI BMI DENGAN KELUARAN SUARA BERBASIS ARDUINO MEGA 2560 Medilla Kusriyanto; Aditya Saputra
Teknoin Vol. 22 No. 4 (2016)
Publisher : Faculty of Industrial Technology Universitas Islam Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20885/teknoin.vol22.iss4.art4

Abstract

Digitally height and weight of human body measuring instrument based sound module arduino is a modern measuring instrument that serves to measure the height and weight of the human body and provides information on BMI (body mass index) and weight of the human body. This tool is designed using ultrasonic sensors SRF-04 as a measurement of height and Load Cell as a measurement of weight and has an LCD display and output ofthe sound module. This tool has a maximum height limit measure measuring 200 cm and maximum weight limit of200 Kg. The working principle ofthis tool is arduino read wheter object is to use the tool if yes then the sensor will transmit data to the mierocontroller and the data will be displayed through the LCD and will be read out via the sound module. The information to be read is the weight, height, BMI, BMI status, ideal weight. From the results of testing this tool has a fault or error in the measurement of the weight of 0,43%. And measurement error or error in height measurement of 0, 72%.
SISTEM PALANG PINTU PERLINTASAN KERETA API OTOMATIS DENGAN KOMUNIKASI WIRELESS BERBASIS ARDUINO Medilla Kusriyanto; Nendy Wismoyo
Teknoin Vol. 23 No. 1 (2017)
Publisher : Faculty of Industrial Technology Universitas Islam Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20885/teknoin.vol23.iss1.art9

Abstract

Trains are a means of transportation of interest to the public in Indonesia. In addition to fast, the cost and convenience of service on the train became one of the reasons for the selection of this transportation. Accidents at railway crossings are common in Indonesia. One reason is the absence of a doorstop in the railway crossing. In this research, we try to develop the closing and opening tool of train railway crossing automatically. This device is equipped with vibration sensor and infrared sensor to detect train arrival. The sensor readout signal will be processed by arduino UNO and sent to the control center using wireless nRF24l01 + PA + LNA module. The signal will be received by the control module using the same receiver module and will be processed by arduino mega 2560 to open and close the railway crossing door equipped with LED indicator. Based on the test results, the nRF24l01 + PA + LNA transceiver module can work at a distance of 940 meters with an average data transmission delay of 1.2952 seconds.
Rancang bangun kendali suhu dan kelembaban pada kumbu jamur tiram berbasis Arduino Mega 2560 Medilla Kusriyanto Kusriyanto; Warindi Warindi; Iyas Pandapotan Siregar
Teknoin Vol. 23 No. 3 (2017)
Publisher : Faculty of Industrial Technology Universitas Islam Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20885/teknoin.vol23.iss3.art7

Abstract

Oyster mushroom is a food fungus with the general characteristics of the body of a white fruit to cream and the hood is semicircular shaped oyster shell with a slightly concave center. Nutritional content of oyster mushrooms are nutritious food ingredients with high protein content, rich in vitamins and minerals, low in carbohydrates, fats and calories. Oyster mushroom growth is strongly influenced by environmental conditions, especially temperature and humidity. In this research will be designed and built automatic temperature and humidity control system on oyster mushrooms to create the right environmental conditions on the cultivation of oyster mushrooms. It uses the DHT 11 sensor as a temperature and humidity sensor to be processed by an arduino mega 2560 microcontroller to condition the environment by watering, hotening and turning on the fan. The system also features data storage media temperature and humidity in the form of SD card and RTC real system for setting up timing of water oyster sprinkler. The results prove that the tool is made to function properly and can be developed as expected. The tool can maintain the temperature around 24° C - 28°C and thehumidity around 79% - 87%.
PROTOTYPE PEMBANGKIT MIKROHIDRO TERINTEGRASI BEBAN KOMPLEMEN Handry Setya Utama; Medilla Kusriyanto
Teknoin Vol. 24 No. 1 (2018)
Publisher : Faculty of Industrial Technology Universitas Islam Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20885/teknoin.vol24.iss1.art6

Abstract

Electrical needs in industry as well as in households is one of the main needs as a source of energy for electrical devices. Currently the development of new and renewable energy sources and research involving many found in the world, one of which is a microhydro power plant. Indonesia is a country that has a stream that can be used as a source of energy, especially as a small scale power generator or often called microhydro. In this study the authors try to make a prototype microhydro power plant by utilizing used washer motor driver as a generator. The prototype is equipped with a complement load of inductors to maintain the stability of the voltage and frequency of the generator output when there is loading. The prototype also features a voltage indicator panel, frequency, flow of water to the generator using arduino as its signal processing module. From the observation result obtained maximum output from generator is 90 Volt with frequency 123Hz with speed generator 308 RPM and water debit 127 mL / sec. The addition of complement load on the generator greatly affects the output of the generator during loading.
PERANCANGAN DAN PEMBUATAN MESIN LAS ELEKTRODA GANDA UNTUK MENINGKATKAN KUALITAS HASIL LAS Yustiasih Purwaningrum; Medilla Kusriyanto; Rudi Kurniawan
Teknoin Vol. 24 No. 1 (2018)
Publisher : Faculty of Industrial Technology Universitas Islam Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20885/teknoin.vol24.iss1.art9

Abstract

Double Metal Arc Welding Gas Electrodes (DE-GMAW) is a new welding process that separates the melting current into a base metal current and a controlled current by adding a TIG torch to a conventional GMAW system to form an alternative path that will flow through the current. This makes it possible to reduce the current passing through the base metal, so that the heat input in the base metal can be controlled at the desired level. Research has been done to know the parameters for the welding process run stable between welding wire and torch TIG as current cutter. Parameters that affect the stability of the control system are Bypass Electrodes, Tungsten Distance to Welding Electrodes, Tungsten Distance to Workpieces, Torch GMAW Tube Distance to Workpieces, Angles between Tungsten and Welding Wires. To control the base metal current at the desired level, a group of power resistors is added in the control system. In this study, the welding is done using 18 V voltage by using several variations of the number of resistors. From the research shows that the control system developed can adjust the current cut in a large range to maintain the base metal current at the desired level. The welding results using the DE-GMAW control system show the physical properties of the weld result better when compared with welding without using current control system.
Prototype of Automatic Frequncy Control in Microhydro Power Plant with Dummy Load Based on Arduino Uno and Labview Medilla - Kusriyanto; Handry Setya Utama; Irfan Effendi
Teknoin Vol. 27 No. 1 (2021)
Publisher : Faculty of Industrial Technology Universitas Islam Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20885/teknoin.vol27.iss1.art1

Abstract

Micro hydro power plants are small-scale power plants that use hydropower as their driving force. Hydropower can come from irrigation channels, rivers or natural waterfalls, which are used by utilizing the waterfall height (head) and the amount of water discharge. The main components of this plant are the turbine and generator. The load on the micro hydro generator will affect the value of the voltage and frequency generated. This research attempts to make a micro hydro generator with automatic frequency control using dummy load in the form of inductance which is obtained using variac. The generator output voltage and current will be read by Arduino as a control center using the ZMPT101B AC voltage sensor and ACS712 current sensor. The generator output frequency is read by reading the travel time of 1(one)full wave. This research is also equipped with a variable monitoring system for micro hydro generator using Labview. From the observations of the research data, it was revealed that the frequency output of the micro hydro generator with an automatic dummy load controller was close to the value of the mesh frequency, namely 51 - 52 Hz.
Sistem Pemantau Kualitas Air Kolam Ikan Koi Berbasis IoT Dian Ariyanto; Medilla Kusriyanto
Technologia : Jurnal Ilmiah Vol 14, No 1 (2023): Technologia (Januari)
Publisher : Universitas Islam Kalimantan Muhammad Arsyad Al Banjari

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31602/tji.v14i1.9199

Abstract

Ikan Koi (Cyprinus carpio ) merupakan salah satu ikan yang digemari masyarakat banyak dikarenakan warna yang mempesona dan harganya relative tinggi. Salah satu yang mempengaruhi perkembangan ikan koi adalah kualitas  air. Kualitas air kolam terdiri dari tingkat keasaman air (pH), suhu air dan kandungan mineral yang terlarut atau TDS (Total Disolved Solid). Kualitas air sangat penting sehingga perlu adanya sistem yang mempermudah dalam proses pemantauan kualitas air kolam memalui smartphone berbasis IoT. Perancangan sistem pemantau kualitas air kolam ikan koi berbasis IoT melalui lima tahapan yaitu studi literatur, perancangan alat, pembuatan alat, kalibrasi dan realisasi alat.  Sistem pemantau kualitas air kolam koi menggunakan 3 sensor yaitu sensor pH meter, sensor suhu DS18B20 dan sensor TDS. Pembacaan ketiga sensor akan diolah oleh ESP 32 sebagai mikrontroler dan dikirim ke aplikasi Blynk melalui koneksi wi-fi. Hasil dari pengujian sistem ini diperoleh bahwa aplikasi Blynk mampu menampilkan pembacaan ketiga parameter kualitas air yang terdiri dari pH, suhu dan TDS sehingga memudahkan proses pemantauan kualitas kolam ikan koi. Pembacaan pH air terendah  7.3 dan tertinggi  7.4.  Suhu kolam tercatat terendah 26 ° C pada jam 04.00 sampai 06.00 dan tertinggi pada suhu 27.3 ° C pada jam 12.00-15.00. Pembacaan TDS kolam terendah 33.5 ppm dan tertinggi 34.6 ppm. Kata Kunci:  ikan Koi, IoT, pH kolam, Suhu kolam, TDS kolam
Co-Authors Aditya Saputra Alvin Sahroni Arasya Maharika, Raka Affa Damar Anggit Dian Ariyanto Fadillah, Titania Nur Fitri Nugraheni Handry Setya Utama Handry Setya Utama Irfan Effendi Iyas Pandapotan Siregar Maharika, Ilya Fadjar Nendy Wismoyo Nurmianto, Awaluddin Risdiyono Risdiyono Rudi Kurniawan Sujarwo, Ari Suswardana, Suswardana Warindi Warindi Yustiasih Purwaningrum