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<![CDATA[Prototype Sistem Monitoring Infus Berbasis IoT (Internet Of Things ) ]]>
<![CDATA[Akbar, Taufik]]>;
<![CDATA[Gunawan, Indra]]>
<![CDATA[ Jurnal Pendidikan Informatika (EDUMATIC) Vol 4, No 2 (2020): Edumatic : Jurnal Pendidikan Informatika ]]>
Publisher : <![CDATA[Universitas Hamzanwadi ]]>
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<![CDATA[The development of increasingly sophisticated medical science and technology has an impact on the development of science and technology in the field of medical-devices. One of the existing equipment and is often used in hospitals, one of which is an IV. Currently in the world of health, infusion is still controlled manually. Because it takes time if the nurse has to go back and forth throughout the patient room. Not only is it time consuming, but there will be risks if it is too late to treat a patient whose infusion has run out. Technology needs to be used to minimize risks in the medical world, one of which is the application of IoT technology. This study aims to make it easier for nurses to control infusion conditions in real time using the concept of IoT ( the Internet of Things). The method used is the Waterfall method. This research uses hardware consisting of Load Cell with the HX711 module as a weight sensor, NodeMCU V3 as a processor, and Thingspeak Web server as the interface with the user. The results of the measurement of the tool made have an error of 0.25 Gram, sending data to the Thingspeak.com Server requires a good connection for maximum results.]]>
<![CDATA[Pengenalan Citra Logo Kendaraan Menggunakan Metode Gray Level Co-Occurence Matrix (Glcm) dan Jst-Backpropagation ]]>
<![CDATA[Fathurrahman, Imam]]>;
<![CDATA[Gunawan, Indra]]>
<![CDATA[ Infotek : Jurnal Informatika dan Teknologi Vol 1, No 1 (2018): Infotek : Jurnal Informatika dan Teknologi ]]>
Publisher : <![CDATA[Fakultas Teknik Universitas Hamzanwadi ]]>
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<![CDATA[A car is a vehicle that has a varied shape or model but the difference is the brand or logo. Vehicle logos have their own meaning and meaning for car industry companies. The logo should have a practical and effective or efficient function so that the logo form is part of the marketing and branding program of the car industry company [1]. There are three types of car logos that are now known, in the form of symbols, text, or a combination between the two. The logo is always in the front and back of the car body and usually has a lighter color than the color of the vehicle. One that supports the development of technology is how to recognize a vehicle either from the brand, shape, model and color of the vehicle. Some references that are deemed feasible to help this research include utilizing the weaknesses and weaknesses of the results of previous research, including a paper entitled. Scale Invariant Feature Transform (SIFT) [2]. SIFT is combined with Logistic Regression [3] based on Gradient Orientation Histogram (HOG). Logo Recognition Using Probabilistic Neural Networks [4]. Therefore, the researchers wanted to focus on the logo recognition using the extraction of the Gray Level Co-occurrence Matrix (GLCM) feature. Testing and training testing using ANN-Backpropagation. From the results of this study the best accuracy obtained 95.7%, so that GLCM and ANN-Backpropagation can recognize the image of the vehicle logo.DOI : 10.29408/jit.v1i1.894]]>
<![CDATA[Prototipe Robot Pemantau Suhu Dalam Zona Kebakaran Gedung Menggunakan Telemetri Jaringan Nirkabel ]]>
<![CDATA[Gunawan, Indra]]>;
<![CDATA[Fathurrahman, Imam]]>
<![CDATA[ Infotek : Jurnal Informatika dan Teknologi Vol 1, No 2 (2018): Infotek : Jurnal Informatika dan Teknologi ]]>
Publisher : <![CDATA[Fakultas Teknik Universitas Hamzanwadi ]]>
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<![CDATA[The building fire can be a serious problem that could Interfere economic stability. Firefighters often have problems in handling if they are in the building there is fog or smoke. Therefore, the presence of this monitoring system is expected to present the data in the form of temperature information in the fire zone to help them. This study starts from the collection of materials and equipment, hardware design stage in the form of a wheeled robot while the design of the software comprising a transmitter section is a microcontroller program and the interface program as a receiver. The research result mobile robot can move properly with the remote control within a distance of 20 m. Video on this robot can be displayed in realtime within a distance +15 m of the screen Because the raspberry pi 3 has a coverage area that is not so far away as well as a temperature sensor capable of measuring a very good accuracy in the range of 250C-500CDOI : 10.29408/jit.v1i2.904]]>
<![CDATA[Measuring Body Temperature Based Internet of Things (IoT) Using Esp8266 and Firebase ]]>
<![CDATA[Indra Gunawan]]>;
<![CDATA[Aris Sudianto]]>;
<![CDATA[Muhamad Sadali]]>
<![CDATA[ SISFOTENIKA Vol 11, No 1 (2021): SISFOTENIKA ]]>
Publisher : <![CDATA[STMIK PONTIANAK ]]>
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DOI: 10.30700/jst.v11i1.1060
<![CDATA[Measuring the body temperature can be the basis for determining the health level of a person which increasing the body temperature can also be a reference to find out whether a person infection early symptoms of a disease, both fever and cases as currently occurring, namely as an indicator of determining whether someone is indicated to be infected with the Covid 19 virus, which is currently a pandemic in the various countries. Initially, measurement the body temperature was carried out massively using the body temperature measuring device circulating in the community using a thermometer that was already standardized by SNI, wherein the measurement process like this some obstacles or problems occur, which the officer being infected the risk by virus covid19 and will cause increasing in the cases. In this study, a tool was made to measure human body temperature based on the internet of things technology, which then the measurement data will be sent to an Android smartphone application based monitoring via the internet. This tool uses the MLX-90614 sensor device [1] to detect temperature, after that the data will be processed by Nodemcu ESP8266 and stored on the Firebase server before the data will sent to the user's monitor. The measurement result data will be displayed with the android application and if the temperature data exceeds the normal limit or> 37.50C, the system will send a sound signal alarm via a buzzer. The results of this study can achieve an accuracy level of about 95% from value of data the measuring temperature using device standards SNI and data display to the application monitoring need about 3 seconds.]]>
<![CDATA[Rancang Bangun Sistem Monitoring Dan Pemberi Pakan Otomatis Ayam Anakan Berbasis Internet Of Things (IoT) ]]>
<![CDATA[Indra Gunawan]]>;
<![CDATA[Hamzan Ahmadi]]>;
<![CDATA[Muhammad Ramdani Said]]>
<![CDATA[ Infotek: Jurnal Informatika dan Teknologi Vol 4, No 2 (2021): Infotek : Jurnal Informatika dan Teknologi ]]>
Publisher : <![CDATA[Fakultas Teknik Universitas Hamzanwadi ]]>
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DOI: 10.29408/jit.v4i2.3562
<![CDATA[Farm is one of the largest food suppliers after agriculture. Many of the breeders do everything to improve the quality of their livestock. The usual way used by chicken farmers are by manual means such as temperature checking, and checking the availability of feed. Therefore it is necessary to create an automatic temperature monitoring and chicken feeding tool, which in this research based on IoTs (Internet of Things). It uses DHT11 sensors to measure temperature in cages, Arduino Uno and NodeMCU ESP 8266 as microcontrollers and blynk applications as temperature monitoring tools. It consists of several interconnected parts. Starting from the DHT11 sensor measuring the temperature, then sent to the microcontroller after it is processed, then sent to the blynk webserver so that it can be accessed and displayed by the monitoring application. While chicken feeding can be made easier using servo motor as a door feeder chicken that works with scheduling system, then for the availability of feed will be measured by the specified weight. If the weight reaches a number less than or equal to 400 grams, then the loadcell sensor will send a notification to blynk with the message . The result of this researchs can monitor the temperature in the cage and provide feed automatically even though it still not maximal.]]>
<![CDATA[PROTOTIPE SISTEM MONITORING TEGANGAN PANEL SURYA (SOLAR CELL) PADA LAMPU PENERANG JALAN BERBASIS WEB APLIKASI ]]>
<![CDATA[Indra Gunawan]]>;
<![CDATA[Taufik Akbar]]>
<![CDATA[ Infotek: Jurnal Informatika dan Teknologi Vol 2, No 2 (2019): Infotek : Jurnal Informatika dan Teknologi ]]>
Publisher : <![CDATA[Fakultas Teknik Universitas Hamzanwadi ]]>
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DOI: 10.29408/jit.v2i2.1452
<![CDATA[Panel surya begitu populer dikalangan pemerintah daerah sebagai alternatif untuk mengurangi biaya operasional khususnya biaya listrik untuk lampu penerang jalan raya. Tapi panel surya memiliki beberapa kelemahan yakni, dalam segi pemiliharan dan perawatan membutuhkan kinerja ekstra dan waktu yang cukup lama, misalnya dalam proses pengecekan tegangan masih kurang efisien karna petugas harus mengecek langsung ke panel surya yang berada di atas tiang atau lampu penerang jalan untuk mengetahui berfungsi atau tidaknya alatnya yang terpasang dengan cara petugas naik meriksanya menggunakan mobil khusus. Hasil penelitian ini menggunakan komunikasi antara web dengan mikrokontroler yang dilakukan menggunakan ethernet shield, dalam web aplikasi monitoring tegangan terdapat fitur hasil tegangan, grafik dan laporan perhari secara realtime dan sistem monitoring tegangan bekerja dengan baik dimana petugas bisa mengecek besar tegangan setiap saat secara realtime walaupun masih menggunakan webserver local sebagai servernyaDOI : 10.29408/jit.v2i2.1452]]>
<![CDATA[Sistem Monitoring Dan Pengkabutan Otomatis Berbasis Internet Of Things (IoT) Pada Budidaya Jamur Tiram Menggunakan NodeMCU dan Blynk ]]>
<![CDATA[Indra Gunawan]]>;
<![CDATA[Hamzan Ahmadi]]>
<![CDATA[ Infotek: Jurnal Informatika dan Teknologi Vol 4, No 1 (2021): Infotek : Jurnal Informatika dan Teknologi ]]>
Publisher : <![CDATA[Fakultas Teknik Universitas Hamzanwadi ]]>
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DOI: 10.29408/jit.v4i1.2997
<![CDATA[The Mushroom is a wild plant and grow a lot in damp places, at the former rice bran and even grows on rotten trees. In the process of drying oyster mushroom it is very easy, only requires land for nurseries and maintains the temperature inside the oyster mushroom kumbung itself, for maintenance you must maintain the temperature and the humidity so that in the kumbung it remains moist and the oyster mushroom baglog not dry out because the temperature is not as required oyster mushroom baglog. So far, the cultivation that has been carried out is still manual, usually watering the oyster mushroom kumbung in the morning and evening, sometimes when it is hot during the day, watering is done to reduce the temperature inside the oyster mushroom kumbung. In this case the research was carried out on monitoring of temperature and humidity of oyster mushroom kumbung and automatic misting based on IoT which is combined with the blynk application which can be opened on an android smart phone by relying on an internert connection so that you can find out the temperature and humidity in the oyster mushroom kumbung This system uses a DHT11 sensor which functions to read temperature and humidity so that it sends data to NodeMCU V3 and then sends it to the user via the blynk application. If the temperature obtained is 30,200 the it will give a fog epek to the baglog automatically and the led in the blynk application will light up as a notification to the user that in the kumbung the oyster mushrooms are doing mist to lower the temperature of the kumbung and when the temperature is =30.00 the fog will be stop and the led light in the blynk application will turn off, to be able to see the temperature and humidity of the oyster mushroom through the blynk application, you must first connect to the internet, both from the monitoring tool for oyster mushroom kumbung monitoring and automatic fogging based on iot or the smart phone user.]]>
<![CDATA[Sistem Monitoring dan Notifikasi Kualitas Udara Dijalan Raya Dengan Platform IOT ]]>
<![CDATA[Muhamad Sadali]]>;
<![CDATA[Yupi Kuspandi Putra]]>;
<![CDATA[Lalu Kertawijaya]]>;
<![CDATA[Indra Gunawan]]>
<![CDATA[ Infotek: Jurnal Informatika dan Teknologi Vol 5, No 1 (2022): Infotek : Jurnal Informatika dan Teknologi ]]>
Publisher : <![CDATA[Fakultas Teknik Universitas Hamzanwadi ]]>
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DOI: 10.29408/jit.v5i1.4384
<![CDATA[Air pollution and air pollution on the highway is a very bad impact on humans because polluted air can cause various kinds of diseases, therefore in this study, a tool was designed that can be used to monitor air quality over long distances, using Wemos. d1 as a liaison between the MQ-135 sensor with the Internet of Things (IoT) platform and the blynk application which is a monitoring system that if the air quality on the highway where many vehicles pass makes air pollution on the highway less healthy so that it threatens the physical health of living things. One of the efforts to overcome air pollution is by measuring the quality of the air on the highway. connected using the IoT platform as an air quality monitoring system by using the internet as a means of providing information presentation about the air quality on the highway. The results of field testing at 2 points in the East Lombok area found that the quality was still moderate where the air quality was in the range of 400-800. But if the air conditioner is Normal, the range is 0-400 and the last is Abnormal air quality, the range is 800 and above.]]>
<![CDATA[Prototipe Penerapan Internet Of Things (Iot) Pada Monitoring Level Air Tandon Menggunakan Nodemcu Esp8266 Dan Blynk ]]>
<![CDATA[Indra Gunawan]]>;
<![CDATA[Taufik Akbar]]>
<![CDATA[ Infotek: Jurnal Informatika dan Teknologi Vol 3, No 1 (2020): Infotek : Jurnal Informatika dan Teknologi ]]>
Publisher : <![CDATA[Fakultas Teknik Universitas Hamzanwadi ]]>
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DOI: 10.29408/jit.v3i1.1789
<![CDATA[Water is a natural resource that greatly affects human life. The most important is of the human body consists of water. Therefore, it is very important for us to keep water availability normal. But in everyday life the use of water storage tanks or tanks is not yet as effective or efficient, because there is still a lot of water wasted in filling water and there is no indicator of water level. Therefore, researcher made a water level controller on IoT (Internet of Thing) based tanks. This tool uses an ultrasonic sensor to measure water level, NodeMCU ESP 8266 as a microcontroller and Blynk application as a control device and the place where the water level measurements are displayed. This tool consists of several interconnected parts. Starting from the ultrasonic sensor measuring the water level and then being sent to the microcontroller after it is processed, and was sent to the Blynk webserver so that it can be accessed and displayed by the control application. In addition, the microcontroller is connected to a relay that functions as a switch of a water pump that can be controlled through the application. So that we can monitor the water stock and control the water stock we have by being more flexible and efficient.DOI : 10.29408/jit.v3i1.1789]]>
<![CDATA[“RANCANG BANGUN KENDALI PERALATAN RUMAH TANGGA BERBASIS SMARTPHONE ANDROIDâ€. ]]>
<![CDATA[taufik akbar]]>;
<![CDATA[Indra Gunawan]]>;
<![CDATA[Khairil Anwar]]>
<![CDATA[ Infotek: Jurnal Informatika dan Teknologi Vol 3, No 2 (2020): Infotek : Jurnal Informatika dan Teknologi ]]>
Publisher : <![CDATA[Fakultas Teknik Universitas Hamzanwadi ]]>
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DOI: 10.29408/jit.v3i2.2348
<![CDATA[So far, the community in general can control lights or other electronic equipment with just a switch, but the control is limited by distance. Therefore, the construction of an electronic equipment control system application prototype was built on the Android platform as a new alternative solution for remote control. The application built on the Android platform has an attractive and easy to understand user interface. In addition, the control system built utilizes a Bluetooth network for sending control instructions to Arduino. In this prototype using Arduino Uno as a processor, Android as a control, Bluetooth HC-06 module as Arduino communication with Android and using relay as a control switch with 4 channel specifications. Communication between an android smartphone and a microcontroller can be done wirelessly using Bluetooth, which the Android smartphone and Bluetooth module on the microcontroller system can communicate using serial data. The speech recognition feature on an Android smartphone can be used to control the lights using voice commands. This is done by initializing the spectrum of voice commands in the form of strings into character codes that have been identified by the microcontroller. Control of electronic equipment will not work if the Android smartphone is out of range of the Bluetooth wireless transmission range of the Bluetooth module because the Bluetooth connection will be disconnected automatically.DOI : 10.29408/jit.v3i2.2348]]>
