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All Journal Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer
Sabriansyah Rizqika Akbar
Fakultas Ilmu Komputer , Universitas Brawijaya
Computer Science & IT Control & Systems Engineering Education Electrical & Electronics Engineering Engineering

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Implementasi Sistem Monitoring Kualitas Air Pada Budidaya Tambak Udang Dan Bandeng Ahmad Fatchi Machzar; Sabriansyah Rizqika Akbar; Hurriyatul Fitriyah
Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer Vol 2 No 10 (2018): Oktober 2018
Publisher : Fakultas Ilmu Komputer (FILKOM), Universitas Brawijaya

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Abstract

In 2006 there was a catastrophic mudflow disaster, which is currently still spraying mud and its impact is on the ponds around the mud that the mud is dumped into the river, the river water is the air circulation in the pond, thus the authors make tools for monitoring and implementation of real time automation system on the cultivation of shrimp ponds and milkfish, using pH sensors, temperature sensors, and turbidity sensor, The need to maintain the quality of pond water is good then the fish will be healthy, with very good results to consumers and farmers ponds. By including all sensors, including pH sensor, turbidity sensor and temperature sensor, after it is updated through Arduino Nano microcontroller and all these sensors on the Lcd that is in the system body. Automatic feeder using DC motors, by setting the timing on potentios, is ready to give the motor current time and the duration of the motor will rotate, from the potentialo input to the relay as the switch of the driving and motor commands. The result of this system test shows that the system gives the result of the sensor, the pH sensor gives the result if the acid solution of air is higher then the pH sensor will decrease, after which turbidity sensor gives the result if the more turbid the air sensor will be higher turbidity, and the result of temperature sensor , the higher the temperature of the air the higher the temperature sensor on the Lcd. For automatic feeding system that is motorcycle matrix will move and the duration of rotation of motor according to the input motor given at potentio.
Rancang Bangun Low Power Pada Wireless Sensor Node Berbasis NRF24L01+ Rachmat Eko Prasetyo; Sabriansyah Rizqika Akbar; Rizal Maulana
Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer Vol 2 No 10 (2018): Oktober 2018
Publisher : Fakultas Ilmu Komputer (FILKOM), Universitas Brawijaya

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Abstract

Currently, wireless technology is widely used given its ability in. Wireless technology is usually applied to monitor the environment with a long and has limited energy capacity. Consumption of energy in wireless technology becomes an important thing that must be considered because of the scarcity of energy will be higher if there is no action on energy savings. This research will create a management system on the wireless sensor node processor that is applied to Arduino Pro Mini and nRF24L01 + to reduce energy usage, so that energy usage is more efficient and reduces battery change periodically. The creation of this energy-efficient wireless node utilizes the standard architecture of a wireless sensor node by using the Arduino Pro Mini as a processor for data sensor acquisition, data transmission and energy regulation on wireless sensor nodes. For modules transmit data using nRF24L01 + because it requires low energy consumption to transmit data. In this study energy saving is done by changing the state of the processor on Arduino Pro Mini, nRF24L01 +, and both at once with the use of PA Level so that energy consumption in wireless sensor node will be lower. The results of this experiment showed the highest power of 87.66% using PA LEVEL and low power conditions against Arduino Pro Mini and nRF24L01 +.
Implementasi Fitur Pencahayaan Terjadwal dan Timer pada Smart Light Bulb Pervasive Berbasis ESP8266 Sebagai Home Assistant Menggunakan Aplikasi Berbasis Android Vatikan Aulia Makkah; Sabriansyah Rizqika Akbar; Rizal Maulana
Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer Vol 2 No 10 (2018): Oktober 2018
Publisher : Fakultas Ilmu Komputer (FILKOM), Universitas Brawijaya

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Abstract

The Internet of Things (IoT) has changed the habit of the world community about the need to communicate. IoT technology transform the usual device into a device that is more valuable. The lamp is one of the basic needs of modern community as a source of light, that would not be able to be separated from daily activites. The concepts of Smart Home& is one of the development of the &technology in the modern era. The technology of Smart Home makes user easier to do activites where the devices are able to connect one another and simpllify the work. In the line of the development, creating a breakthrough for lamp named Smart Light Bulb. The Smart Light Bulb device has changed the concept of conventional lamp into a lamp that is able& to control the color and intensity of the lamp. In the installation process of the Smart Home might be faced by some difficulties. With Pervasive Device method, the existing problem can be solved and it facilitate the use of Smart Home concept. This research is related to the development os Smart Light Bulb which has been developed previously. In this research the microcontroller component that is used is NodeMcu ESP8266. NodeMcu allows wifi communication so it can be connected to the router. With the device and smartphone, the development of Smart Light Bulb can be implemented. The application is developed in Android device. The feature of the timer in Smart Light Bulb was developed to fine-tune the hardware of Smart Light Bulb. Using the RTC DS 1307 component on the hardware allows timer features to be well developed.The feature was tested 10 times and have the 100% success rate.
Implementasi Pengiriman Data Wireless dengan Metode Time Division Multiple Access dan Timing-Sync Protocol for Sensor Networks pada Kolam Ikan Adi Pratama; Sabriansyah Rizqika Akbar; Mochammad Hannats Hanafi Ichsan
Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer Vol 2 No 10 (2018): Oktober 2018
Publisher : Fakultas Ilmu Komputer (FILKOM), Universitas Brawijaya

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Abstract

Distributed data acquisition system for water quality of fishpond usually using conventional method. This method used microcontroller device for control system operations, sensor as data acquisition and wire as data medium. Monitoring System of water quality of fishpond using a microcontroller as control system for data processing from a lot of node-sensor at once time has disadvantages. There are many possibilities that distributed data from node-sensor to control system could be crashed. Wire as data medium has less efficiency at wider area, such as fishpond culture. This leads to the application of wireless communication system. The reason for using wireless communication instead of wire-use connection is more practical and making the installation simpler. A new aipproach to synchronize the time iis needed for seinsor networks. In thiis paper, we discuss about Timing-sync Protocoli for Sensor Networks (TPSN) and Time Division Multiple Access (TDMA) that aims at providiing network-wide time synchronization in a sensor network to avoid crashed data. In addition, this research also present wireless communication method using nRF24L01 module. As the result, we got that node client can distributed data acquisition for fishpond water in the amount of 18 bytes with the synchronized time without being crashed.
Implementasi Fitur Sleeping Client Pada Protokol Message Queue Telemetry Transport - Sensor Network (MQTT-SN) Berbasis Arduino & NRF24L01 Yandra Charlos Hasugian; Sabriansyah Rizqika Akbar; Kasyful Amron
Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer Vol 2 No 10 (2018): Oktober 2018
Publisher : Fakultas Ilmu Komputer (FILKOM), Universitas Brawijaya

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Abstract

WSN (Wireless Sensor Network) is a connection contained sensor node or actuator, gateway, and client. WSN can be implemented using Message Queue Telemetry Transport (MQTT) is a protocol that runs on TCP/IP, where the sensor node connected to the server through the gateway as an intermediary client and server. Message Queue Telemetry Transport - Sensor Network (MQTT-SN) is way to solve the problem. In MQTT-SN have a feature that used to make a move client's state is Sleeping Client. In feature sleeping client there are several states are active, disconnect, asleep, awake, and lost. System in this research there are 2 client which consists of microcontroller Arduino Nano, module of NRF24L01, and sensor. And a gateway which consists of microcontroller Arduino Nano and module of NRF24L01. Client devices will search a gateway for communicate with gateway, after connect with the gateway, client will send data sensor and messages for changes states in sleeping client feature. Result from testing of system, client succeed to changes states and can send data sensor use a client device and a gateway device although use 2 client devices and a gateway device.
Rancang Bangun Sistem Penghematan Biaya Listrik Pada Rumah Dengan Metode Finite State Machine Menggunakan Labview Berbasis Arduino Puguh Bahtiar; Wijaya Kurniawan; Sabriansyah Rizqika Akbar
Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer Vol 2 No 10 (2018): Oktober 2018
Publisher : Fakultas Ilmu Komputer (FILKOM), Universitas Brawijaya

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Abstract

Electrical energy is something very important to sustain human life. The availability of electrical energy and the growth of power plants is a two think that must be considered by every human. Based on these problems, there is an effort to prevent the occurrence of electrical energy crisis in the future, one of the efforts is to design the electricity saving on the house. Researchers use the finite state machine method with Arduino Uno as a hardware control and labview as a program design and implementation software. In this research, there is 6 features that are (1) Detect human existence by using PIR sensor. (2) automatically set room light. (3) Automatic water pump. (4) automatically set room temperature (5) Calculate and limit the use of electricity per day by limiting electricity consumption. (6) Sending notices for email and turn off the AC when electricity usage has reached the expenditure limit per day. The testing process on 6 features has been done, and the results obtained in accordance with the work function of each feature.
Perancangan Bot Pada Discord Untuk Pembacaan Sensor Di Raspberry Pi Dengan Sistem Learning Yang Dinamis Rizki Septiansyah; Sabriansyah Rizqika Akbar; Rizal Maulana
Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer Vol 2 No 10 (2018): Oktober 2018
Publisher : Fakultas Ilmu Komputer (FILKOM), Universitas Brawijaya

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Abstract

On this research, author will design a bot that will run on raspberry pi and can be used to read sensor value on raspberry pi by using dynamic learning system.On its usage this bot will run on social media that named Discord and user can give some commands on server chatbox so bot can running. On implementation, this bot already been tested its function and every case that tested can work properly and declared successful.On accuracy test, obtained average error pecentage with LM35 sensor 0.541% and on HY-SRF05 sensor 3.387%. Average execution time test with temperature sensor LM35 on learn command 545.54ms, cmd command 8.007ms and forgot command 1.07ms. Average execution time test with ultrasonic sensor HY-SRF05 on learn command are 661.65ms, cmd command 5.42ms and forgot command 1.24ms. Average execution time test with LDR sensor on learn command are 646.20ms, cmd command 5.43ms and forgot command 1.31ms.
Implementasi Sumber Daya Penyimpanan Dinamis Pada Cloud Lulus Bagos Hermawan; Sabriansyah Rizqika Akbar; Primantara Hari Trisnawan
Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer Vol 2 No 11 (2018): November 2018
Publisher : Fakultas Ilmu Komputer (FILKOM), Universitas Brawijaya

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Abstract

Along with the development of the era of human needs and dependence on computers increasingly large pekembangan modern technology world. Use of your own computer from various fields to solve computing problems from small to large scale. Can not be denied by the development of applications in the computer world requires a larger resource, so less efficient if only done with a physical machine only. Various ways are done to overcome this problem one of them with virtualization. In this research, the implementation of dynamic storage resource management in the cloud. Virtulasisation used in this research by using virtual box. Dynamic storage used in this research by implementing Logical Volume Management feature. The results of this study obtained a system that can make the addition of storage capacity dynamically and automatically without any downtime and rebooting on the system
Monitoring Kadar Gas Berbahaya Pada Kandang Ayam Dengan Menggunakan Protokol HTTP Dan ESP8266 Muhamad Nur Arifin; Mochamad Hannats Hanafi Ichsan; Sabriansyah Rizqika Akbar
Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer Vol 2 No 11 (2018): November 2018
Publisher : Fakultas Ilmu Komputer (FILKOM), Universitas Brawijaya

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Abstract

In this research, Authors make a monitoring system of dangerous gas content in the chicken coop. The system able to inform air quality in the form of ammonia and methane gas contained in chicken coop and give result of reading of gas data which considered dangerous to worker in chicken coop and can be seen by platform. The system generally consists of two gas sensors, the MQ 135 sensor to detect the ammonia, and the MQ 4 sensor to detect methane, and connect to the internet network via the ESP8266 modul with Arduino Uno microcontroller that aims to upload sensor data to web Thingspeak and displayed in the form of graphs as a means of information on the chicken coop. Testing was did with 3 stages of connectivity, functionality, and delay. The connectivity test proves that the ESP8266 can connect to the Access Point and Internet network. The functionality test proves that the sensor can read the gas and retrieve the data. And the last is the delay test, which is calculating the length of the process from the beginning of the sensor readings until the data arrived at IoT web based Thingspeak. From the results of calculations that have been done in testing, it is found that the time required for a single data transmission takes as much as 5-19 seconds. The time may change because there are aspects that can hamper such as internet connection, the number of devices connected to one network internet, but the purpose of research is in accordance with expectation.
Implementasi Wireless Sensor Network Dengan Menggunakan Protokol OLSR pada Arduino Pro Mini dan NRF24L01 Andreas Widyatmoko; Sabriansyah Rizqika Akbar; Rakhmadhany Primananda
Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer Vol 2 No 11 (2018): November 2018
Publisher : Fakultas Ilmu Komputer (FILKOM), Universitas Brawijaya

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Abstract

Wireless Sensor Network is a wireless networking technology that connects multiple sensor nodes into a single network that work together to perform specific functions and objectives. In a network there is a set of rules that underlie the performance of the network itself, the rule is called protocol. OLSR is one of the proactive routing protocols. Unlike the LSR, the OLSR protocol applies the Multi Point Relay (MPR) mechanism to prevent duplicate message reception. In this research the implementation of OLSR protocol on Arduino Pro Mini and NRF24L01 is done to see how OLSR protocol performance in Arduino device and NRF24L01. The implementation will be divided based on the package message according to OLSR protocol. The results of this study indicate that the OLSR protocol can be implemented in Arduino Pro Mini and NRF24L01 devices. The results of this study indicate that the OLSR protocol can be implemented well on base station nodes and node sensing, which consists of Arduino Pro Mini and NRF24L01 devices. The packages used on the system are HELLO, MPR packets, mpr_info packets and sensor data packets. In addition, in the system there are several processes that update the routing table, forwarding and MPR node selection. Tests for HELLO packets, MPR packets and data sensor packets overall have a 100% success percentage. In addition, the authors also tested the convergence time of the protocol with an average value of 46002,9ms.
Co-Authors Abirafdi Sukma Nazhifan Achmad Basuki Adhitya Bhawiyuga Adi Pratama Adi Setiyawan Aditya Geraldo Agung Prasetio Agung Setia Budi Agung Widya Gumelar Ahmad Faris Adhnaufal Ahmad Fatchi Machzar Ahmad Fikri Marzuqi Ahmad Mustafidul Ibad Akbar Pandu Segara Aldi Jayadi Andi Dwi Angga Prastya Andi Mohammad Rizki Andreas Widyatmoko Anggi Fajar Andana ari kusyanti Aria Tanzila Harfad Arie Prayogo Pangestu Arief Indra Rivaldy Permana Ariyan Jazmi Arnandha Hadi Pranata Arya Rizky Imansyah Harahap Bagaskara Oki Duwi Saputra Bagus Prasetyo Barlian Henryranu Prasetio Bramantyo Ardi Bunga Boru Hasian Siahaan Dading Firwandhi Sukma Dahnial Syauqy Dea Asmara Gita Dwi Aris Suprayogi Edo Bayu Cahyono Eko Setiawan Elsandio Bramudya Putra Fathoni Era Imanningtyas Faisal Akhmadi Fatwatul Miftahuddin Rizki Fitriyah, Hurriyatul Florensius Tri Putra Simamora Gembong Edhi Setyawan Handy Yusuf Harry Mulya Haryanto Sihombing Hery Julianto Situmorang I Wayan Boby Astagina Naghi Idang Wahyuddin Septiawan Ikhwan Zulfy Imam Syafi'i Al Ghozaly Inayah Wulandari Issa Arwani Jonathan Rovelano Huwae Kasyful Amron Kurnia Ade Prasetia Lulus Bagos Hermawan M. Sandy Anshori M. Sifa'un Ni'am Mahendra Data Maulita Intan Kripsita Moch Rizki Cahyadi Moch. Febryandana Nurfahri Mochamad Hannats Hanafi Ichsan Mochammad Hannats Hanafi Ichsan Mohammad Fauzin Amin Mohammad Kholili Adi Putra Much Rizki Pradana Muhamad Irfanul Hadi Muhamad Nur Arifin Muhammad Aji Guna Darmawan Muhammad Akbar Farisi Muhammad Daffa Firmansyah Muhammad Fatham Mubina Akbar Muhammad Fikri Muhammad Iqbal Muhammad Irfan Reza Muhammad Misbahul Munir Muhammad Rifqi Muzaki Muhammad Rosyid Khulafa Muhammad Rouvan Amiruddin Muhammad Sabilillah Muhammad Taufiq Azra Haromain Muhammad Wingga Woggiasworo Muhammad Zidni Mukmin Mukmin Nicho Ferdiansyah Kusna Pamungkas, Hedy Pinandhita Yudhaprakosa Pramukantoro, Eko Sakti Prasetyo Rizqi Santoso Prastise Titahningsih Primantara Hari Trisnawan Priyambadha, Bayu Puguh Bahtiar Rachmat Eko Prasetyo Rafi Fajar Hidayat Rakhmadhany Primananda Renal Prahardis Revelino Adli Reynald Novaldi Reza Ridlo Nugraha Ricko Anggoro Putra Yustono Ridzhal Hachim Wahyunanto Rifki Karim Ramadhan Riski Julianto Rivaldi Wibowo Rizal Maulana Rizki Septiansyah Rizky Putra Pratama Rizky Septian Damanik Romario Siregar Sofi Hanifah Sultan Achmad Chidir Fajar Syarif Hidayatullah Syifaul Hud'riyah Tugar Aris Andika Prastiyo Raharjo Vatikan Aulia Makkah Wawan Darmawan Widasari, Edita Rosana Widhi Yahya Wifki Ato'ur Rochim Wijaya Kurniawan Wisnu Fajar Dewantara Yandra Charlos Hasugian Yasin Rizqi Afandi Yoga Sugma Pradana Yohana Kristinawati Zakky Ramadhan Zhafran Wadiansyah Zonnete Bryllian Dheo