Implementasi Sistem Pemantauan Penggunaan Energi Listrik pada Konsumen Berbasis Android

Zulfadli Zulfadli, Arnita Arnita — Sat, 30 Oct 2021 00:00:00 +0000

Android is part of a cellphone (mobile). Android is the OS (Operating System) of the Smartphone device itself for Linux-based mobile applications. Currently HP is widely used by the wider community as a medium for conveying and receiving information and communicating. At this time the monitoring and measurement of electrical energy in buildings still uses a conventional energy meter (kWh meter), namely the field induction method that will use an aluminum disc so that it will move a digital counter as a display of the number of kWh meters and there are also those who use a prepaid system but cannot provide information remotely. The development of technology at this time should information on the use of electrical energy can be known from anywhere. In order to be able to know and monitor the use of electrical energy itself, we need a device that can monitor the use of electrical energy remotely by using a microcontroller. This tool designed to monitor electrical energy utilizes the ZMPT101B voltage sensor to measure voltage, the ACS712 sensor to measure current, Arduino is used to utilize all data from the parameters needed to measure the amount of electrical energy consumption. GSM Shield serves to send information data to Android to display information that has been processed by Arduino. So by using an Android-based Arduino, using electrical energy in a house, office or building and the area can be known remotely using a smartphone.

Rancang Bangun Aplikasi Virtual Tour Fakultas Teknologi Industri Universitas Bung Hatta Berbasis Web

Budi Sunaryo, Hagus Hermanto, Reihan Hanafi Wiyanatra, Zulfadli Zulfadli — Sat, 30 Oct 2021 00:00:00 +0000

Faculty of Industrial Technology Universitas Bung Hatta is located in Padang City, West Sumatra Province. Every point of location within the faculty can be visited directly, especially for prospective students who have an interest in studying here. However, due to time constraints and the distance from the location, visitors cannot visit the location directly. The virtual tour application is the best solution because the access to the Faculty's location points via the web resembles the real situation. The visitor's journey will be directed through a 360° photo view starting from the FTI entrance gate area, the Dean's building area, the lecture building area, the Nurul Ilmi Mosque area, the Volleyball Field area, and the Laboratory area. Each point is given a navigation link for easy directions and access to information. The virtual tour application is built using a certain method based on the stages of the Systems Development Life Cycle (SDLC) application development. Testing the application in terms of functionality using Blackbox Testing in accordance with ISO 9126-2. The test results are considered good with the parameter value equal to 1 in terms of input and output so that this application can be used according to the needs of visitors.

Journal Teknos

Implementasi Sistem Pemantauan Penggunaan Energi Listrik pada Konsumen Berbasis Android

Rancang Bangun Aplikasi Virtual Tour Fakultas Teknologi Industri Universitas Bung Hatta Berbasis Web