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All Journal International Journal of Electrical and Computer Engineering JURNAL SISTEM INFORMASI BISNIS JURNAL TEKNIK MESIN Sebatik JURNAL PENDIDIKAN TAMBUSAI TEPIAN Jurnal Lentera Pengabdian JUSTINDO (Jurnal Sistem dan Teknologi Informasi Indonesia)
Fajar Ramadhani
Software Engineering Technology, Agriculture Polytechnic Of Samarinda
Humanities Computer Science & IT Control & Systems Engineering Economics, Econometrics & Finance Education Electrical & Electronics Engineering Engineering Mechanical Engineering Social Sciences

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Journal : TEPIAN

 1 
Information System for Industrial Mapping at the Industrial Department in Samarinda City Ladrika Eka Putri; Asep Nurhuda; Fajar Ramadhani
TEPIAN Vol 3 No 4 (2022): December 2022
Publisher : Politeknik Pertanian Negeri Samarinda

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (600.708 KB) | DOI: 10.51967/tepian.v3i4.1404

Abstract

The progress and development of increasing data demand human progress to become someone more advanced. So that everything related to data and information will be more structured and transparent if it is carried out and processed using information technology, including in government agencies. The Department of Industry of Samarinda City always collects data. the existence of industry in the city of Samarinda every year experiences data development and changes. The obstacle is that every industrial data collection was done manually and the officers finding the location of the industry had to contact the village office while not all industries were recorded in the village data. This study uses data collection methods, namely interview and observation methods. The result of this research is an industrial mapping information system at the Industrial Office of Samarinda City based on Android that can be used to help officers find out the distribution of industrial location points in Samarinda City and make it easier for users to find out industrial location routes.
Information System for Public Complaints at the Industrial Department of Samarinda City Nur Linda; Asep Nurhuda; Fajar Ramadhani
TEPIAN Vol 3 No 4 (2022): December 2022
Publisher : Politeknik Pertanian Negeri Samarinda

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1205.613 KB) | DOI: 10.51967/tepian.v3i4.1420

Abstract

In the reporting system at the Department of Industry of Samarinda City, reports on problems from the community are distributed to related parties collectively and manually, so the submission process tends to be long. Submission of long reports has an impact on the slow response from the government to the community. In addition, the process of distributing reports manually means that the public does not know how the government will follow up on the report. Therefore, this research aims to help the community in terms by submitting complaints or suggestions to the Samarinda City Industry Office and to assist the Samarinda City Industry Office to serve the community in terms of answering public complaints. The results of this study can facilitate the work of the Samarinda City Industry Office in viewing complaints from Samarinda City residents via the Web and can be monitored online by the Admin. In addition, residents of Samarinda City can voice their aspirations freely and easily without having to go to the Samarinda City Industry Office
Information System for Industrial Mapping at the Industrial Department in Samarinda City Ladrika Eka Putri; Asep Nurhuda; Fajar Ramadhani
TEPIAN Vol. 3 No. 4 (2022): December 2022
Publisher : Politeknik Pertanian Negeri Samarinda

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51967/tepian.v3i4.1404

Abstract

The progress and development of increasing data demand human progress to become someone more advanced. So that everything related to data and information will be more structured and transparent if it is carried out and processed using information technology, including in government agencies. The Department of Industry of Samarinda City always collects data. the existence of industry in the city of Samarinda every year experiences data development and changes. The obstacle is that every industrial data collection was done manually and the officers finding the location of the industry had to contact the village office while not all industries were recorded in the village data. This study uses data collection methods, namely interview and observation methods. The result of this research is an industrial mapping information system at the Industrial Office of Samarinda City based on Android that can be used to help officers find out the distribution of industrial location points in Samarinda City and make it easier for users to find out industrial location routes.
Information System for Public Complaints at the Industrial Department of Samarinda City Nur Linda; Asep Nurhuda; Fajar Ramadhani
TEPIAN Vol. 3 No. 4 (2022): December 2022
Publisher : Politeknik Pertanian Negeri Samarinda

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51967/tepian.v3i4.1420

Abstract

In the reporting system at the Department of Industry of Samarinda City, reports on problems from the community are distributed to related parties collectively and manually, so the submission process tends to be long. Submission of long reports has an impact on the slow response from the government to the community. In addition, the process of distributing reports manually means that the public does not know how the government will follow up on the report. Therefore, this research aims to help the community in terms by submitting complaints or suggestions to the Samarinda City Industry Office and to assist the Samarinda City Industry Office to serve the community in terms of answering public complaints. The results of this study can facilitate the work of the Samarinda City Industry Office in viewing complaints from Samarinda City residents via the Web and can be monitored online by the Admin. In addition, residents of Samarinda City can voice their aspirations freely and easily without having to go to the Samarinda City Industry Office
A Virtual Museums and 3D Artefacts to Improve Cultural Heritage Education Satria, Bagus; Ramadhani, Fajar; Karim, Syafei; Aini, Nur
TEPIAN Vol. 4 No. 4 (2023): December 2023
Publisher : Politeknik Pertanian Negeri Samarinda

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51967/tepian.v4i4.2967

Abstract

In the current era of globalization and modernization, the imperative to safeguard and convey cultural heritage and history to society becomes increasingly significant. Web-based virtual museums have emerged as a pivotal solution, facilitating the preservation and promotion of cultural heritage on a global scale. These virtual platforms offer visitors unprecedented access to artifact collections, transcending the limitations of physical museum visits. The immersive features, such as the ability to view objects from diverse angles and zoom in on intricate details, present a profound and engaging experience. This research is to contribute insights into the development of effective web-based virtual museums featuring 3D artifact representations, thereby making a meaningful contribution to the broader field of cultural heritage preservation. The primary objective of this study is to enrich the exploration and learning experiences of visitors in the realm of cultural heritage through digital platforms. The research employs a structured software development methodology encompassing vital stages like needs analysis, system design, implementation, testing, and maintenance. By focusing on the technological aspects, the study seeks to address challenges related to quality and reliability faced by web-based virtual museums. Furthermore, the findings aim to enhance the overall effectiveness of these museums in offering a comprehensive and captivating journey through cultural artifacts. This research is poised to not only advance the field of virtual museum development but also foster a deeper appreciation and understanding of our rich cultural heritage.
Critical Path Analysis Using Microsoft Project 2016 on the Implementation Schedule of Residential House Construction Projects Tahrir, Muhammad; Ramadhani, Fajar; Baco, Dewi Astuti
TEPIAN Vol. 4 No. 4 (2023): December 2023
Publisher : Politeknik Pertanian Negeri Samarinda

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51967/tepian.v4i4.2969

Abstract

A project requires good planning, careful execution and effective and efficient use of resources. The implementation of the development of a construction project consists of a series of activities that are interrelated with one another. This is where the importance of planning and scheduling projects properly to facilitate implementation in the field and development can be completed on time according to schedule. The existence of obstacles or obstacles that will occur in the process of implementing a construction project can be seen and predicted from the level of urgency of the work items to be carried out, the analysis that will be used to predict the constraints or obstacles that may occur is by analyzing the critical path of the project implementation schedule construction. The use of Microsoft Project is very effective in analyzing data and determining critical paths. Based on the critical path analysis that has been carried out on the construction project schedule for the construction of residential houses, it is found that several work sub-items are on the critical path, especially in preparatory work and structural work, which means that the work sub-item in this work must pay close attention to the implementation process both in terms of resource readiness. human and equipment.
Cloud Storage for Object Detection using ESP32-CAM Imron, Imron; Satria, Bagus; Karim, Syafei; Ramadhani, Fajar
TEPIAN Vol. 5 No. 2 (2024): June 2024
Publisher : Politeknik Pertanian Negeri Samarinda

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51967/tepian.v5i2.2994

Abstract

Cloud storage services can create an object storage bucket to store our pictures, among them the Cloud Storage FUSE, Scaleway, S3 bucket, Firebase,  etc. intelligent IoT systems generate vast amounts of multi-source industrial data, which necessitate a large amount of storage and processing power to enable real-time data processing and analysis. Cloud computing can be intricately linked into intelligent IIoT systems due to its strong computational and storage capabilities. Cloud Storage for Object Detection using ESP32-CAM. Create a workable solution that supports distributed storage bucket and implement it in a real-world setting. Implement the entire system as an addition to the well-known IoT cloud storage and run multiple experiments to evaluate its functionality in scenarios with varying setups and system. The target objects that are used as data sets are the ESP8266, Wemos D1, and Arduino Uno. Figuring out the ideal parameters for training the FOMO (First Object, More Object) model and then putting it into practice. It was necessary to find a balance between learning rate and accuracy, on the other hand, to maintain the highest possible accuracy in the identification of the microcontroller object to minimise the number of false positive reports. Find the value learning rate effective to this object is 0.01 with F1 score 98.7% and accuracy score 89.58%.
Development “Sincatensa”, a Plant Sensing System Application in Land Dry Areas Using Qr-Code Nona, Risna; Ramadhani, Fajar; Andrea, Reza
TEPIAN Vol. 5 No. 1 (2024): March 2024
Publisher : Politeknik Pertanian Negeri Samarinda

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51967/tepian.v5i1.3023

Abstract

Recognition or identification is important to make it easier for us to recognize a type of plant or plant community. Each type has characteristics that have adapted to its habitat. Plants that exist in dry land areas including those around the University of Timor campus, it is necessary to identify or carry out scanning to identify names, characteristics and benefits and status in nature. Scanning is often done manually so that it is sometimes less effective and efficient familiar to the lay public. The aim of this research is to integrate scanning methods with optimizing ICT media such as using the “Sincatanesa” (Plant Scanning System) application with QR Code. The method used is a combination between observation methods and identifying specific tree growth forms and input into the “Sincatanesa” application which has been designed by researcher. Taxonomic data ranging from kingdom to species, habitus, benefits and IUCN status of each existing tree. Then make it QR Code attached to each tree. There were 18 types of trees identified and a QR Code was created for identification in the “Sincatanesa” application. The data stored is internet based so there will be a lot of data that can be stored, can be edited easily It's easy and just scan the barcode to identify the tree. Hopefully this application is known and used by all academic community at the University of Timor and the wider community. Furthermore, the “Sincatanesa” application can be developed based on smartphone so that it becomes more flexible and easier to use.
Geographical Information System of Chocolate Plantation Locations in Berau District Using QGIS Web Khoirunnita, Aulia; Ramadhani, Fajar; Andrea, Reza
TEPIAN Vol. 5 No. 1 (2024): March 2024
Publisher : Politeknik Pertanian Negeri Samarinda

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51967/tepian.v5i1.3024

Abstract

The cultivation of cocoa plants in Berau Regency has been carried out traditionally with pre-conflict productivity of 700-800 kg/ha, but after the conflict and attacks PBK (Cocoa Fruit Borer) was reported to be only half. The yield quality is also low due to the pest attack and minimum post-harvest treatment. In addition, farmer institutions to be able to carry out activities in the garden together have not been well formed. According to Development Planning Agency at Sub-National Level of Berau Regency, in 2009 the area of cocoa plants in Berau Regency covered an area of 8,644 ha with a production of 2,362 tons. The area is spread across eight districts. With so many chocolate plantations in Berau regency, it certainly makes buyers or visitors, both from related ninas and individuals, become overwhelmed to find the location of chocolate plantations. Therefore, an application is needed to facilitate the search for location and data about the location you want to visit. Geographic Information Systems (GIS) or also known as Geographic Information Systems (GIS) have recently experienced significant developments along with the advancement of geographic information technology. GIS is a computer-based information system that combines map elements (geographical) and information about the map (attribute data) designed to obtain, process, manipulate, analyze, demonstrate and display special data to complete planning, processing and research problems. With the web-based designed GIS application, it is able to solve problems related to the vast chocolate plantation in Berau.
Co-Authors Altetiko, Faizal Johan annafi franz, annafi Asep Nurhuda Baco, Dewi Astuti Budi, Aditya Septa Emil Riza Putra Hindrayani, Kartika Maulida Husmul Beze, Husmul Ida Maratul Khamidah Imron Imron, Imron irsyad, irsyad Junirianto, Eko Karim, Syafei Khoiri Rozi Khoirunnita, Aulia Ladrika Eka Putri Maria, Eny Muslimin Muslimin Nona, Risna Nur Aini Nur Aini Rakhmawati Nur Linda Nurhizrah Gistituati Nurhuda, Asep Rachmadani, Budi Reza Andrea Sjamsir, Hasbi Suci Ramadhani, Suci Sulastri Sulastri Suswanto Suswanto, Suswanto Tahrir, Muhammad Tandi, Yospin TK, Berkah Fajar Wardati, Nanda Kurnia Yulianto Yulianto