cover
Article Per Year (5 Year)
All
Home Page
OAI Link
Editorial Team
Contact
Reviewer
Google Scholar
Contact Name
Gozali
Contact Email
borneonoveltypublishing@gmail.com
Phone
+6281256405402
Journal Mail Official
borneonoveltypublishing@gmail.com
Editorial Address
Jl. Soekarno Hatta Km. 8
Location
Kota balikpapan,
Kalimantan timur
INDONESIA
Jurnal Teknologi Cerdas
Published by Borneo Novelty Publishing
ISSN : -     EISSN : 30643244     DOI : https://doi.org/10.70310/jtc
Core Subject : Science, Engineering,
Civil Engineering, Building, Construction & Architecture Computer Science & IT Electrical & Electronics Engineering Engineering
Jurnal Teknologi Cerdas (as known abreviation JTC) is a peer-reviewed journal regstered with number EISSN 3064-3244 & DOI Prefix 10.70310 published twice a year (February, Juni and Oktober). This journal focuses on the results from many disciplines (i.e energy, AI, IoT, IT, robotic, technology, manufacture, etc.). JTC has been publishing the articles since Oktober 2024 precisely since the release of Volume 1, Number 1, 2024. JTC (will be) National Accredited by the Indonesian Ministry of Education, Research, Technology and Higher Education of Republic of Indonesia.
Arjuna Subject : Teknik (semua kategori) - Teknik Kontrol dan Sistem
Articles 12 Documents
 1   2 
Data science: Building visual understanding Nugroho, Agung Yuliyanto
Jurnal Teknologi Cerdas Vol. 1 No. 1 (2024): JTC - Oktober
Publisher : Borneo Novelty Publishing

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70310/7y9mnh17

Abstract

Data science is rapidly evolving and plays a vital role in a variety of fields, from business to healthcare. However, the complexity of the data generated often makes it difficult for stakeholders without a technical background to understand. Data visualization is here to bridge this gap, enabling complex information to be translated into more intuitive and understandable graphical representations. Through effective visualization, patterns, trends, and insights hidden in data can be identified more quickly, facilitating better and faster decision-making. This article explores the critical role of visualization in data science, discussing the key techniques used to transform raw data into informative visualizations. It will also discuss how choosing the right visualization can help uncover relationships between variables, facilitate predictive analysis, and support in-depth analytical processes. By integrating visualization into the data science workflow, we can not only accelerate understanding but also improve communication between technical and non-technical teams. Ultimately, visualization is not just a supporting tool, but a core element that helps transform data into valuable insights.
SSC (Smart Shore Connection ): Inovasi suplai kapal berbasis energi terbarukan guna mengefisiensikan emisi dan biaya pelayaran Novandi, Faris; Amrullah, Romanda Annas; Lazim, Ahmad; Pratama, Rizki Adi; Azizah, Dhea Putriana Cahya
Jurnal Teknologi Cerdas Vol. 2 No. 1 (2025): JTC - April
Publisher : Borneo Novelty Publishing

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70310/wne9ss09

Abstract

In today's era, environmental quality has become a strategic global issue. Based on IQAir 2023 data, air quality in Jakarta is in a dangerous condition. In this case, sea transportation is a global contributor to Tanjung Priok Port. This is due to the use of fuel that does not comply with SOP. SSC (Smart Shore Connection) is an innovation in providing onshore electricity services to meet the needs of ship engines when docking and loading and unloading. This innovation is integrated with an electricity control application with the main electricity source coming from a hybrid of PLTS and PLTA with a switch controller mechanism. In operation, the results of the stored electricity generation are connected with a power delivery cable to the ship's engine room. Mathematically, the implementation of SSC is able to reduce emissions in the Tanjung Priok Port area by 82.71% and the value of operational cost savings is 35.9%. With this proposed innovation, it is expected to reduce air pollution in the Jakarta area so that a healthier environment is formed. In addition, ship operational costs can be reduced and will also have an impact on the welfare and smoothness of logistics in Indonesia.
Revitalisasi limbah tekstil: Pengembangan serat komposit berkelanjutan dari baju bekas Putra, Arya Rahmadi; Karim, Farhan Sajidan; Hamid, Muhammad Akram
Jurnal Teknologi Cerdas Vol. 1 No. 1 (2024): JTC - Oktober
Publisher : Borneo Novelty Publishing

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70310/0tq81d23

Abstract

In the era of globalization and the rapid growth of the fashion industry, significant environmental sustainability challenges arise due to textile waste accumulation. This manuscript proposes an innovative concept for the revitalization of textile waste through the development of sustainable composite fibers from used clothing. Utilizing theoretical approaches and literature analysis, this paper explores the potential of textile waste as a raw material source for creating composite fibers, which, until present, predominantly rely on limited natural resources. The discussion in this paper encompasses several aspects, including the process of selecting and transforming used clothing into fibers, the development of composite materials, and the potential applications of the resulting sustainable products. Additionally, an examination of the economic, environmental, and social aspects of this initiative demonstrates that the revitalization of textile waste offers a holistic solution not only in mitigating environmental impacts but also in promoting a circular economy and product innovation. The main conclusions drawn underscore the benefits of this approach and call upon stakeholders in the textile industry to view waste as a resource, aligning with global efforts towards a more sustainable future.
Integrasi Botol Kaca Hancur Sebagai Agregat Dalam Pembuatan Paving Blok Ramah Lingkungan Masduqi, Iqbal Prihandana; Pratama, Ihza Adha Yaza Putra; Maulana, Muhammad Adrian
Jurnal Teknologi Cerdas Vol. 1 No. 1 (2024): JTC - Oktober
Publisher : Borneo Novelty Publishing

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70310/anqj1g96

Abstract

This paper titled "Integration of Crushed Glass Bottles as Aggregate in the Production of Environmentally Friendly Paving Blocks" explores the fusion of aesthetic value and sustainability through the use of crushed glass bottles in paving block production. Capitalizing on glass waste, this paper proposes an innovative and ecological approach to the building materials industry. With a focus on reducing waste and promoting a circular economy, the detailed study reveals the capability of glass aggregates to produce products that are not only strong and durable but also aesthetically appealing. The paving blocks made with glass aggregate support the expected structural strength while also exhibiting unique surface beauty, creating the potential for widespread use in sustainable and eco-friendly construction projects. This paper takes a holistic view, emphasizing the social, economic, and environmental implications of using recycled glass, while offering fresh perspectives in the development of greener construction materials
Analisis pengurangan emisi karbon melalui inovasi perancangan rooftop garden di lingkungan perkotaan Balqis, Putri; Wulandari, Riski; Zulfandi, Muhammad
Jurnal Teknologi Cerdas Vol. 1 No. 1 (2024): JTC - Oktober
Publisher : Borneo Novelty Publishing

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70310/ajvv1d81

Abstract

Reducing carbon emissions is a crucial undertaking in tackling global climate change. A variety of approaches are used to reduce the increasing carbon emissions caused by industrialization and economic growth, especially in urban areas. A growing trend that could be adopted is the establishment of rooftop gardens in urban areas. This paper seeks to critically examine a range of literature review that specifically investigate the environmental advantages of rooftop gardens, with a particular emphasis on their potential to mitigate carbon emissions. The study was conducted by studying and reviewing diverse sources pertaining to the implementation of rooftop gardens in mitigating carbon emissions. Research in the field of literature indicates that rooftop gardens possess significant capacity to mitigate carbon emissions and effectively address the obstacles posed by climate change. Successful installation of a rooftop garden necessitates meticulous planning and a profound comprehension of environmental and technological aspects. Hence, rooftop gardens offer not only an environmentally friendly alternative, but also yield substantial economic and social advantages. Rooftop gardens enhance CO2 absorption, lower surface temperatures, and decrease building energy needs by improving thermal insulation. In addition to that, this green area also contributes to the enhancement of air quality and urban biodiversity. This review identified numerous designs and best practices that can optimize the ecological and economic advantages of rooftop gardens. The analytical results also indicate the possibility of incorporating rooftop gardens into urban planning, which could serve as a viable approach to reducing climate change and enhancing the urban quality of life.
Aplikasi agens hayati kombinasi liquid smoke untuk pengendalian penyakit busuk buah kakao Sianturi, Lira Sonia; Sitepu, Denny Rahmad; Surapati, Faradise Puan
Jurnal Teknologi Cerdas Vol. 1 No. 1 (2024): JTC - Oktober
Publisher : Borneo Novelty Publishing

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70310/5m2v3743

Abstract

The low production of cocoa plants is caused by attacks from the pathogen Phytophthora palmivora, which leads to cocoa pod rot. This can be controlled using biological agents (rhizobacteria, and Trichoderma sp.) combined with liquid smoke, which aids in disease management. The research aimed to control P. palmivora using these biological agents with different liquid smoke concentrations. A quantitative approach was employed, with in-vitro and in-vivo tests using four samples per treatment. The observed parameters included disease infection rate and disease diameter progression. The data were then tabulated and analyzed descriptively. Results consistently showed that combining biological agents with 3% liquid smoke provided the most effective control of P. palmivora, outperforming other treatments, including controls. To improve resistance to cocoa pod rot and boost production, applying this combination is recommended. Further research should be conducted to test the consistency of these results in various cocoa cultivation areas in East Kalimantan.
Inovasi IoT: Alat dehidrasi bioetanol dari limbah bonggol jagung untuk energi terbarukan Pitrianti, Destica; Naiya, Rara Weinita; Ramadavini, Miftah Azzura
Jurnal Teknologi Cerdas Vol. 2 No. 1 (2025): JTC - April
Publisher : Borneo Novelty Publishing

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70310/az4epw08

Abstract

Mardiharjo Village, Musi Rawas Regency, is facing the issue of corn cob waste that is not being utilized optimally and is polluting the environment. Corn cobs contain cellulose and hemicellulose, which have the potential to be processed into bioethanol. This research aims to design an IoT-based bioethanol dehydration device that can purify bioethanol to a concentration of 99%, in accordance with fuel standards. This device is equipped with a dehydration column, heater, condenser, and automatic control using a microcontroller. IoT technology enables real-time temperature monitoring for energy efficiency. The design was created using Tinker software and thoroughly documented. This innovation is expected to open up opportunities for utilizing corn waste as renewable energy and an environmental solution in the agricultural sector.
Renewrev : Stasiun pengisian daya cerdas untuk transformasi kendaraan listrik dengan energi terbarukan Trisuwito, Margaretha Lintangsari; Menalang, Djibriel Frits Sualang; Almunir, Muhammad Farrell
Jurnal Teknologi Cerdas Vol. 2 No. 1 (2025): JTC - April
Publisher : Borneo Novelty Publishing

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70310/ccbh3n62

Abstract

Indonesia faces challenges related to conventional electricity generation, including pollution and reliance on fossil fuels. This dependency leads to rising energy demand and soaring fuel prices. To address these issues, the government is promoting the dev elopment of renewable energy sources, such as solar and wind energy, to reduce conventional electricity use. The increasing adoption of electric vehicles (EVs) also drives the need for more charging stations. Innovations in electric vehicle technology and renewable  energy generation are essential for a sustainable future. This study compiles data from various sources to propose solutions, focusing on the design of hardware, system blocks, flowcharts, and use case diagrams for a project named SmartLink. The project aims to harness solar thermal and wind energy through technologies like turbine rotors, thermoelectric systems, and photovoltaic cells. Implementation of the SmartLink initiative will occur in three phases—capacity building, technical concept, and design—projected to last until early 2025.  By leveraging alternative renewable  energy, Indonesia  aims to mitigate its reliance on fossil fuels while supporting the growing demand for EV infrastructure.
Agritech berbasis IOT : Implementasi sistem monitoring dan kontrol proses pembuatan pupuk organik Alam, Muhammad Wahyu Syafiul; Alemoka, Christian Bill Glain
Jurnal Teknologi Cerdas Vol. 2 No. 1 (2025): JTC - April
Publisher : Borneo Novelty Publishing

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70310/ard51s29

Abstract

The problem that often occurs in making organic fertilizers is the incomplete maturity level and inconsistent content results. This is due to many factors ranging from the suitability of temperature and humidity in organic materials, the provision of inappropriate microbial liquids, the pH and TDS content which always changes during the fermentation process. This research aims to develop a system that is able to monitor temperature and humidity, volume of organic material and liquid organic fertilizer, methane gas and carbon dioxide during the fermentation process in real time through a website platform and automatic control of pH and TDS content adjustments in liquid organic fertilizer and notifications on the device within a certain period of time. The results of this study can provide solutions for farmers and Organic Fertilizer producers in the manufacturing process so that it can help reduce the manual process to be automated and the results of Liquid Organic Fertilizer become more consistent.
Sonut (Soil Nutrition): Inovasi deteksi tanah cerdas untuk pertanian presisi masa depan Anwar, Alif Faisal; Kamilah, Afifah Yasmin
Jurnal Teknologi Cerdas Vol. 2 No. 1 (2025): JTC - April
Publisher : Borneo Novelty Publishing

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70310/9h162v13

Abstract

Agriculture plays a vital role in ensuring food security and supporting national economies. Amid global challenges such as climate change, rapid population growth, and the need for increased food production efficiency, technological innovation in agriculture is essential. One critical issue in this sector is the inability to accurately assess soil conditions affecting crop growth, leading to inefficient fertilizer use and negative environmental impacts. Soil quality is compromised by excessive fertilizer application and climate change, which also hinders farmers’ access to advanced technologies. The "SoNut" (Soil Nutrition) innovation emerges as a solution, equipped with sensors to detect and analyze soil quality based on parameters such as pH, moisture, temperature, electrical conductivity (EC), and nitrogen content. The IoT-based system sends real-time data to the cloud for accurate analysis. SoNut enables automatic identification of soil types—such as ex-mining or peat soil—providing tailored crop recommendations. Additionally, it visualizes soil quality changes across locations, empowering farmers to make informed decisions in land management, ultimately enhancing agricultural productivity and sustainability.

Page 1 of 2 | Total Record : 12

 1   2 

Filter by Year

2024 2025


Reset
Filter By Issues
All Issue Vol. 2 No. 1 (2025): JTC - April Vol. 1 No. 1 (2024): JTC - Oktober