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Collaborate Daily Book Series
Published by Collaborate
ISSN : 30313279     EISSN : 30316723     DOI : 10.62012
Core Subject : Engineering,
Automotive Engineering Civil Engineering, Building, Construction & Architecture Control & Systems Engineering Engineering Transportation
Engineering Daily Book Series is a peer-reviewed, Open Access Series that publishes original research articles as well as review articles in several areas of engineering. The subject areas covered by the book series are: Civil Engineering Computer Engineering Electrical Engineering Industrial Engineering Environmental Engineering Chemical Engineering Maritime Engineering Material and Structure Engineering
Arjuna Subject : Teknik (semua kategori) - Teknik (Lain-Lain)
Articles 43 Documents
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Subsea Pipeline Corrosion: A Review of Detection Methods, Mechanisms and Prevention Strategies Muammar Kadhafi
Collaborate Engineering Daily Book Series Vol. 1 No. 2 December (2023): Chapter Problems and Solutions for Improving Competence and Quality of
Publisher : Collaborate

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Abstract

Subsea pipelines are one of the important components in the oil and gas industry, which function to transport fluids from wells to surface facilities. However, subsea pipelines are susceptible to corrosion due to interaction with the aggressive marine environment, which can cause structural damage, leaks, and even failure of the pipeline. Therefore, effective and efficient underwater pipe corrosion detection methods, mechanisms, and prevention strategies are needed. This article aims to provide an overview of various detection methods, mechanisms, and prevention strategies for undersea pipeline corrosion that have been developed by researchers. Subsea pipeline corrosion detection methods can be divided into two categories, namely internal methods and external methods. Internal methods involve measuring physical parameters inside the pipe, such as pressure, flow, temperature, and fluid composition. External methods involve the use of non-destructive inspection technologies, such as ultrasonic, radiographic, electromagnetic, and acoustic.
Integration of Technology and Regulations for Safe and Efficient Marine Logistics Habibi Palippui
Collaborate Engineering Daily Book Series Vol. 2 No. 1 June (2024): Maritime Technology And Policy In The Development Of The Maritime Logistic
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Abstract

Maritime logistics is at the heart of global trade, with nearly 90% of the world's cargo transported by sea. However, the industry faces significant challenges in ensuring safety, operational efficiency, and environmental sustainability amidst increasing trade volumes and demands to reduce carbon emissions. Integration of modern technology with existing regulatory frameworks is key to improving maritime logistics performance while complying with safety and environmental standards. This paper explores various current technologies that can be applied, such as real-time ship tracking systems with the Internet of Things (IoT) and wireless communications, automation of loading and unloading processes using robotics and artificial intelligence (AI), as well as the use of big data and predictive analytics for optimization route and fleet management. These technologies have the potential to increase supply chain visibility, and time efficiency, reduce human error, and optimize resources. On the other hand, international regulatory frameworks such as the Convention on the Safety of Life at Sea (SOLAS) and the Convention for the Prevention of Pollution from Ships (MARPOL) from the International Maritime Organization (IMO), as well as national and regional regulations related to shipping safety, the marine environment, maritime security, and labor, must be adhered to in adopting new technology.
New Technology in Marine Logistics Warehouse Management Juswan Sade
Collaborate Engineering Daily Book Series Vol. 2 No. 1 June (2024): Maritime Technology And Policy In The Development Of The Maritime Logistic
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Abstract

The marine logistics industry faces challenges in improving efficiency, reducing operational costs, and supporting environmental sustainability. One crucial aspect that can be optimized is warehouse management, which is responsible for the storage, handling, and distribution of cargo. This research aims to explore the application of new technologies such as the Internet of Things (IoT), artificial intelligence (AI), robotics, automation, and green technologies in marine logisticswarehousemanagement. Themethodology used includes a comprehensive literature review, in-depth interviews with industry experts, and analysis of case studies of new technology implementation in marine logistics companies. The results revealed significant opportunities and benefits from the implementation of new technologies, such as improved visibility and real-time monitoring of cargo, optimization of cargo storage and handling, increased productivity and safety, and reduced operational carbon footprint. However, challenges such as initial investment costs, data security, system interoperability, and human resource training needs must be overcome. This research presents a comprehensive implementation strategy, including cost-benefit analysis, development of industry standards, implementation of strict security protocols, and collaboration between industry, government, and standardization bodies.A conceptual framework is developed to provide practical guidance for the marine logistics industry to effectively implement new technologies and optimize their benefits. By adopting new technologies appropriately, the marine logistics industry can improve its competitiveness and global supply chain performance, and support environmental sustainability.
The Role of Unmanned Vehicles in Enhancing Marine Logistics Security Sabaruddin Rahman
Collaborate Engineering Daily Book Series Vol. 2 No. 1 June (2024): Maritime Technology And Policy In The Development Of The Maritime Logistic
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Abstract

Marine logistics security is a crucial aspect of maintaining a smooth global maritime supply chain. This article explores the role of unmanned vehicles (UVs) such as unmanned aerial vehicles (UAVs) and unmanned underwater vehicles (UUVs) in enhancing ocean logistics security. UVs offer a cost-effective and flexible solution to monitor large ocean areas with advanced reconnaissance, monitoring, and tracking capabilities. This article analyses current UV technologies, advantages and limitations, and challenges in integrating UVs into marine logistics security operations. It also discusses the legal, ethical, and policy implications of using UV in the maritime context. Given the huge potential of UV in improving security and efficiency, this article highlights the importance of collaboration between industry and government stakeholders to optimize the utilization of this technology.
Impact of Technology on Human Resources in Marine Logistics Hasdinar Umar
Collaborate Engineering Daily Book Series Vol. 2 No. 1 June (2024): Maritime Technology And Policy In The Development Of The Maritime Logistic
Publisher : Collaborate

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Abstract

Technology has significantly changed the landscape of the ocean logistics industry, affecting the roles, responsibilities, and skill needs of human resources. This research aims to explore the impact of technologies such as automation, digitalization, and information systems on human resources in ocean logistics. Through a qualitative and quantitative approach that includes a literature review, online surveys, and in-depth interviews, key findings reveal a shift in worker roles towards automation system oversight, data analysis, and strategic decision-making. New skills such as programming, data analytics, and understanding automation systems are becoming crucial. However, the industry faces challenges in recruiting a workforce with the required skills and resistance from workers to change. Strategies such as extensive training programs, collaboration with educational institutions, and effective change management help integrate technology with human resources. Technology adoption also drives changes in organizational structures and work cultures that are more collaborative and data-oriented. This research provides important insights for companies and policymakers in developing strategies to prepare a competent marine logistics workforce for digital transformation.
Internet of Things (IoT) and its Utilisation in Marine Logistics Abdul Haris Djalante
Collaborate Engineering Daily Book Series Vol. 2 No. 1 June (2024): Maritime Technology And Policy In The Development Of The Maritime Logistic
Publisher : Collaborate

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Abstract

The marine logistics industry is the backbone of global trade, responsible for the transport of more than 90% of goods traded worldwide. However, the industry faces challenges in terms of improving efficiency, reducing costs, and ensuring supply chain security and visibility. The Internet of Things (IoT), which refers to a network of physical devices, vehicles, and other objects equipped with sensors, software, and internet connectivity, is emerging as a potential solution to address these issues. This research aims to explore the role and utilization of IoT in improving the performance of the marine logistics industry. The methodology used includes a comprehensive literature review, in-depth interviews with industry experts, and case study analyses of IoT implementations in marine logistics companies. The results revealed several opportunities and benefits from IoT implementation, such as real-time container and cargo tracking, efficient vessel fleet management, route optimization and logistics planning, and improved supply chain security and safety. However, IoT implementation also faces challenges related to data security, interoperability, investment costs, and regulation. This research provides in-depth insights into how IoT can be leveraged to optimize marine logistics operations and improve industry competitiveness, as well as recommended solutions to overcome the challenges faced.
Green Technology Opportunities and Challenges in Sustainable Marine Logistics Andi Sitti Chairunnisa
Collaborate Engineering Daily Book Series Vol. 2 No. 1 June (2024): Maritime Technology And Policy In The Development Of The Maritime Logistic
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Abstract

The maritime logistics sector plays an important role in supporting global trade, but also contributes to significant greenhouse gas emissions and environmental impacts. To overcome these challenges, the adoption of green technologies is becoming increasingly important in achieving sustainable maritime logistics. This research aims to explore the opportunities and challenges of implementing green technology in the maritime logistics industry. Through literature studies, interviews with stakeholders, and case studies, this research identifies three main opportunities, namely reducing emissions and environmental impacts, operational efficiency and cost savings, as well as regulatory compliance, and improving company reputation. However, significant challenges were also identified, including high initial investment costs, lack of supporting infrastructure, regulatory barriers, and limited incentives. To overcome this challenge, collaboration between government, industry, financial institutions, and civil society is needed to develop a comprehensive regulatory framework, provide incentives, and facilitate investment in supporting infrastructure. Further research is also needed to analyze the environmental impacts and life cycle costs of different green technologies, as well as explore innovative business models and funding strategies. The transition towards green and sustainable maritime logistics is not only important to preserve the environment, but also to ensure long-term economic and social sustainability.
Fiscal Policy to Encourage Investment in the Marine Logistics Sector Wihdat Djafar
Collaborate Engineering Daily Book Series Vol. 2 No. 1 June (2024): Maritime Technology And Policy In The Development Of The Maritime Logistic
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Abstract

The marine logistics sector plays a crucial role in a country's economic growth, particularly for archipelagic nations like Indonesia. However, investment levels in this sector remain low, which can hinder potential economic growth. This research aims to analyze various fiscal policies that can encourage investment in the marine logistics sector. The methods used in this research are qualitative and quantitative descriptive analysis. The results indicate that fiscal policies such as tax incentives, subsidies, and government funds allocated for maritime infrastructure development can increase the attractiveness of investment in this sector. Tax incentives, such as reductions in corporate income tax rates, exemptions or reductions in import taxes for equipment, and tax allowance facilities, can be effective instruments to attract investment. Subsidies, such as capital assistance, low-interest loans, and operational cost compensation, can also help reduce investment risks and encourage investor participation. Additionally, adequate allocation of government funds for the development of maritime infrastructure, such as ports, docks, and other logistics facilities, is crucial for enhancing the sector's efficiency and competitiveness. However, fiscal policies alone are not enough. Improved regulations and better law enforcement are also necessary to create a conducive investment climate in the marine logistics sector.
Strengthening Marine Logistics Regulations to Support Maritime Economic Development Misliah Misliah
Collaborate Engineering Daily Book Series Vol. 2 No. 1 June (2024): Maritime Technology And Policy In The Development Of The Maritime Logistic
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Abstract

The maritime industry is a crucial driver of global economic growth, facilitating international trade and transportation. However, outdated and fragmented regulations governing marine logistics operations often hinder the sector's efficiency and competitiveness. This paper examines the importance of strengthening marine logistics regulations to support maritime economic development. It highlights the need for regulatory harmonization, promoting sustainability, adopting digital technologies, and fostering stakeholder collaboration. By addressing these key areas, nations can create an enabling environment for efficient and competitive marine logistics operations, unlocking new opportunities for economic growth and trade facilitation. The findings underscore the significance of regulatory reforms in enhancing the maritime industry's contribution to sustainable development and global competitiveness.
Opportunities and Challenges in Digitalising Marine Logistics in Indonesia Aung Ye Kyew
Collaborate Engineering Daily Book Series Vol. 2 No. 1 June (2024): Maritime Technology And Policy In The Development Of The Maritime Logistic
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Abstract

As the largest archipelagic country in the world, Indonesia has great potential in the maritime logistics industry. However, digitalization in this sector still faces challenges such as inadequate information technology infrastructure and a lack of skilled human resources in the digital field. On the other hand, the digitalization of maritime logistics offers opportunities to increase the efficiency, transparency, and traceability of supply chains, as well as reduce operational costs and the risk of goods damage. Collaboration between government, industry, and academia is key in facing challenges and exploiting digitalization opportunities. By overcoming challenges and taking advantage of digitalization opportunities, Indonesia can strengthen its position as an important maritime country and encourage national economic growth through a more efficient and modern maritime logistics industry.

Page 4 of 5 | Total Record : 43

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