Revolutionizing Supply Chains: Unleashing the Power of AI-Driven Intelligent Automation and Real-Time Information Flow

Information, Год журнала: 2025, Номер 16(1), С. 26 - 26

Опубликована: Янв. 6, 2025

Artificial intelligence (AI) and smart automation are revolutionizing the global supply chain ecosystem at an accelerated pace, providing tremendous potential for resilience, innovation, efficacy, profitability. This paper examines how AI, machine learning (ML), robotic process (RPA) influence operations to adjust risks vulnerabilities. It focuses on AI other relevant technologies will enhance forecasting predict actual demand, expedite logistics, increase warehouse efficiency, promote instantaneously making decisions. study utilizes thematic analysis find AI-driven applications, including logistics optimization, risk mitigation, among 383 peer-reviewed articles (2017–2024). provides a strategic framework dealing with vulnerabilities, operational excellence, resilient solutions. Additionally, research investigates contributes resilience by predicting disruptions automating mitigation strategies. identifies critical success factors challenges in adopting intelligent analyzing real-world industry implementations. The findings propose organizations aiming leverage achieve agility, real-time information flow effective decision-making.

Язык: Английский

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Sustainable Transportation Solutions for Intelligent Mobility: A Focus on Renewable Energy and Technological Advancements for Electric Vehicles (EVs) and Flying Cars

Future Transportation, Год журнала: 2024, Номер 4(3), С. 874 - 890

Опубликована: Авг. 12, 2024

(1) Introduction: Transportation logistics play a pivotal role in facilitating both individual mobility and supply chain operations on global scale. However, conventional transportation systems have contributed significantly to urban congestion environmental degradation. In response these challenges, there is growing momentum investigate the potential of renewable energy power electric vehicles (EVs) flying automobiles, aiming reduce fossil fuel dependence carbon emissions. (2) Objectives: By analyzing key drivers opportunities for integrating into existing infrastructure through dynamic modeling, this study seeks accelerate transition sustainable transportation. (3) Methodology: A mixed-method approach, combining literature review causal loop diagram analysis, employed understand factors influencing EV car adoption. (4) Results: Findings highlight significant reducing emissions reliance fuels widespread vehicle The major challenges infrastructure, safety, airspace management are also identified. addition, research emphasizes importance addressing congestion, pollution, security. (5) Conclusions: leveraging embracing technological advancements, low-carbon future can be achieved, benefiting environment society.

Язык: Английский

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Sustainable Transportation Solutions for Intelligent Mobility: A Focus on Renewable Energy and Technological Advancements for Electric Vehicles (EVs) and Flying Car

Опубликована: Май 27, 2024

Introduction: Transportation logistics play a pivotal role in facilitating both individual mobility and supply chain operations on global scale. However, conventional transportation systems have contributed significantly to urban congestion environmental degradation. In response these challenges, there is growing momentum towards the adoption of intelligent (ITS) sustainable solutions. This research aims explore potential renewable energy sources power electric vehicles (EVs) flying automobiles, thereby accelerating transition low-carbon future. Objectives: The primary objectives this are as follows: - Investigate fuels powering EVs cars reduce reliance fossil mitigate carbon emissions. Analyze dynamic growth sustainability implications advancements battery technology alternative sources, such Hydrogen Fuel Cells. Evaluate challenges opportunities associated with integration into existing infrastructure, focusing safety, airspace control, infrastructure development. Review insights guidance stakeholders promoting solutions for through utilization reduction emissions from literature. Methodology: employs mixed-method approach, combining literature review, causal loop diagram analysis. review provides comprehensive understanding current trends, technologies. A utilized visualize interactions between various factors influencing cars, including technological advancements, policy interventions, market dynamics. Results Discussion: findings highlight significant solar, wind, hydrogen, cars. Advances hydrogen fuel cells identified key drivers systems. remain terms development, safety regulations, management vehicles. Nevertheless, noticeable advancement reducing widespread EVs. By harnessing implementing effective measures, might able promote solutions, contributing protection societal well-being. Conclusion: Literally, underscores importance addressing congestion, pollution, security concerns. leveraging embracing pave way more resilient system. concerted efforts needed overcome ensure successful technologies infrastructure. Through collaborative partnerships innovative initiatives, future can be achieved, benefiting environment society whole.

Язык: Английский

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Zero Plastic Drive: A Comprehensive Review on Unveiling Innovative Sustainable Solutions for a Circular Plastics Economy

Sustainability, Год журнала: 2024, Номер 16(23), С. 10329 - 10329

Опубликована: Ноя. 26, 2024

Living in a society where plastic has become necessity, the over-reliance on these materials is quite disturbing as they have social and economic effects, especially waste disposal resource management. Such issues introduced circular plastics economy (CPE), which aims to eliminate by focusing reducing, recycling, reusing (3R) designing biodegradable products. Owing facts, systematic literature review (SLR) was conducted analyze existing principles management systems terms of 3R initiatives. Also, this study showcases CPE investigating how it possible manage within instead linear system. Additionally, system dynamics modeling (SDM) applied examine inter-relationships between key elements such production, generation, recycling rates, regulatory actions, along with cognizance phase diversion advanced sorting technology minimize landfill dependency environmental pollution initiatives, including producer responsibility programs zero-landfill targets. This accumulated that zero strategies, circularity, national management, high-quality achieved rates ranging from 30% 81% across various countries, significantly reducing enhancing efficiency. However, added strategies countries are related policy-driven initiatives can prospectively be useful for increasing capacity landfills, promoting sustainable practices. also involved critical stakeholders who will make utilization reality. Ultimately, research contributes fast-growing knowledge base presenting an interdisciplinary framework based model synthesis mathematical modeling, crucial decision-makers, industries, researchers.

Язык: Английский

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