Cited by NEXUS OF WIREFRAMES, 3D MODEL, AND SIMULATION FOR THE DEVELOPMENT OF AN INTELLIGENT WASTE MANAGEMENT SYSTEM

NEXUS OF WIREFRAMES, 3D MODEL, AND SIMULATION FOR THE DEVELOPMENT OF AN INTELLIGENT WASTE MANAGEMENT SYSTEM DOI

FUDMA Journal of Sciences, Год журнала: 2024, Номер 8(6), С. 328 - 342

Опубликована: Дек. 31, 2024

The exponential growth in urban population has intensified the challenges of municipal waste management, necessitating innovative technological solutions. This research presents an integrated approach to developing a smart management system by integrating wireframes, 3D modeling, and simulation technologies. study employs three-phase methodology: utilizing wireframe prototyping for user interface design, enabling iterative development based on stakeholder feedback, implementing detailed modeling bins visualize optimize flow dynamics, conducting comprehensive simulations evaluate performance under various scenarios. analysis compared multiple routing algorithms while monitoring real-time bin capacity through virtual sensors. Results demonstrate 25% improvement collection efficiency using dynamic traditional fixed routes 30% reduction overflow incidents predictive monitoring. user-centered design approach, validated testing with 50 participants, showed 40% increase engagement conventional interfaces. Additionally, phase identified critical modifications that improved accessibility 35% reduced maintenance requirements 20%. contributes growing knowledge city solutions providing practical insights municipalities seeking modernize their management. infrastructure. proposed offers scalable, efficient addressing promoting environmental sustainability. A limitation is its reliance simulation-based testing, which may not fully represent real-world operational complexities. major challenge implementation dependency continuous high infrastructures.

Язык: Английский

IoT-driven circular solutions for 3D printed composite fibre production: advancing SDG 9 DOI

Kalpana Sharma,

Deepika Saxena, Dipesh Kumar Mishra

и другие.

Green Materials, Год журнала: 2025, Номер unknown, С. 1 - 14

Опубликована: Май 27, 2025

This article discusses how the integration of 3D printing and composite fibre manufacturing with Internet Things (IoT) circular economy can create a revolution in sustainable production processes, exploring possibilities challenges that such convergence brings. IoT integrates network connected devices sensors to provide real-time data monitoring predictive analytics, tackling pressing inefficiencies conventional manufacturing. The functions additive processes enables meticulous managing resource utilisation, material optimisation, energy efficiency, ultimately minimising environmental impact. When derived from renewable or recycled materials, materials superior mechanical, thermal, chemical characteristics also reflect sustainability ideals. review consolidates recent IoT-enabled progresses, emphasising innovations related monitoring, defect detection, maintenance integrated economy. It addresses like interoperability, cyber security risks, scalability suggests techniques modular architectures artificial intelligence analytics as answers. Furthermore, this paper emphasises innovative approaches enhancing eco-friendly systems, focusing on energy-efficient IoT-based future research directions highlighted above encourage researchers establish more standardised towards IoT-dependent frameworks investigate bio-based materials.

Язык: Английский

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Food sustainability 4.0: harnessing fourth industrial revolution technologies for sustainable food systems DOI