Next Generation of Multi-Agent Driven Smart City Applications and Research Paradigms

Arora, Anuja; Jain, Arti; Yadav, Divakar; Hassija, Vikas; Chamola, Vinay; Sikdar, Biplab

doi:10.1109/ojcoms.2023.3310528

IEEE Open J. Commun. Soc.

2023

DOI: 10.1109/ojcoms.2023.3310528

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Next Generation of Multi-Agent Driven Smart City Applications and Research Paradigms

Anuja Arora,

Arti Jain,

Divakar Yadav

et al.

Abstract: Smart City has seen a growing interest among government, researchers, and industrialists. Smart cities use digital technologies to enhance the quality of life for residents while promoting sustainability and efficient resource management. By integrating various technologies such as ICT, AI, and IoT, smart cities can improve the delivery of public services, optimize transportation systems, reduce energy consumption, and enhance public safety, among other benefits. The goal of smart cities is to create a more li… Show more

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2024

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Cited by 5 publications

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“…Talebkhah et al[3] present a comprehensive review of Smart City development using Industry 4.0 technologies, emphasizing the role of Internet of Things (IoT), Big Data, and cloud computing. Their research sheds light on the architectural aspects and implementation challenges of Smart Cities.Arora et al[4] delve into the next generation of multi-agentdriven Smart City applications and research paradigms, showcasing the integration of artificial intelligence, IoT, and big data in shaping the future of smart governance, smart environments, and smart mobility.Bokhari and Myeong[5] investigate the impact of AI applications on smart decision-making within Smart Cities, highlighting the mediating effect of IoT and smart governance. Their research delves into the intricate relationships that underpin decision-making processes in urban contexts.Wu et al[6] introduce an IoT Cloud-Edge reconfigurable mixed-signal smart meter platform for arc fault detection.…”

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Predictive Maintenance for IoT-Enabled Smart Cities using Recurrent Neural Networks

Jabakumar,

Dhablia

2022

RJCSE

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This work delves into the pressing need for more efficient Predictive Maintenance solutions in the context of IoT-enabled Smart Cities. Existing methodologies often fall short, lacking the precision and accuracy required to keep these rapidly evolving urban environments running smoothly for different use cases. The limitations of current approaches become apparent when considering their inability to cope with the intricacies of IoT data. They struggle to harness the wealth of information generated by countless interconnected devices and systems, resulting in suboptimal performance. This issue is further compounded by their relatively sluggish response times, hindering the timely detection of critical maintenance needs. In response to these challenges, this paper presents an innovative approach that leverages the fusion of Bidirectional Long Short-Term Memory (BiLSTM) with Autoencoders in conjunction with Recurrent Neural Networks (RNNs). This combination of advanced techniques brings forth a powerful predictive maintenance model process. The utilization of BiLSTM and Autoencoders adds a layer of sophistication, allowing for a deeper understanding of the underlying data patterns. BiLSTM's ability to capture contextual information from both past and future data points enriches the model's predictive capabilities. The inclusion of Autoencoders aids in feature extraction and reconstruction, enhancing the model's ability to discern relevant information sets. The advantages of this proposed model are profound. It exhibits 4.9% higher precision, ensuring that maintenance actions are precisely targeted, thus reducing unnecessary interventions. Moreover, the model achieves a remarkable 5.5% increase in accuracy, guaranteeing more reliable predictions. Its 4.5% boost in recall ensures that potential issues are identified promptly. The model's 3.9% increase in speed means that maintenance responses are faster and more effective, minimizing downtemporal instance sets. Lastly, an 8.5% improvement in the Area Under the Curve (AUC) underscores its superior performance compared to existing methodologies. The impacts of this work extend far beyond the realm of predictive maintenance levels. It contributes significantly to the realization of truly smart and efficient cities, where resources are optimized, disruptions are minimized, and the quality of life for citizens is enhanced for different use cases. This research marks a pivotal step towards the seamless integration of IoT technologies into urban environments, with the potential to revolutionize the way we manage and maintain our cities in the future scenarios.

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Predictive Maintenance for IoT-Enabled Smart Cities using Recurrent Neural Networks

Jabakumar,

Dhablia

2022

RJCSE

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A Survey on Adaptive Smart Urban Systems

Bittencourt,

Costa,

Portugal

et al. 2024

IEEE Access

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Artificial Intelligence-Enabled Metaverse for Sustainable Smart Cities: Technologies, Applications, Challenges, and Future Directions

Lifelo,

Ding,

Ning

et al. 2024

Electronics

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Rapid urbanisation has intensified the need for sustainable solutions to address challenges in urban infrastructure, climate change, and resource constraints. This study reveals that Artificial Intelligence (AI)-enabled metaverse offers transformative potential for developing sustainable smart cities. AI techniques, such as machine learning, deep learning, generative AI (GAI), and large language models (LLMs), enhance the metaverse’s capabilities in data analysis, urban decision making, and personalised user experiences. The study further examines how these advanced AI models facilitate key metaverse technologies such as big data analytics, natural language processing (NLP), computer vision, digital twins, Internet of Things (IoT), Edge AI, and 5G/6G networks. Applications across various smart city domains—environment, mobility, energy, health, governance, and economy, and real-world use cases of virtual cities like Singapore, Seoul, and Lisbon are presented, demonstrating AI’s effectiveness in the metaverse for smart cities. However, AI-enabled metaverse in smart cities presents challenges related to data acquisition and management, privacy, security, interoperability, scalability, and ethical considerations. These challenges’ societal and technological implications are discussed, highlighting the need for robust data governance frameworks and AI ethics guidelines. Future directions emphasise advancing AI model architectures and algorithms, enhancing privacy and security measures, promoting ethical AI practices, addressing performance measures, and fostering stakeholder collaboration. By addressing these challenges, the full potential of AI-enabled metaverse can be harnessed to enhance sustainability, adaptability, and livability in smart cities.

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Next Generation of Multi-Agent Driven Smart City Applications and Research Paradigms

Cited by 5 publications

References 129 publications

Predictive Maintenance for IoT-Enabled Smart Cities using Recurrent Neural Networks

Predictive Maintenance for IoT-Enabled Smart Cities using Recurrent Neural Networks

A Survey on Adaptive Smart Urban Systems

Artificial Intelligence-Enabled Metaverse for Sustainable Smart Cities: Technologies, Applications, Challenges, and Future Directions

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