Scalable and Interoperable Distributed Architecture for IoT in Smart Cities

<p>The increase of IoT devices and the emergence of smart cities have revolutionized urban development, offering numerous benefits while addressing environmental concerns. This has caused an increase in the usage of IoT frameworks, and the need for efficient architecture and standardiz...

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Main Authors:	Pranavasri, VJS, Francis, Leo, Mogadali, Ushasri, Pal, Gaurav, Vaddhiparthy, SVSLN Surya Suhas, Vattem, Anuradha, Vaidhyanathan, Karthik, Gangadharan, Deepak
Format:	Other/Unknown Material
Language:	unknown
Published:	Institute of Electrical and Electronics Engineers (IEEE) 2023
Subjects:	DML
Online Access:	http://dx.doi.org/10.36227/techrxiv.24118458 https://ndownloader.figshare.com/files/42312618

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spelling	crieeecr:10.36227/techrxiv.24118458 2023-11-12T04:16:27+01:00 Scalable and Interoperable Distributed Architecture for IoT in Smart Cities Pranavasri, VJS Francis, Leo Mogadali, Ushasri Pal, Gaurav Vaddhiparthy, SVSLN Surya Suhas Vattem, Anuradha Vaidhyanathan, Karthik Gangadharan, Deepak 2023 http://dx.doi.org/10.36227/techrxiv.24118458 https://ndownloader.figshare.com/files/42312618 unknown Institute of Electrical and Electronics Engineers (IEEE) https://creativecommons.org/licenses/by-sa/4.0/ posted-content 2023 crieeecr https://doi.org/10.36227/techrxiv.24118458 2023-10-16T07:36:41Z <p>The increase of IoT devices and the emergence of smart cities have revolutionized urban development, offering numerous benefits while addressing environmental concerns. This has caused an increase in the usage of IoT frameworks, and the need for efficient architecture and standardized ontology is imminent. In this regard, we propose a distributed, multi-layered data platform architecture comprising the Data Monitoring Layer (DML), Data Storage Layer (DSL), Data Enhancement Layer (DEnL), and Data Exchange Layer (DEL). Our architecture achieves interoperability, facilitates data transfer between nodes, enables telemetry data retrieval, and ensures cross-platform and cross-device compatibility. It addresses the challenges of handling increased sensor data and user demands by providing high throughput and scalability support. We investigated Smart City Living Lab at IIIT Hyderabad an existing large-scale system deployed within a 66-acre campus. This system consists of 291 nodes. By studying this deployed system, we were able to gather valuable real-world data, allowing us to analyze the challenges and potential solutions related to data architecture. Our results show improvements of up to 41.23\% in throughput and a decrease in latency by 29.19\% for data insertion from the sensor nodes. The retrieval by the data client gives an increase of over 800\% in both throughput and number of requests through DENL. These metrics are compared to a centralised data platform architecture. We conclude by discussing the implications of our findings and suggesting future work.</p> Other/Unknown Material DML IEEE Publications (via Crossref)
institution	Open Polar
collection	IEEE Publications (via Crossref)
op_collection_id	crieeecr
language	unknown
description	<p>The increase of IoT devices and the emergence of smart cities have revolutionized urban development, offering numerous benefits while addressing environmental concerns. This has caused an increase in the usage of IoT frameworks, and the need for efficient architecture and standardized ontology is imminent. In this regard, we propose a distributed, multi-layered data platform architecture comprising the Data Monitoring Layer (DML), Data Storage Layer (DSL), Data Enhancement Layer (DEnL), and Data Exchange Layer (DEL). Our architecture achieves interoperability, facilitates data transfer between nodes, enables telemetry data retrieval, and ensures cross-platform and cross-device compatibility. It addresses the challenges of handling increased sensor data and user demands by providing high throughput and scalability support. We investigated Smart City Living Lab at IIIT Hyderabad an existing large-scale system deployed within a 66-acre campus. This system consists of 291 nodes. By studying this deployed system, we were able to gather valuable real-world data, allowing us to analyze the challenges and potential solutions related to data architecture. Our results show improvements of up to 41.23\% in throughput and a decrease in latency by 29.19\% for data insertion from the sensor nodes. The retrieval by the data client gives an increase of over 800\% in both throughput and number of requests through DENL. These metrics are compared to a centralised data platform architecture. We conclude by discussing the implications of our findings and suggesting future work.</p>
format	Other/Unknown Material
author	Pranavasri, VJS Francis, Leo Mogadali, Ushasri Pal, Gaurav Vaddhiparthy, SVSLN Surya Suhas Vattem, Anuradha Vaidhyanathan, Karthik Gangadharan, Deepak
spellingShingle	Pranavasri, VJS Francis, Leo Mogadali, Ushasri Pal, Gaurav Vaddhiparthy, SVSLN Surya Suhas Vattem, Anuradha Vaidhyanathan, Karthik Gangadharan, Deepak Scalable and Interoperable Distributed Architecture for IoT in Smart Cities
author_facet	Pranavasri, VJS Francis, Leo Mogadali, Ushasri Pal, Gaurav Vaddhiparthy, SVSLN Surya Suhas Vattem, Anuradha Vaidhyanathan, Karthik Gangadharan, Deepak
author_sort	Pranavasri, VJS
title	Scalable and Interoperable Distributed Architecture for IoT in Smart Cities
title_short	Scalable and Interoperable Distributed Architecture for IoT in Smart Cities
title_full	Scalable and Interoperable Distributed Architecture for IoT in Smart Cities
title_fullStr	Scalable and Interoperable Distributed Architecture for IoT in Smart Cities
title_full_unstemmed	Scalable and Interoperable Distributed Architecture for IoT in Smart Cities
title_sort	scalable and interoperable distributed architecture for iot in smart cities
publisher	Institute of Electrical and Electronics Engineers (IEEE)
publishDate	2023
url	http://dx.doi.org/10.36227/techrxiv.24118458 https://ndownloader.figshare.com/files/42312618
genre	DML
genre_facet	DML
op_rights	https://creativecommons.org/licenses/by-sa/4.0/
op_doi	https://doi.org/10.36227/techrxiv.24118458
_version_	1782333541619597312

Scalable and Interoperable Distributed Architecture for IoT in Smart Cities

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