A Multi-Modal Framework for Future Emergency Systems

Research output: Contribution to Book/Report typesConference contributionResearchpeer-review

Abstract

Internet of Things (IoT) envisages a world of connected devices paired with automation systems that aid everyone in their daily activities and communities at large. One of the most prominent use cases of IoT is emergency services. Based on the lessens learned from the tragic Grenfell Tower incident in the UK, we designed an IoT framework that aims at supporting rescue services to quickly locate and identify victims in an event of emergency by using a range of heterogeneous smart systems. Based on the framework design, a prototype is developed using a RFID access control and a drone system. We also incorporate
design specifications that minimise the risk of data and privacy breaches.
Original languageEnglish
Title of host publicationIEEE Smart World Congress
Publication statusAccepted/In press - 26 Apr 2019
EventIEEE Smart World Congress -
Duration: 19 Aug 2019 → …

Conference

ConferenceIEEE Smart World Congress
Period19/08/19 → …

Fingerprint

Emergency services
Radio frequency identification (RFID)
Access control
Towers
Automation
Specifications
Internet of things
Drones

Cite this

Basil, A., Mu, M., & Opoku Agyeman, M. (Accepted/In press). A Multi-Modal Framework for Future Emergency Systems. In IEEE Smart World Congress
@inproceedings{e73ad02e94904f2794e4feaa7a2496be,
title = "A Multi-Modal Framework for Future Emergency Systems",
abstract = "Internet of Things (IoT) envisages a world of connected devices paired with automation systems that aid everyone in their daily activities and communities at large. One of the most prominent use cases of IoT is emergency services. Based on the lessens learned from the tragic Grenfell Tower incident in the UK, we designed an IoT framework that aims at supporting rescue services to quickly locate and identify victims in an event of emergency by using a range of heterogeneous smart systems. Based on the framework design, a prototype is developed using a RFID access control and a drone system. We also incorporatedesign specifications that minimise the risk of data and privacy breaches.",
author = "Ahmed Basil and Mu Mu and {Opoku Agyeman}, Michael",
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day = "26",
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Basil, A, Mu, M & Opoku Agyeman, M 2019, A Multi-Modal Framework for Future Emergency Systems. in IEEE Smart World Congress. IEEE Smart World Congress, 19/08/19.

A Multi-Modal Framework for Future Emergency Systems. / Basil, Ahmed; Mu, Mu; Opoku Agyeman, Michael.

IEEE Smart World Congress. 2019.

Research output: Contribution to Book/Report typesConference contributionResearchpeer-review

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N2 - Internet of Things (IoT) envisages a world of connected devices paired with automation systems that aid everyone in their daily activities and communities at large. One of the most prominent use cases of IoT is emergency services. Based on the lessens learned from the tragic Grenfell Tower incident in the UK, we designed an IoT framework that aims at supporting rescue services to quickly locate and identify victims in an event of emergency by using a range of heterogeneous smart systems. Based on the framework design, a prototype is developed using a RFID access control and a drone system. We also incorporatedesign specifications that minimise the risk of data and privacy breaches.

AB - Internet of Things (IoT) envisages a world of connected devices paired with automation systems that aid everyone in their daily activities and communities at large. One of the most prominent use cases of IoT is emergency services. Based on the lessens learned from the tragic Grenfell Tower incident in the UK, we designed an IoT framework that aims at supporting rescue services to quickly locate and identify victims in an event of emergency by using a range of heterogeneous smart systems. Based on the framework design, a prototype is developed using a RFID access control and a drone system. We also incorporatedesign specifications that minimise the risk of data and privacy breaches.

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