Engineers Ireland Public Lecture on the Internet of Things

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On the 15th March, at CIT’s Nimbus Centre for Embedded Systems Research, Dr. John Barrett gave an invited lecture for Engineers Ireland on the theme of the Internet of Things. Large-scale networks of embedded sensors will transform our use of energy, our cities, travel, work and leisure. For scientists and engineers, the Internet of Things will be a valuable tool for finegrain observation and control and will provide unprecedented opportunities for discovery and innovation. The EU, US, China and Japan have all identified the Internet of Things as a key driver for future economic development and is now a major target on the roadmaps of the major global IT corporations. The lecture concluded with the reflection that those involved in developing the Internet of Things need to consider not just the technologies and the economics but also the social and human aspects of an IT revolution whose potential impacts we are only just beginning to visualise.
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John Barrett with Brendan Brice
John Barrett with Brendan Brice, Chairman Engineers Ireland Cork Region

Dr. Alan McGibney

Alan was awarded his PhD in Electronic Engineering in October 2008. His core research expertise lie in the areas of design and optimisation of wireless communication systems, wireless sensor networks for building automation, indoor localisation and software architectures. Money loans online. More recently, his focus has been on reconfiguration, reliability and management of infrastructure for the Physical web, Internet of Things and Cyber Physical Systems. Within Nimbus Centre his main duties include: - The definition, refinement and leadership of the research and innovation strategy and alignment with the overarching Institute strategy - Supervision, performance management and development of researchers and team members - Promote and Implement research excellence and maximise innovation impact through multi-disciplinary projects - Lead funding acquisition, in conjunction with group members and PIs in the Centre Alan has a successful track record in managing and developing research proposals both at a national (EI, IERC) and European level (FP7, H2020). From November 1st 2015 he has lead the technical management for the EU funded H2020 TOPAs (#676760) project, which investigates the reduction of the gap between predicted and actual energy use across blocks of buildings. Previously he has been CITs technical lead in the EU FP7 SCUBA project focusing on Systematic Engineering for Wireless Building Automation Systems. In national funded programmes he was the technical lead in the SFI funded ITOBO project responsible for the deployment of large scale wireless embedded networks for Optimised Building Operation. He is also responsible for the system architecture definition and integration in the IERC EMWINS project which supports model based fault detection and diagnosis. His research and interaction with key industry players has resulted in the development of formal design, deployment, management and verification methodologies for wireless embedded systems which have been encapsulated into cloud based tools and services covering the complete lifecycle of wireless sensor networks (known as WiSuite). He has also been one of the lead developers of the Nimbus Centre NICORE integration and computational platform, which is a scalable, distributed and extensible platform that enables the collection of sensor data from a large number of subsystems; provides computing resources to process those measurements into meaningful quantities and finally make this processed information available to business applications built on top of the platform. PhD Research: A Distributed AI approach for Large Scale WLAN Design The design and deployment of Wi Fi wireless networks is currently still carried out in an ad-hoc fashion with access point installation based on ?rules of thumb?. In order to design flexible in-door wireless communication systems based on WLAN technology, the development of planning software tools for automatic site-specific design of Wi Fi networks are required. These tools need to take various criteria into account such as the optimal number of fixed access points and especially their optimal placing based on accurate radio propagation prediction to satisfy user requirements.