Innovate UK, Technology Strategy Board: Connected and Autonomous Vehicles - CRD.
Visteon Engineering Services Ltd, Jaguar Land Rover Ltd, Coventry City Council, Siemens PLC, Vodafone Group Services Ltd, Huawei Technologies (UK) Co Ltd, Horiba Mira Ltd, Coventry University and University of Warwick.
Dr. Olivier Haas (PI), Dr. Cyriel Diels (Co-I), Dr. William Payre (RA), Dr. Oluwaleke Agbaje (RA), TBC (from Sept 2017)
The overall project aim is to create one of the world’s most advanced environments for connected and autonomous driving. The objectives are:
- establish how technology can improve journeys, reduce traffic congestion and provide in-vehicle entertainment and safety services through better connectivity.
- enable automotive, infrastructure and service companies to trial connected vehicle technology, infrastructure and services in real-life conditions on 40 miles of roads within Coventry and Warwickshire.
Coventry University’s objectives are to evaluate the impact of Advanced Driver-Assistance Systems on drivers and other road users using:
- Human factor studies
- Vehicle and driver modelling within microscopic traffic simulation software environment
- Driver simulator studies.
The primary beneficiaries of the project include automotive (JLR, Visteon, Mentor Graphics), telecommunication (Vodafone, Plextek, Huawei), and traffic management industry (Siemens), R&D institutes (Horiba MIRA), universities (Coventry University, University of Warwick, University of Essex) and local and national authorities (Coventry City Council, Depart of Transport, Highways England).
The potential impact of this work is to increase the competitiveness of the UK automotive sectors contributing towards increased wealth creation and economic prosperity.
The economic impact of the outcomes of this project will be significant. Automotive OEM (in particular JLR) and their suppliers (in particular Visteon) will gain improved capabilities in terms of vehicle connectivity which is an essential and competitive feature estimated to be worth $113bn by 2020. The associated benefit the driver assistance and safety segments growing to $49bn and $33bn respectively with Compound Annual Growth Rate of 40% and 28% respectively. Financial growth from 2020 for Visteon and Siemens are estimated to be up to £210m and £40m respectively. Replacing current overhead gantry on motorways to inform drivers with in vehicle systems combined with V2X technologies (LTE, DSRC, WiFi and LTE-V ) will lead to significant savings (one order of magnitude over the estimated £11bn investment required to enable connected vehicles). Beneficiaries of deployment of V2X and V2V technologies include the haulage industry, and the 4 million rental/leasing vehicles in the fleets rental.
The main societal impact is linked to safer drivers in safer vehicles on safer roads. Driver assistance should reduce the main cause of accidents (human error/distraction) and reduce related financial impacts. Further societal impact is expected through improvement in air quality and CO2 emissions by the substitution of natural gas for gasoline or diesel fuels in propulsion systems.
In addition many of the proposed methods have applications in other engineering disciplines, such as Mechanical, Electrical, Manufacturing and Systems, telecommunication.
Flood Ultra-cognitive Dendrite (FLUD)
The main aim of FLUD is to develop an intelligent and cost-effective automatic monitoring, and forecasting platform for flooding in urban environments.
TAAS Technology Conference 2018
Transportation-as-a-Service (TaaS) Technology Conference is a new two-day global conference and exhibition dedicated to covering the key topics of the Connected & Autonomous Vehicles (CAV) and TaaS industry and it will take place on July 9th and 10th 2018, The Slate, Coventry, UK.
The TaaS Technology Conference will bring together international experts for two days of in-depth discussions and exhibits focused on the opportunities and challenges of a mobility future that leverages CAVs and TaaS technologies.