Our vision is to be a world leader in transport research. To achieve this we are undertaking original transdisciplinary research to address the key challenges associated with our priority areas - automated transport systems, aviation and sustainable transport.
The aim of our research is to make fundamental discoveries to enrich UK’s world research standing, advance our understanding and knowledge in developing enhanced transport policy of benefit to society.
Central to our strategy is collaboration with leading academics worldwide, leading international research groups, and carefully targeted universities with a major transport presence, industry and government agencies in the UK and internationally.
Automated transport systems
Our research is concerned with collision-free path planning, self-driving vehicles, sensor fusion techniques and operations and evaluation of smart transport infrastructure.
Specific challenges include:
- How can we integrate traffic engineering theories with robotics in developing collision-free path planning for driverless vehicles?
- How can we estimate the impacts of self-driving vehicles on network-level safety and congestion?
- Can we assist automobile industry in developing intelligent sensor fusion algorithms that would take data low-cost sensors but provide better quality outputs? How could we use data from connected vehicles to spatio-temporally forecast traffic states?
We have an instrumented vehicle (funded by EPSRC) equipped with cameras, GPS, gyroscopes, accelerometers, ultrasound sensors and radars. Data from this vehicle is extensively used to test and evaluate sensor fusion algorithms developed by our researchers. We have been actively working with colleagues from other schools in addressing the challenges under this research theme.
This is a growing area worldwide, is problem rich and is/and will increasingly generate major issues be they environmental, capacity constraint, energy supply, or sustainability related.
Our research is concerned with airport and airline planning and operations, airport capacity analysis, airspace and air traffic management, airport ground access, air transport policy, aviation security, air cargo and logistics, the introduction of new technologies and Unmanned Aerial Vehicles.
We assess the impacts of transport on society, the environment and the economy. Key areas of focus include: low carbon transport and fuels; noise from transportation sources; innovative forms of transport provision; active travel. Challenges of an increasingly urban and aging society; in the appraisal and evaluation of impacts; implementation and acceptability of sustainable solutions.
New approaches to traffic crash modelling
Our research in crash modelling has contributed significantly to our understanding of crash triggering factors which in turn has led to the development of more targeted and effective preventative measures.
Aviation planning and operations
Our research addresses some of the most challenging issues relating to aviation planning and operations at a variety of spatial scales from the local to the global.
We have developed a number of map-matching algorithms for various Intelligent Transport Systems and Services (ITSS) to improve accuracy, integrity, availability and safety.
More about us
Our group currently comprises of two professors, two senior lecturers and two lectureres. Follow the links below to find out more about us.
Professor Mohammed Quddus (Transport Group Leader)
Areas of expertise - intelligent transport systems, transport safety, and statistical analysis of transport data
Dr Andrew Timmis
Areas of expertise - sustainable aviation, air transport and future transport systems
Dr Lucy Budd
Areas of expertise - airport operations, airline marketing, air transport policy and transport geography
Dr Marcus Enoch
Areas of expertise - mobility management, public transport and transport strategy
Dr Marianna Imprialou
Areas of expertise - traffic engineering, road traffic safety and transport infrastructure
Professor Stephen Ison
Areas of expertise - travel demand management, transport policy, and transport economics
- Real-time intelligent map-matching algorithms for advanced transport telematics systems (RiMATTS)
- Quantifying the transport related impacts of parental school choice in England
- School Transport and Geographic Information Systems (GIS): Modelling Policy Options in the Real World
- Freight Route Choice using GPS Data
- The Prospects for Sustainable Aviation in the UK: Evaluating, Negotiating and Mediating between Competing Perspectives
- Quantifying the disruptive impact of CAPE (Convective Available Potential Energy) on air traffic flows through UK airspace
- Executive Journeys: travel, performance and comfort in the jet age
- Comprehending parking: the spatialities of parking provision in the UK and the potential for reducing energy intensive practice.
- TRAVEL PLAN PLUS
- DRT for DRT: Developing Relevant Tools for Demand Responsive Transport
- The ‘ABC’ project. Airports and Behavioural Change: towards environmental surface access travel
- Airport Energy Technologies Network (AETN)
- Future Resilient Transport Networks (FUTURENET)
- Estimating the value of a range of local environmental impacts
- Economic Value of Quiet Areas
- LCV GRID
- LCV Grid Low Carbon Vehicles: Gas Refuelling Infrastructure Demonstration
We teach on the following courses:
Real-time collision prediction models for autonomous vehicles
Exploring the experiences of ab-initio pilots in the shaping of their gender and professional identities
Analysing safety critical driving scenarios through Naturalistic Driving Studies & understanding the stages of crash development
To investigate the system level’s impacts and benefits involved in the transition from Manual to Autonomous Vehicles
Risk-averse path planning for autonomous road vehicles
Evaluating the impact of smart motorways on the environment: Is smart the new green?
Deligianni Stavroula Panagiota
Human Factors in Autonomous Vehicles: Examining the Braking Behaviour.
The impact of small-scale railway investments on passenger satisfaction.
High integrity Collision Avoidance Systems using low-cost sensors
Lampros Alexandros (Alkis) Papadoulis
Evaluating the safety impact of Connected and Autonomous Vehicles.
Assessing the Potential of Railway Transportation System in Productivity and Economic Development in KSA
Effect of fuel price on Road Accidents
Rizwana Shaheen Hussain
Investigating the business process implications of managing road works and street works
Evaluating The Impacts For Traffic Congestion And Business Investment Following The Introduction Of A Workplace Parking Levy (WPL) And Associated Transport Improvements
A Model for Airport Strategic Planning in the Arabian Gulf