Integrated transport has long been the holy grail of transport engineering. Now, a project set up north of Melbourne’s CBD aims to make it a reality.
Led by the School of Engineering at the University of Melbourne, the project will create a living laboratory for developing a highly integrated, smart, multimodal transport system. The goals are to make travel more efficient, safer, cleaner and more sustainable.
Integrated transport aims to combine various modes of travel to provide seamless door-to-door services. Reduced delays, increased safety and better health can all be achieved by sharing information between users, operators and network managers. This will optimise mobility and minimise costs for travellers.
The National Connected Multimodal Transport Test Bed includes arterial roads and local streets in an area of 4.5 square kilometres in Carlton, Fitzroy and Collingwood.
Bounded by Alexandra Parade and Victoria, Hoddle and Lygon streets, this busy inner-suburban area is a perfect location to test a new generation of connected transport systems. Our growing cities will need these systems to manage their increasing traffic.
How will the test bed work?
The test bed covers all modes of transport. From April, it is due to collect data on vehicles, cyclists, public transport, pedestrians and traffic infrastructure, such as signals and parking. The area will be equipped with advanced sensors (for measuring emissions and noise levels) and communications infrastructure (such as wireless devices on vehicles and signals).
The aim is to use all this data to allow the transport system to be more responsive to disruption and more user-focused.
This is a unique opportunity for key stakeholders to work together to build a range of core technologies for collecting, integrating and processing data. This data will be used to develop advanced information-based transport services.
The project has attracted strong support from government, industry and operators.
Government will benefit by having access to information on how an integrated transport system works. This can be used to develop policies and create business models, systems and technologies for integrated mobility options.
The test bed allows industry to create and test globally relevant solutions and products. Academics and research students at the University of Melbourne are working on cutting-edge experimental studies in collaboration with leading multinationals.
This will accelerate the deployment of this technology in the real world. It also creates enormous opportunities for participation in industry up-skilling, training and education.
What are the likely benefits?
Urban transport systems need to become more adaptable and better integrated to enhance mobility. Current systems have long suffered from being disjointed and mode-centric. They are also highly vulnerable to disruption. Public transport terminals can fail to provide seamless transfers and co-ordination between modes.
This project can help transport to break out of the traditional barriers between services. The knowledge gained can be used to provide users with an integrated and intelligent transport system.
It has been difficult, however, to trial new technologies in urban transport without strong involvement from key stakeholders. An environment and platform where travellers can experience the benefits in a real-world setting is needed. The test bed enables technologies to be adapted so vehicles and infrastructure can be more responsive to real-time demand and operational conditions.
Rapid advancements in sensing and communication technologies allow for a new generation of solutions to be developed. However, artificial environments and computer simulation models lack the realism to ensure new transport technologies can be properly designed and evaluated. The living lab provides this.
The test bed will allow governments and transport operators to share data using a common information platform. People and vehicles will be able to communicate with each other and the transport infrastructure to allow the whole system to operate more intelligently. The new active transport systems will lead to safety and health benefits.
The test bed allows impacts on safety in a connected environment to be investigated. Interactions between active transport modes such as walking and cycling with connected or autonomous vehicles can be examined to ensure safety is enhanced in complex urban environments. Researchers will study the effects of warning systems such as red light violation, pedestrian movements near crossings, and bus stops.
Low-carbon mobility solutions will also be evaluated to improve sustainability and cut transport emissions.
Environmental sensors combined with traffic-measurement devices will help researchers understand the effects of various types of vehicles and congestion levels. This includes the impacts of emerging disruptive technologies such as autonomous, on-demand, shared mobility systems.
A range of indoor and outdoor sensor networks, such as Wi-Fi, will be used to trial integrated public transport services at stations and terminals. The goal is to ensure seamless transfers between modes and optimised transit operations.
This article was originally published on City streets become a living lab that could transform your daily travel