Ford is piloting an on-demand Dynamic Shuttle service for its Dearborn, Michigan, employees this month, providing a new mobility solution featuring smart ride-hailing technology with premium customized shuttles, applying insights from earlier experiments and research with global urban commuters.
The Dynamic Shuttle experiment supports the company’s broader effort to change the way the world moves. Ford Smart Mobility is the company’s plan to take connectivity, mobility, autonomous vehicles, the customer experience, and data and analytics to the next level.
Providing a platform to test new ideas, the pilot ultimately could help Ford develop mobility solutions to improve the lives of people in cities struggling with traffic gridlock and few public “Dynamic Shuttle is a major step forward on Ford’s mobility journey, which is designed to lead the company to develop truly innovative and disruptive ideas for diminishing traffic congestion and making public transit more convenient and accessible,” said Ken Washington, vice president, Ford Research and Advanced Engineering.
The company is piloting Dynamic Shuttle with four Ford Transit vehicles. The program is expected to expand to more shuttle vehicles in Dearborn – potentially increasing ridership as Ford tests the performance of the software and gathers fleet data.
The Ford shuttle service will begin processing customer ride requests on the new platform as it gradually migrates from its dispatch-based platform. A mobile-friendly Web portal and smartphone application will be available to riders next quarter.
Once a mobile-based ride request is made, the Ford-developed software – including the algorithm that drives the platform’s technical capabilities – immediately determines the shuttle best suited to address the request without extending the travel time of riders already aboard.
It then sends the rider an offer detailing proposed pick-up time and maximum duration of the trip, which the requester can accept or decline. If accepted, the request is dispatched to the shuttle driver’s navigation interface, along with the most efficient route to complete the requests of all riders in the timeliest manner.
