New autonomous vehicle concepts offer emissions reduction of up to 86%

Designing an autonomous electric vehicle (EV) that is fit for use in the future involves a range of projections based on data that is currently available, coupled with engineering expertise. This includes conducting a Life Cycle Assessment (LCA) that looks at the...

An innovative, affordable, and easy-to-manufacture future vehicle for Mobility as a Service It takes some imagination to envision a future with a radically different transport system, where people travel in autonomous vehicles in a ride-hailing model.  But ridesharing...

The Steel E-Motive team look back on the journey to develop a Mobility as Service solution with steel technologies and engineering excellence.

The innovative design for WorldAutoSteel’s Steel E-Motive autonomous Mobility as a Service concept vehicles includes a range of engineering approaches and a completely different take on an EV battery package. The Steel E-Motive EV battery system is lighter, safer,...

Imagining future transport solutions involves taking the user into account and designing vehicles that people will choose to ride in. Moving towards autonomous vehicles designed to operate within a ride-hailing, mobility as a service (MaaS) model requires designers to...

In this blog, Neil McGregor outlines how safety structures are being developed for the Steel E-Motive vehicles using AHSS and innovative vehicle architecture solutions.

Transport and the way people use it is changing. In the next 20-years, urban mobility is expected to be transformed by the widespread roll-out of fully autonomous vehicles operating within a ride-hailing, mobility as a service (MaaS) model. This will enable people living in and visiting cities to plan, book, and pay for multiple types of mobility services through a digital channel.

Students from Tecnológico de Monterrey won the Steel E-Motive Styling Competition with their futuristic design for an autonomous vehicle.

Free Automotive World webinar on Steel E-Motive’s progress to develop highly efficient steel structures for mobility as a service vehicles.