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Why Architects are rethinking conventional parking for automated parking

The advent of automated vehicles has brought about a paradigm shift in the way we perceive transportation and mobility. Automated parking systems and mechanical parking stackers is not only changing the automotive industry but also influencing the architectural and urban planning sectors. One of the key areas undergoing a significant transformation is parking design. Architects and urban planners are rethinking conventional parking to accommodate the needs of automated parking systems such as: Semi Automated Puzzle Parking systems, Mechanical Parking systems such as Double, Triple and Quad Stackers, as well as fully automated Robotic parking systems such as AGV (Automated Guided Vehicle).

Why Rethink Parking?

There are several reasons why architects are rethinking conventional parking and integrating automated parking systems. Firstly, fully automated vehicles can park themselves without human intervention, which means they can be parked closer together without the need for space for drivers to get in and out of the car. This could potentially reduce the space required for parking.

Secondly, automated parking could be shared among multiple users, reducing the overall number of cars on the road and thus the demand for parking. This could free up valuable urban space that could be repurposed for other higher value uses.

Finally, automated parking systems are programmed to find parking on their own, eliminating the need for parking lots to be located in prime locations. This could further contribute to the optimization of urban space.

The Benefits of Rethinking Parking

There are several potential benefits to rethinking conventional parking for automated parking. One of the most significant benefits is the potential for space saving. By reducing the space required for parking, architects and urban planners could free up valuable urban land for other uses, such as green spaces, pedestrian zones, or additional housing.

Another potential benefit is the reduction of traffic congestion. By eliminating the need for drivers to circle around looking for parking, automated vehicles could significantly reduce traffic congestion in urban area.

Finally, rethinking parking by using automated parking systems, parking stackers, and/or semi-automated parking systems, could also contribute to the reduction of greenhouse gas emissions. By reducing the number of cars on the road and optimizing the use of vehicles, automated parking can reduce fuel consumption and emissions.


The rise of automated parking systems is forcing architects and urban planners to rethink conventional parking. This offers exciting opportunities to optimize urban space and improve the quality of life in our cities. As we move towards a future dominated by automated vehicles, it is crucial that we consider the implications for our built environment and plan accordingly.

By embracing the potential of automated parking, we can create more sustainable, livable, and efficient cities. The future of parking is here, and it is automated.