Pedestrians all over the world have met them on the pavement already: autonomous delivery robots. Boxes on wheels, equipped with sensors, intelligent software and powerful motors. Developed to travel from A to B autonomously and reliably, without obstructing or endangering anyone.
Although the vehicles spotted are prototypes, it is quite possible that autonomous delivery robots will soon be a common sight – as part of the cities of tomorrow. However, the first steps – or turns of the wheel – in this direction are being made far away from the big cities: In Saas-Fee, a small village at the foot of the highest mountains in Switzerland. Here combustion engines are prohibited. Ideal requirements for testing electrically driven ideas.
TeleRetail delivery robot more economical
The new idea: a delivery robot made by the Swiss startup TeleRetail, which was founded in 2014 by CEO Torsten Scholl. He calls his robot a “mobile trunk.” After all, the robot should transport the shopping or packages just like a car – yet completely autonomously. The TeleRetail delivery robot is 33 inches wide and designed to travel on sidewalks, thereby avoiding road congestion. It carries payloads weighing up to 77 pounds.
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“Even though we will soon have autonomous cars, it does not make sense to have them drive around with only small loads. A small robot is much more economical and does not cause traffic jams.”
Scholl describes himself as an entrepreneur. He tackled a well-known phenomenon accordingly: “Today people mainly order online; the local businesses have to rise to the occasion, else they will soon vanish.” That is how he got the idea for an online sales network for the local trade. People can conveniently order their bread, milk and other goods online and have it delivered to their homes – by bicycle courier or, in future, by robot.
The TeleRetail delivery robot made its US debut in January 2018 at the Washington Auto Show in Washington, DC. The TeleRetail deliver robot was among the technical innovations and vehicles presented at a US Senate Field Hearing.
TeleRetail delivery robot supported by industrial partners
Now the task is to get the delivery robot fit for use. To this end, TeleRetail works closely with various industrial partners. Since fall 2016, for example, the company has been cooperating with maxon motor. “Together with the engineers of maxon, we ran through different approaches to find the optimal solution.”
The brushless DC flat motor EC 90 has already been used as a drive and provided convincing performance. Soon we want to test more powerful motors by maxon, such as the Bikemotor,” says Scholl. He values the strong support that vastly exceeds mere consulting about the right drive. “I am eager to see what’s next.”
Technical challenges are one thing. Another is changes to laws. Currently autonomous delivery robots can only move around in towns such as Saas-Fee with special permits. Scholl estimates that it will take another five years before the laws are adapted. In some countries, it might go faster. One thing is certain: Sooner or later, delivery robots will be a regular fixture in our normal lives.
<em>This is a sponsored article from maxon motor ag that first appeared in maxon’s driven magazine.</em>
Filed Under: The Robot Report, Robotics • robotic grippers • end effectors
William K. says
This is an interesting creation, an autonomous delivery “trunk” part of a car. Traveling on sidewalks at sidewalk speeds is certainly a smart way to avoid the problems that computer driven cars will face. But it would face a huge challenge in my area because the sidewalks are forbidden to bicycles and such, and most of the roads have such large potholes that the vehicle in the pictures would be stuck in the first one, high-centered with one or two wheels not touching anything. But it is an interesting concept, although I prefer the idea of bicycle carriers just because humans are more able to deal with exceptions than computers ever will be.
William K. says
Really, this creation needs one more mode of operation, which is a “follow me” mode that would have it carry a shopper’s goods to the shoppers destination, following the shopper as they walked. Then the device would return to it’s home base to await the next user. Probably adding this function mode would be a very minor addition to the controlling program and not require any additional hardware. Just a suggestion.