Mercedes-Benz Vans has invested in Starship Technologies, a start-up in the development of ground-based, autonomous delivery robots.
As lead investor, Mercedes-Benz Vans is participating in a 16.5 million euro financing round.
The two companies introduced the so-called mothership concept in September 2016. The concept combines the advantages of a van with those of an autonomous delivery robot. A Sprinter presented as a prototype serves as a mobile loading and transport hub for eight robots.
“Thanks to the intelligent interlinking of delivery processes, it will play a part in significantly improving the efficiency of last-mile delivery logistics in future,” Mercedes-Benz Vans said in a statement. “The mothership concept is the first outcome of a research and development cooperation between Mercedes-Benz Vans and Starship Technologies that began in 2016. Through its financial commitment to Starship Technologies, Mercedes-Benz Vans is now reinforcing this strategic, long-term collaboration.”
The investment, it says, is also in furtherance of its strategic future initiative called adVANce.
“The robot can only travel short distances under its own power and until now has had to return to the warehouse to be reloaded after each delivery”, says Volker Mornhinweg, Head of Mercedes-Benz Vans. “On the one hand, the introduction of the van as a mobile hub widens the operational radius of the robots significantly, while also rendering superfluous the cost-intensive construction and operation of decentralised warehouses.
“We see the combination of these two technologies as an opportunity to give our van customers access to some completely new services and business models. At the same time, we make the delivery process much more convenient for the end customer. For example, the concept makes it much easier to deliver goods to the end customer on time.”
The aim is to develop the concept systematically over the coming months. As the two companies recently announced at CES 2017 in Las Vegas, initial pilot tests for this combination of van and robot are planned for Europe. Following pilot testing of the delivery robots, which has been and continues to be undertaken by Starship Technologies with other partners, the plan is to begin widespread testing of the joint concept with one or several logistics partners. The launch of the pilot project in a real-world environment is scheduled to take place later this year.
Mercedes-Benz Vans presses ahead with the transformation of the transport sector
Mercedes-Benz Vans unveiled its adVANce strategic future initiative last September. The business division is systematically directing its focus at new, quickly changing customer needs, with a particular eye to identifying innovative solutions. The company will invest some 500 million euros in the advancement of digitisation, automation and robotics in vans as well as in innovative mobility offerings until 2020.
“Mercedes-Benz Vans is thus evolving from a globally successful van manufacturer into a supplier of holistic system solutions,” it says.
Why sports cars make us feel good
Forget romance, fine dining or an epic boxset binge – new preliminary research reveals that driving a sports car on a daily basis is among the best ways to boost your sense of wellbeing and emotional fulfilment.
The study measured “buzz moments” – peak thrills that play a vital role in our overall wellness – as volunteers cheered on their favourite football team, watched a gripping Game of Thrones episode, enjoyed a passionate kiss with a loved one or took an intense salsa dancing class. Only the occasional highs of riding a roller coaster ranked higher than the daily buzz of a commute in a sports car.
Working with neuroscientists and designers, Ford brought the research to life with the unique Ford Performance Buzz Car: a customised Ford Focus RS incorporating wearable and artificial intelligence technology to animate the driver’s emotions in real time across the car’s exterior.
Watch the video here https://youtu.be/AFpt6jziFsU
“A roller coaster may be good for a quick thrill, but it’s not great for getting you to work every day,” said Dr Harry Witchel, Discipline Leader in Physiology. “This study shows how driving a performance car does much more than get you from A to B – it could be a valuable part of your daily wellbeing routine.”
Study participants who sat behind the wheel of a Ford Focus RS, Focus ST or Mustang experienced an average of 2.1 high-intensity buzz moments during a typical commute; this compared with an average of 3 buzz moments while riding on a roller coaster, 1.7 while on a shopping trip, 1.5 each while watching a Game of Thrones episode or a football match, and none at all while salsa dancing, fine dining or sharing a passionate kiss.
For the research, Ford took one Focus RS and worked with Designworks to create the Buzz Car:
From concept, design and installation to software development and programming, the Buzz Car took 1,400 man-hours to create. Each “buzz moment” experienced by the driver – analysed using a real-time “emotional AI” system developed by leading empathic technology firm Sensum – produces a dazzling animation across almost 200,000 LED lights integrated into the car. The Buzz Car also features:
- High-performance Zotac VR GO gaming PC
- 110 x 500-lumen daylight-bright light strips
- 82 display panels with 188,416 individually addressable LEDs
Driver state research
Researchers at the Ford Research and Innovation Center in Aachen, Germany are already looking into how vehicles can better understand and respond to drivers’ emotions. As part of the EUfunded ADAS&ME project, Ford experts are investigating how in-car systems may one day be aware of our emotions – as well as levels of stress, distraction and fatigue – providing prompts and warnings, and could even take control of the car in emergency situations.
“We think driving should be an enjoyable, emotional experience,” said Dr Marcel Mathissen, research scientist at Ford of Europe. “The driver-state research Ford and its partners are undertaking is helping to lead us towards safer roads and – importantly – healthier driving.”
|Activity||Buzz Moments *|
|Game of Thrones||1.5|
* Average number of high-intensity buzz moments per participant
Car that sees round corners
Jaguar Land Rover is leading a £4.7 million (approximately R79 million) project to develop self-driving cars that can ‘see’ at blind junctions and through obstacles.
Britain’s biggest carmaker is leading a project called AutopleX to combine connected, automated and live mapping tech so more information is provided earlier to the self-driving car. This enables automated cars to communicate with all road users and obstacles where there is no direct view, effectively helping them see, so they can safely merge lanes and negotiate complex roundabouts autonomously.
Chris Holmes, Connected and Autonomous Vehicle Research Manager at Jaguar Land Rover said: “This project is crucial in order to bring self-driving cars to our customers in the near future. Together with our AutopleX partners, we will merge our connected and autonomous research to empower our self-driving vehicles to operate safely in the most challenging, real-world traffic situations. This project will ensure we deliver the most sophisticated and capable automated driving technology.”
Jaguar Land Rover is developing fully- and semi-automated vehicle technologies, offering customers a choice of an engaged or automated drive, while maintaining an enjoyable and safe driving experience. The company’s vision is to make the self-driving car viable in the widest range of real-life, on- and off-road driving environments and weather.
AutopleX will develop the technology through simulation and public road testing both on motorways and in urban environments in the West Midlands. Highways England, INRIX, Ricardo, Siemens, Transport for West Midlands and WMG at the University of Warwick join the AutopleX consortium, which was announced as part of Innovate UK’s third round of Connected and Autonomous Vehicle Funding in March 2018.