The Volvo Group, based in Göteborg, Sweden, has announced it is working on a joint venture with three universities and the Göteborg-based waste recycling company Renova, to develop a robot that interacts with the refuse truck and its driver to accomplish the work.
The three universities, which will take on various roles throughout the process, are: Chalmers University of Technology and Mälardalen University in Sweden as well as Penn State University in the United States.
The project is called ROAR, for Robot-based Autonomous Refuse handling, and the company says the goal is to introduce a robot that, with the help of instructions from a truck’s operating system, can collect refuse bins in a neighborhood, bring them to a refuse truck and empty them. All of this occurs under the supervision of the refuse truck’s driver, who can thereby avoid heavy lifting, according to the Volvo Group.
The company says the purpose of ROAR is to demonstrate how people, in the very near future, will use smart machines to assist with a broad range of activities in society. This technology can be applied in many areas, with refuse collection as just one example, according to the company.
“Within Volvo Group we foresee a future with more automation,” says Per-Lage Götvall, project leader for the Volvo Group. “This project provides a way to stretch the imagination and test new concepts to shape transport solutions for tomorrow.”
The three universities are part of Volvo Group’s Academic Partner Program, a network of 12 academic partners collaborating with Volvo for long-term cooperation in research and recruitment. The students have different tasks and roles. Mälardalens University will design the robot itself.
“It is exciting that we are combining advanced research with our training in robotics,” says Mikael Ekström, project leader. “Many students will work on this project, and it is a huge opportunity for them to learn both the technology and how to work in teams and in a real industrial context.”
At Chalmers University, students will work on the overall operating system.
“Chalmers has for many years developed the technology for the control and coordination of autonomous systems,” says Petter Falkman, associate professor, automation, at Chalmers, adding, “and we see that we can deal with problems of the complex type that waste handling entails. This will be a fun and challenging project for our driven researchers and motivated students.”
At Penn State’s Thomas D. Larson Pennsylvania Transportation Institute, the graphics, communication systems and control panel for the truck driver will be developed.
“We’re very lucky to have an amazing cohort of students who are well trained in automation technologies,” says Sean Brennan, lead of the Penn State team. “This project promises great opportunities for our students to not only engage with a cutting-edge vehicle project, but also to help define how society will interact daily with robotic systems.”
The work will continue until June 2016, when the technology will be tested on a vehicle developed by Renova, also based in Göteborg.
“For many years Renova has been a leader in the development of vehicle technology dedicated to fostering a better environment and work environment,” says Hans Zackrisson, development manager at AO Logistics, Renova Environment. “This project shows the exciting possibilities for the future.”
The Volvo Group says it is one of the world’s leading manufacturers of trucks, buses, construction equipment and marine and industrial engines. The Group also provides complete solutions for financing and service. The Volvo Group, which employs about 100,000 people, has production facilities in 19 countries and sells its products in more than 190 markets.
The three universities, which will take on various roles throughout the process, are: Chalmers University of Technology and Mälardalen University in Sweden as well as Penn State University in the United States.
The project is called ROAR, for Robot-based Autonomous Refuse handling, and the company says the goal is to introduce a robot that, with the help of instructions from a truck’s operating system, can collect refuse bins in a neighborhood, bring them to a refuse truck and empty them. All of this occurs under the supervision of the refuse truck’s driver, who can thereby avoid heavy lifting, according to the Volvo Group.
The company says the purpose of ROAR is to demonstrate how people, in the very near future, will use smart machines to assist with a broad range of activities in society. This technology can be applied in many areas, with refuse collection as just one example, according to the company.
“Within Volvo Group we foresee a future with more automation,” says Per-Lage Götvall, project leader for the Volvo Group. “This project provides a way to stretch the imagination and test new concepts to shape transport solutions for tomorrow.”
The three universities are part of Volvo Group’s Academic Partner Program, a network of 12 academic partners collaborating with Volvo for long-term cooperation in research and recruitment. The students have different tasks and roles. Mälardalens University will design the robot itself.
“It is exciting that we are combining advanced research with our training in robotics,” says Mikael Ekström, project leader. “Many students will work on this project, and it is a huge opportunity for them to learn both the technology and how to work in teams and in a real industrial context.”
At Chalmers University, students will work on the overall operating system.
“Chalmers has for many years developed the technology for the control and coordination of autonomous systems,” says Petter Falkman, associate professor, automation, at Chalmers, adding, “and we see that we can deal with problems of the complex type that waste handling entails. This will be a fun and challenging project for our driven researchers and motivated students.”
At Penn State’s Thomas D. Larson Pennsylvania Transportation Institute, the graphics, communication systems and control panel for the truck driver will be developed.
“We’re very lucky to have an amazing cohort of students who are well trained in automation technologies,” says Sean Brennan, lead of the Penn State team. “This project promises great opportunities for our students to not only engage with a cutting-edge vehicle project, but also to help define how society will interact daily with robotic systems.”
The work will continue until June 2016, when the technology will be tested on a vehicle developed by Renova, also based in Göteborg.
“For many years Renova has been a leader in the development of vehicle technology dedicated to fostering a better environment and work environment,” says Hans Zackrisson, development manager at AO Logistics, Renova Environment. “This project shows the exciting possibilities for the future.”
The Volvo Group says it is one of the world’s leading manufacturers of trucks, buses, construction equipment and marine and industrial engines. The Group also provides complete solutions for financing and service. The Volvo Group, which employs about 100,000 people, has production facilities in 19 countries and sells its products in more than 190 markets.