Tag Archives: Calle Skillsäter

Electric, autonomous transport to be demoed at Volvo CE’s Eskilstuna

Automation, Communications in mining, Environmental, Mining equipment, Mining services, Power supply for mines, Sustainable mining, , , , , , , , , , , ,

Volvo Construction Equipment says it is building the world’s first test and demonstration area for electric, autonomous transport solutions at its Customer Center in Eskilstuna, Sweden.

Construction has already begun on the brand-new area, which will be dedicated to testing and demonstrating the latest innovations in sustainable power, connectivity and autonomous solutions.

This 66,000 m² innovation zone will include a secure track for full-electric, automated and teleoperated machines with charging infrastructure and 5G connectivity, a control and training room building, a spectator stand and training area for the Volvo Co-Pilot assist functions.

Chief among the innovations on display will be the TARA autonomous transport solution from Volvo Autonomous Solutions for defined sites, such as quarries or mines.

At the heart of TARA is the TA15 battery electric and autonomous hauler, the next commercialisation step in the concept that began with the Electric Site project and the bidirectional, cabless, battery electric and autonomous HX02 hauler.

Calle Skillsäter, Technical Specialist in connected machines at Volvo Autonomous Solutions, said: “We are excited to demonstrate our complete TARA solution to customers, including how to set up and run the site, how to charge and store the TA15 electric autonomous haulers, and how we manage the control room and surveillance operations – everything in a brand-new state-of-the-art facility.”

The secure track will also showcase remote-controlled machines, which can also be used in quarries or mines using two tele-operation rigs installed in one of the control rooms. Another of the control rooms, meanwhile, will demonstrate in real time how Volvo CE’s uptime and productivity services can reduce customers’ total cost of ownership and operation, the company said.

Back in July, Volvo Autonomous Solutions President, Nils Jaeger, told IM that the test track already had six TA15 haulers running, and an R&D team was working on the development of future automation functionality/capability as well as operating the current test fleet.

He also confirmed Harsco Environmental and Volvo Autonomous Solutions had a joint project at Harsco’s location at the Ovako Steelworks in Hofors, Sweden, where adapted TA15 haulers were being used as slag carriers during a year-long pilot.

Carl Slotte, Head of Sales Region Europe & International at Volvo CE, added: “This is an important strategic investment, not just for Volvo CE and Volvo Autonomous Solutions but the entire Volvo Group, and is proof of our commitment to drive sustainability through innovation. We are looking forward to welcoming visitors to this world-class facility and allowing them to experience exactly how we are building tomorrow.”

The innovation area is expected to open later this year.

Volvo CE staying connected to automation trend with 5G collaboration

Automation, Communications in mining, Equipment maintenance, IoT, Mining equipment, Mining maintenance, Mining services, Mining software, Sustainable mining, , , , , , , , , , , , , , , , , , , , , , ,

As the application of automation in underground mines accelerates, several companies have started exploring 5G communications developments in order to handle the massive amounts of data that is being generated from autonomous equipment.

One company interested in exactly this is Volvo CE, which earlier this year, in co-operation with Telia and Ericsson, launched Sweden’s first 5G network for industrial use at its facility in Eskilstuna. The partnership could see the mining and construction equipment company become one of the first in the world to use 5G technology to test remote-controlled machines and autonomous solutions.

IM, as part of its annual focus on Nordic Suppliers (to be published in the June print issue), put some questions to Calle Skillsäter (pictured below), Volvo CE’s technical specialist for ‘Connected Machines’, to find out more about this collaboration and understand what hurdles companies are facing when trying to implement such communications solutions.

IM: What is the justification for investing in 5G technologies with Telia and Ericsson? How much of your equipment is currently controlled remotely or autonomously?

CS: Connectivity is a crucial enabler for automation, which is why this 5G project is so significant for us at Volvo CE and for the construction industry as a whole. We also believe that automation technology is at its most efficient when it is run hand in hand with electromobility – as we demonstrated through the Electric Site quarry project.

Thanks to a prior research collaboration with Telia and Ericsson, in the Pilot for Industrial Mobile Communication in Mining (PIMM) project, and now this established Telia Journey to 5G Partnership Program, we have the possibility to test future connectivity solutions for our machines in mining applications, as well as other potential applications.

Currently we are focusing on our L180H wheel loader remote-controlled prototype, but will soon test 5G on the HX2 concept (pictured above) autonomous hauler as well. There are no autonomous or tele-operated machines from Volvo CE available on the market today.

IM: Most of the 5G investment in mining has, so far, come from the Nordic region; why is this?

CS: That’s right, we do have a rather unique setup in that many Nordic companies are at the absolute forefront of their industries with this technology. Mining companies like Boliden and LKAB are driving the business to be more intelligent and automated, Ericsson & Telia bring the connectivity perspective, ABB bring their experience of automation into the process industry, and Volvo CE and Epiroc bring the machine perspective. It’s certainly the case that the Swedish engineering mindset is very open and collaborative, which is what you need to be if you are to explore the potential of new technologies and new ways of working. We are a small country and we need to collaborate and be on the edge of technology to stay competitive.

IM: Do you expect this region, in addition to Canada, to offer the most immediate potential for 5G automated and remote-controlled technologies in mining?

CS: As I’ve mentioned earlier, we have all ingredients available in the Nordics to succeed in this transformation towards more connected and automated mining solutions. Another strong reason is that we have high demands on health and safety for the people working in the mines. Automation is a key way to improve site safety and reduce the dangers and accidents associated with mining. In addition, automation is our key to staying ahead of our competitors.

IM: What testing have you so far been able to carry out at Eskilstuna? What results have been achieved?

CS: We quite recently inaugurated the new test area for automation and tele-operations, so we are still in the early phase. The initial focus is on the tele-operation of the remote-controlled wheel loader L180H, but we will very soon start testing 5G for the HX2 autonomous hauler concept machine. At the moment, it is too early to reveal any results.

IM: When do you expect to be able to test this out in a real-life underground mining environment?

CS: Tests have very recently been performed within the PIMM Digitalized Mining Arena (DMA) project in one of Boliden’s mines, using LTE wireless 4G communications, the results of which will be announced next month. Testing on a customer site with 5G is not planned yet.

IM: When comparing 5G to 4G technologies, what are the main benefits for mining companies when it comes to using this newer communication infrastructure (aside from lower latency, bandwidth, quality of service, positioning, etc)? What sort of impact could it have on operating costs considering the improved accuracy/responsiveness it brings to automated and remote-controlled operations?

CS: The main benefits are, as you say, lower latency, bandwidth and the quality of connection. But lower latency will also mean that tele-operated machines are more responsive, therefore resulting in much higher productivity. Higher bandwidth also means better video quality, which means a better work environment for the operator. Better video quality also creates a better feeling of presence, which helps to improve productivity. Quality of Service will mean machines are up and running for longer.

IM: How far is the industry away from employing these 5G solutions commercially? What are the three biggest hurdles to achieving this milestone?

CS: It’s too early to say when we think customers will be ready to see 5G solutions available commercially. But the biggest hurdles are:

  • Legislation related to the radio frequencies. There are still a number of open questions here; for example, will there be space for local industrial solutions, or will everything be dedicated to the mobile network operators?
  • Hardware availability. For example, there are not many 5G devices designed for demanding mining environments available right now on the market.
  • Business models. The new technologies will push us to review our business models. Should we continue to sell machines like we are used to?

IM: Do you expect underground mines of the future to be run solely off 5G networks? Or, do you expect a combination of 5G/Wi-Fi?

CS: There is a potential for mines to be run only on 5G in the future. But this is one of the questions that we hope to be able to answer in our coming tests and collaboration with our partners.