Tag Archives: underground automation

Epiroc and Combitech continue to break new ground in mine automation

After three years of collaboration, Epiroc and Combitech’s traffic management solution for autonomous loaders at underground mines is coming to fruition.

In 2017, Epiroc and Combitech started to work on this technological leap. Together, they have combined technology from Epiroc and SAAB’s civilian product portfolio with knowledge of the way traffic management is to be systematised and developed.

At the end of the same year, a prototype, or ‘proof of concept’, was delivered and evaluated in Epiroc’s test mine outside Örebro, Sweden.

Eighteen months later, in spring 2019, the solution was installed and used at an Australia gold mine.

This solution is called Epiroc Scooptram Automation Total and is included in Epiroc’s 6th Sense offering.

“This solution, in which autonomous machines can perform complete assignments and interact with each other in a shared area, is much sought after within the mining industry,” Robert Raschperger, Consultant for Epiroc and Combitech’s Product Development Manager, said. “It is a matter of being able to create an even flow of material, avoid locking between machines in production and move employees away from an unsafe environment.”

The solution’s driver is a proprietary module known as the Traffic Management System (TMS). It allows machines to share roads, service locations and loading and dumping sites without collisions or locking events.

The module is generic inasmuch as it is applicable to other autonomous solutions, whereby machines, drones and trucks are able to independently perform pre-defined tasks, eg travelling from point ‘a’ to point ‘b’, and depositing a load.

Epiroc’s strategy is an “open automation system” that means other machine manufacturers can be integrated into the solution, such as integrating a remotely operated MacLean water cannon into the Epiroc automation fleet at Newcrest Mining’s Cadia East operation in New South Wales, Australia.

As well as the TMS module, there is the Fleet Management System (FMS) to automate assignment and resource management so that the mine operator can focus on the work to be performed, eg transporting 1,600 t from point ‘a’ and dumping it at point ‘b’. The system decides which machines to be used, when they should operate and which routes they should take.

The FMS module is based on the SAFE (Situational Awareness For Enhanced security) platform, which has been developed within the SAAB group.

The TMS and FMS modules are integrated into the mine’s overall production management, so work orders are received, implemented and reported in order of priority, while, at the same time, the system attends to other machinery and parts of the production flow, eg ore crushers and ore transportation systems.

Mattias Pettersson, Global Portfolio Manager Loaders, Epiroc’s Underground division, said: “Interoperability and openness have been key words in the development of Epiroc’s automation system and, thanks to this, the collaboration with a partner like Combitech has also worked extremely well.

“Besides the technical advancements made and the new functions, which we have succeeded to develop in record time, I’m almost more impressed with our collaboration and partnership. The future of digitalisation and automation development depends on our success in integrating different systems – where collaboration between people and organisations is just as vital as the technical aspects.”

Raschperger added: “A key to our success is that our team has different skillsets. Some of us are good at traffic-management logic, ie sending data and coordinating traffic patterns. Others are good at acquainting themselves with end-user problems, work culture and human-to-machine interaction. We also have sound expertise in development of systems so they meet the stringent demands around availability in a mine, typically 24/7, plus how modern software development should be set up and managed.

“It’s enjoyable seeing how knowledge can be used in new ways, and what results are attainable through collaboration.”

Epiroc’s Scooptram Automation Total allows machine operators to carry out remote work safely in a control room above ground level, where they can share the overall situation in real time and carry out tasks that still call for a human being’s experience and precision. The operators have good insight into what is happening within the production environment and can take over machines as and when necessary to carry out non-automated tasks.

The latest addition to the solution is the option of “easy control” of the security system that protects employees from harm if they accidentally enter the autonomous production area, Epiroc says.

“Putting it simply, various sections and passageways are permitted to be closed or opened for autonomous operation, allowing the mining operator to send in manned machines without stopping autonomous production any more than is necessary,” the company explained. “The function also supports smooth check-in and check-out of autonomous or remote-controlled machinery.”

Raschperger concluded: “With this solution we are breaking new ground, as we are bringing manual and autonomous operations closer to each other. A fully-autonomous mine is still a long way off, but the latest addition to the solution allows mining companies to actually proceed towards autonomous operation and increases the degree of utilisation of the investment in infrastructure, machinery and employees.”

This is an edited version of an Epiroc story that first appeared here: https://www.epiroc.com/en-uk/newsroom/2020/the-route-to-an-autonomous-mine

Mine automation starting to take hold, RFC Ambrian says

In its second report in a series on innovation and new technology in the mining industry, RFC Ambrian has tackled the subject of autonomous mining equipment, which, the authors say, has reached an “important level of maturity”.

The report considered both surface and underground equipment, but most notably surface mine haulage trucks where there has been an area of significant focus for major mining companies.

As the authors said: “This has reached an important level of maturity, although it is still evolving and its penetration across the industry is still in its infancy.”

AHS

The Autonomous Haulage Systems (AHS) have evolved from improvements in GPS for positioning and navigation, developments in sensors and detection –particularly radar and LiDAR, improved computing power and on-board monitoring, faster and more reliable networks and internet connection, and the development of effective and accurate algorithms and software, the authors said.

“AHS has appeared , first, at large mine operations where the benefits have the largest impacts, due to the high component of fixed costs in an AHS operation, and in developed countries where there is a shortage of skilled workers and labour costs are higher,” they said.

Outlining the potential benefits of AHS is straightforward, but finding hard data to support it is more difficult, according to the authors.

“Companies have made suggestions about the scale of improvement, but they are light on detail, definitions are not clear, and the data varies between companies,” the authors said.

Suggested improvements in productivity have come from Caterpillar (15-20%), Fortescue Metals Group (30%), Komatsu (15%), and Rio Tinto (15%), according to the authors.

“These improvements are still meaningful, and corporate companies would argue that every mine is different and that the mining companies and original equipment manufacturers (OEMs) that have so far implemented AHS have the right to guard this proprietary information and hold on to the competitive advantage,” the authors said.

Autonomy in other surface equipment

The authors said they are also now seeing this same technology used to automate other operations in the surface mine. This includes drill rigs, dozers, loaders and ancillary equipment.

“Much of this equipment is currently, at best, semi-autonomous, although a few mines have implemented fully-autonomous drill rigs and dozers,” they noted.

“Moving this equipment to full autonomy offers significant production improvements, although the scale of actual savings is not likely to be as great as those achieved with AHS,” the authors said.

“However, we have not yet seen quantified the downstream benefits of the resultant improved drilling and blasting.

“The automation of earth moving machines provides another step to increased productivity within the mine. However, loaders face additional challenges as a result of the variability of the loading face and the risk of collisions with the haulage trucks.”

Due to the complex nature of the bucket-media interaction, developing automatic loading functions that are better than or equal to expert manual drivers with regard to performance is a highly difficult task, according to the authors.

“As a result, fully-autonomous loading is not yet commercially available. Some observers suggest that the implementation of fully-autonomous surface loading is still some five years away, while others believe that full automation is unlikely.”

Underground mining

When it comes to underground mining, the authors of the report said, as with surface mining, full autonomy remains the goal.

“Mining companies and contractors are constantly looking to use technological developments to better utilise their investment in equipment and human resources and improve safety,” the authors said. “Particular features of traditional underground mines are: long unproductive periods caused by re-entry times required for operators after blasting; and higher health and safety risks due to geotechnical and environmental challenges.

“The use of autonomy underground aims to increase the productivity of the equipment and improve the safety of the operators.”

While the aims remain the same, full autonomy in the underground mine is not as advanced as in the surface mine, according to the authors.

“Haul trucks are used less frequently in underground mines, although a few mines are using haul trucks with AHS. More underground mines perform a short cycle of loading, hauling and dumping from a draw point to a tipping point with LHD equipment.

“Implementation of autonomous systems underground for LHDs is occurring, however, as with surface loading, one of the major hurdles to automating LHDs is replacing human judgement required for filling the bucket.”

This has seen full autonomy being used for the hauling and dumping cycle, but semi-autonomy usually used for loading, according to the authors. “Successful trials of fully- autonomous LHDs have been achieved and Sandvik i-series now offers an automated bucket filling assistant as a standard function,” they said.

Underground drilling operations, meanwhile, are achieving increased levels of autonomy but are also presently only semi-autonomous.

Robotic rail operations

The authors then looked at autonomous rail haulage systems, a segment of the market that has gained in prominence in the past few years thanks to initiatives such as Rio Tinto’s AutoHaul in the Pilbara of Western Australia.

The authors said: “There has been some form of automation on worldwide metro systems for many years, but one area where autonomous technology has yet to gain a foothold is rail freight. Trials are underway in Holland and Germany but implementing autonomous train driving on a complex rail network, with passenger trains and freight trains, is more difficult than on a metro system.”

The one exception to this is in the mining sector and AutoHaul, they said, where Rio has completed commissioning of the world’s first fully-autonomous, long distance, heavy-haul rail network which is now in full operation.

Pace of implementation

Despite the acclaimed success and the relative level of maturity of the technology, the wider implementation of AHS does not appear to be happening very fast, the authors argue.

“The systems of both the two main suppliers (Caterpillar and Komatsu) are well proven and have delivered positive results, although, according to consultants, both systems also have examples of less-than-expected performance.

“Nevertheless, the technical issues appear relatively minor and there is interest right across the industry but, in spite of the potentially significant benefits, more mines are not now using AHS.”

There are a number of likely reasons for this, the authors said, explaining that one of the most important is a lack of skilled personnel.

“We believe there is a lack of in-depth knowledge of the technology and limited personnel with the requisite experience, skills, and training throughout the industry’s hierarchy,” they said.

“Further, there is a shortage of skilled autonomous operators, developers, and consultants, some of who are moving to the autonomous auto market.”

Important factors in the success of AHS appear to be the level of management commitment, planning, and focus in the implementation, with the best results reported from well-operated mining sites, the authors said.

“Another factor is likely to be limitations on equipment supply from OEMs for new equipment and truck conversions, either due to manufacturing backlogs or maybe market caution, limiting investment. This is allowing the OEMs to be more selective in their customers.”

The authors cautioned: “However, if the existing suppliers do not develop additional capacity quick enough this could create opportunities for additional entrants in to the market.”

Capital availability in the mining industry could also be an issue holding back AHS advancement, they said, although it is less tight than it has been in recent years.

“Certainly, some lower-margin operations might struggle to finance the capital, although the uplift in relative profitability could be transformational, with relatively quick paybacks,” they said.
And the historical conservatism of the mining industry is also likely to be a factor, the authors said.

“There is still a natural reluctance within the industry to adopt new or unproven technology due to the high capital cost involved and the potential operational and reputational risks involved.

“This will be compounded if the organisation has limited experience and limited access to the technology.”

You can read the full report here.