Robotics is typically associated with manufacturing robotics (e.g. PUMA arm), military robotics (e.g. Predator UAV), and more recently consumer robots (e.g. Roomba), medical/healthcare (e.g. Da Vinci) and the automotive industry (e.g. driverless cars). Not many are aware of the prevalence of robotics in the mining industry and the steps the industry has taken towards automation and autonomous robots.
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Autonomous mining |
The mining industry is a world-leader in autonomy, for example Rio Tinto's Western Australia operations has the worlds largest fleet of autonomous vehicles (150 autonomous trucks) - significantly larger than any operational system in the military. Rio's Western Australia operations are all controlled from a operation centre, which controls 40 mines, 30 pits, trains, power stations, and ports all based thousands of kilometres away. In terms of data, the WA system generates around 2.4 terabytes per minute of data. There is quite a lot of intelligence and innovation involved.
Overall, mining can be broadly broken up into a few key phases:
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Mining process |
- Exploration, assessment and planning. In this phase, new resources are identified and a new mine site is designed and constructed.
- Drill and blast, material is extracted from the ore.
- Load and haul, material is taken from the point of extraction to the processing plant.
- Processing, where the material is converted/crushed into a more useful (sellable) form.
- Transportation, where the product is loaded and transported, usually via rail to a port and then on to a ship to its final destination.
- Stockpiling, occurs at various points in varying quantities where appropriate.
At each of these steps some kind of machine is involved, and I'll give you a brief overview of the machines and some of the relevant research or commercial automation systems available.
Exploration and
remote sensing is a massive research area in itself in other industries, and mining is no different. UAV's are seeing use in aerial surveys on mine sites, with large data sets fusing visual (photogramatery), infrared,
LIDAR,
InSAR,
gradiometry, seismic and other geodesic measurements.
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West Angelas mine LIDAR scan |
On the ground new sensor fusion systems are being developed to classify the mine and ore structure and to identify the richest ore deposits. Combining all this data into an overall mine model is a difficult machine learning task. The
Rio Tinto Center for Mine Automation are doing active research in this field, and the
Gatewing X100 is an example of an UAV used for mapping in mining.
Drill and blasting is a mining-specific operation and there has been significant advancement in robotics in this area due to the operational hazards involved with this line of work. Robots can accurately drill holes that won't collapse and are easy to load, and
Atlas CopCo and
Flanders both have commercial automation systems for drilling which are well on their way to delivering autonomous drill rigs in the near future (
trial drilling systems have been in use on production sites since 2008). Atlas Copco first started their work in automated drill rigs in the 1980's and now has over 2,500 machines running their control system technology.
The load and haul stage is perhaps the most interesting as it is the first area where autonomous vehicles are used in regular production environments. Whilst autonomous loading is still an area of research (See these CSIRO projects on
dragline and
shovel loading automation), there are plenty of commercial automation systems for haul vehicles.
This includes
CAT Minestar Command,
Atlas-Copco Scooptram,
Sandvik Automine,
Komatsu Frontrunner.
Mineware provide shovel and dragline automation systems, with LIDAR systems that build digital terrain maps on the fly.
Autonomous Solutions has a number of autonomous vehicles, including trucks and dozers.
Continuous miners and long wall mining have seen
multiple automation systems including commercial systems from Eickhoff and
CAT. Excavators are no stranger to automation,
CMU automated excavators and truck dumping back in the late 90's, and work is ongoing at
PWRI in Japan and Hyundai research. The range of commercially available autonomous mining vehicles put military UGV's and automotive companies to shame.
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Transmin Rocklogic |
Processing plants have been fully automated, although for many metals, (e.g. iron ore), there isn't much too the process in the first place. Companies such as Metso have fully automated crushers, conveyors, and also include
computer vision systems to identify and classify rocks/froth/bubbles, etc.
FLSmidth and
Calibre Transmin have developed automation systems for rock breakers are available allowing the
rockbreaker to automatically park and deploy. In-Pit Crushing and Conveying (IPCC) systems allow parts of the plant to be mobile, and even these systems have been largely automated by companies such as Sandvik.
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Autonomous train |
Transporting material from the mine is usually performed by a train, and
autonomous trains have been around for a while. In fact,
LKAB have been running driverless trains since the 1970's. The main difference in modern mining applications being that the goal is now fully autonomous operation, and that the trains can stretch many kilometres in length, making control a more difficult problem. Major miners such as
Rio Tinto are automating the trains in Western Australia, with companies such as
Ansaldo STS and
New York Air Brakes providing the technology.
Finally, with stockpiling
Stacker-
Reclaimers have been automated, with companies such as
ThyssenKrupp and
iSAM leading the way
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Rio Tinto - Remote Operation Center |
Overall there are a large amount of automated and autonomous mining equipment available, and projects such as
Rio Tinto's mine of the future at
West Angelas and
Yandicoogina sites,
Vale's Carajas Serra Sul S11D site and
Nautilus's Solwara underwater mining are all pushing towards fully autonomous sites where we may see no humans involved in operating future mine sites.
So if you want to find out more about robotics and automation research in mining there are a few great places to start:
The future of mining is autonomous robots, and we are well on our way!
2 comments:
Hugh Durrant Whyte has an excellent summary of robotics in mining towards the end of this lecture:
http://videolectures.net/ijcai2011_durrant_whyte_automation/
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