![]() ![]() Technological advancements in exploration, extraction, processing Global outlook of critical materials demand and supply especiallyĬontributing to the global decarbonisation, energy and digital Transitions at affordable prices with minimum delays. Opportunities for international collaboration in equipment, technologiesĪnd supply chains to deliver the global energy and technology Implications of their production and use. Materials and explore the global market, environmental and social Processing, refining and recycling of these critical and strategic The Congress will discuss advancements in exploration, extraction, Goods and, whilst not rare, are distributed unevenly around the world. Rare earth minerals are vital for the manufacture of electronic For example, annual demand for battery materials - lithium, nickel, cobalt, manganese, vanadium, graphite - is expected to increase by over 450% by 2050. ![]() Global energy transitions will require very substantial increases in How they can be engineered into the operating landscape. Trust Based, we intend to explore, at a more fundamental level, We note that these drivers are essentially Importantly, this workstream will look beyond pure technology to exploreĪnd understand human factors, organizational and change managementĮlements that must be addressed to maximise the value that Autonomous Mining companies, equipment manufacturers, technology providers and The Autonomous Systems stream will bring together the perspectives of The mine owners, equipment manufacturers and regulators to coordinate To enable the at-scale implementation of a functionally safe autonomous We also wish to explore the important role of the regulator in assessingĪnd approving use of Autonomy in the mining industry. The more extensive exploitation of this exciting technology across the Pathway to enable platform component interoperability which will promote ![]() We wish to explore what steps the ecosystem should take to build a Recognise this will encompass a subset of the following elements, Perform tasks that, when humans do them, requires thinking. Industrial-scale, elements of Artificial Intelligence - defined as aĬollection of interrelated technologies used to solve problems and We acknowledge that Autonomous (Mining) Systems embed, at process control, human safety tracking etc) loaders,Īncillary equipment etc) or advanced AI enabled decision making systems We will map the migration of Autonomous Systems from the widerĬommercial and industrial landscape into at-scale Mining enabling, forĮxample, either motive/vehicular (e.g. Should look like in the more distant future Timeframe 3 – What mining and processing autonomy.Timeframe 2 – What mining and processing autonomy.Timeframe 1 – What mining and processing autonomyĭoes look like in 2023 in terms of capabilities and limitations.We will explore these elements against using broad time frames In recognition of the above, this stream will consider three importantĭrivers that are required, in combination, to deliver the operationalīenefits that Autonomous Systems can bring to Global Mining Operations. Processing automation and increasing yields and driving new levels of Outcomes in terms of Health Safety and the Environment. Of Autonomous Systems to improve productivity and deliver superior ![]() Surface and underground operations are looking towards the introduction Autonomous systems are being adopted by the mining industry the rate ofĪdoption has increased since the first industrial introduction ofĪutonomous Haulage systems in Australia circa 2008 and now spans drillĪnd blast through to processing and beneficiation. ![]()
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