Digital optical microscopy (DOM) and automated SEM-based (ASEM) mineralogy systems (MLA, QEMSCAN) have experienced signifi cant developments within the last decade. However these developments have been independent from each other and the two mineralogical techniques have so far not yet been integrated to combine the strengths and technical benefi ts of both analytical platforms. This detailed comprehensive mineralogical information is critical support for geometallurgy. Major hardware and software advances in DOM in the last few years have provided important new capabilities with potential applications to automated mineralogy. These technological advances have been largely driven by sectors outside mining (eg medical pathology) and have not yet been widely adopted within the minerals industry. The advent of DOM offers signifi cantly more automated mineralogy capabilities than traditional expert-mineralogist driven optical microscopy. This is based on advances in automated image acquisition, high resolution cameras for digital imaging, imaging of large areas through mosaic options, integration of multiple layers and application of advanced image analysis techniques. Ongoing research involves combining the outputs of DOM and ASEM-based microscopy to create new capabilities for integrated microscopy based on development of advanced cross-platform image fusion and data integration between DOM and ASEM (exploiting the benefi ts of both analytical platforms). This requires non-linear image registration and transfer of mineralogical identifi cation from ASEM to DOM systems using sophisticated image manipulation and data analysis software. Examples will be given of image fusion and data registration for a range of different ore types. Image fusion techniques are demonstrated using a porphyry copper deposit sample where sulfi des and precious metals are classifi ed using the MLA and gangue mineralogy obtained from DOM images. Data integration enables creation of a library containing optical property variability information for minerals identifi ed by the MLA; thus reducing the reliance on skilled mineral identifi cation by supplementing human interpretation.

Item Type:	Refereed Conference Paper
Keywords:	SEM optical microscopy, automated mineralogy
Research Division:	Earth Sciences
Research Group:	Geology
Research Field:	Resource geoscience
Objective Division:	Expanding Knowledge
Objective Group:	Expanding knowledge
Objective Field:	Expanding knowledge in the earth sciences
UTAS Author:	Berry, R (Associate Professor Ron Berry)
ID Code:	117192
Year Published:	2011
Funding Support:	Australian Research Council (CE0561595)
Deposited By:	CODES ARC
Deposited On:	2017-06-01
Last Modified:	2017-10-24
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