Sentences with phrase «deep earth imaging»
An important aspect of the work is Deep Earth Imaging, through which CSIRO will develop the tools and techniques, and GA will help apply them, demonstrate their effectiveness and assist industry to adopt them.
https://www.csiro.au/
Deep Earth Imaging research will keep Australia at the forefront of resources sector capability and provides an enormous opportunity for the mining, equipment, technology and services (METS) sector to not only find those resources, but to show others how to go about it.
CSIRO's Deep Earth Imaging Future Science Platform aims to take the limited number of physical properties that can be measured and develop the capacity to turn them into better geological models than those now being created.
The Deep Earth Imaging platform is only just at its beginning, but there are several areas where researchers are looking to develop and demonstrate their capabilities.
Technologies developed through CSIRO's new Deep Earth Imaging research will deliver the best results with broad collaboration, says a leading industry geoscientist, JON HRONSKY, of Western Mining Services.
Deep Earth Imaging is about producing enabling technologies for the industry by better integrating and making sense of geoscientific data.
Under CSIRO's Deep Earth imaging Future Science Platform, the research organisation is bringing together the skills and capabilities to peer through the earth and determine with greater certainty where usable sources of water are likely to be.
Read both a national and industry perspective on Deep Earth Imaging, the opportunities for sourcing mineral, energy and groundwater resources, as well as some of CSIRO's other major investments that could benefit the minerals and mining industry.
This problem of seeing through cover is totally generic, and if Deep Earth Imaging solves this problem, it will have a positive impact on discovery in Australia and globally.
Deep Earth Imaging is a new major investment in future science by CSIRO.
Although the initial three - year phase of Deep Earth Imaging has only just begun, CSIRO has been working on projects relevant to the underground detection and description of water resources for some time.
Through its Deep Earth Imaging Future Science Platform, CSIRO is working on reducing the business costs of finding new reserves by rendering the blanketing layers of earth transparent and sharpening the image of what's underneath.
There is no such thing as a silver bullet in our industry but if Deep Earth Imaging is successful in using available data to develop software that enables us to produce relatively high confidence geological models or maps of these concealed areas, it will help our industry be more effective, capable and competitive.
As important as the geophysicists will be the data scientists and software engineers, because Deep Earth Imaging is equally an exercise in developing predictive data analytics tools as it is about discovering subsurface phenomena.
Currently as part of Deep Earth Imaging, CSIRO is looking to hire some of the best exploration geophysicists across the world to create a world - first «exploration geophysics hub».
Mr Craske, who is working on the roadmap with CSIRO and industry in the UNCOVER project, would like to see a kind of open - source software philosophy applied to Deep Earth Imaging.
«What I hope to see is Deep Earth Imaging setting itself up a bit like Linux and Wikipedia — people can see it and pass comment on it.
A consultant to the Australian Mineral Industries Research Association (AMIRA), Tim Craske, says that while he applauds the ideals of the Deep Earth Imaging platform, it must not operate in a vacuum.
Aligned with the UNCOVER vision is CSIRO's new Deep Earth Imaging Future Science Platform.
We're developing Deep Earth Imaging technology that will allow us to accurately map and discover deeply buried mineral, energy and water resources.
The Deep Earth Imaging Future Science Platform aims to more precisely and more accurately image the subsurface and understand its geophysical and geochemical properties, unlocking the resource potential of a vast, under - explored part of Australia.
We're developing Deep Earth Imaging technology to allow geologists to create precise images of subsurface rock properties, as if the regolith material is transparent.
Global response to the establishment of Deep Earth Imaging has far exceeded expectations.
While recruiting our teams, I have suggested to candidates that it may be helpful to think of Deep Earth Imaging as if it were a small start - up company, embedded within the larger CSIRO.
The science of Deep Earth Imaging will help us more precisely image subsurface rock properties to unlock the potential of this vast and relatively under - explored area.
Not exact matches
Acoustic Zoom is promising to reduce surveying costs by 90 per cent with high - frequency seismic imaging that can map deep into the earth, while LlamaZoo Interactive Inc., is looking to create virtual reality mine plans for easier planning and execution.
Rapid shifts in technology are paving the way for developing innovative and potentially revolutionary imaging technologies that can reduce risks in deep earth exploration, writes JONATHAN LAW
Stephen Kane of the University of California, Riverside, has come up with a way to answer that question using NASA's Earth Polychromatic Imaging camera on the National Oceanic and Atmospheric Administration's Deep Space Climate Observatory (DSCOVR).