Lunchbox Geophysics

Infusing rock physics into seismic inversion

Dr. Michel Kemper

Dr. Michel Kemper
Ikon Science, SEG 2016 Europe Honorary Lecturer

Wednesday, April 5th, 2017 – 12:00 PM MST
Chevron Building +15 Auditorium

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LunchBox Geophysics is free! Simply bring your own lunch (refreshments provided) and enjoy.


Mick Jagger, philosopher and singer of The Rolling Stones back in 1969, sang rather pessimistically “You can’t always get what you want.” These words should ring true to all geoscientists: What we really want are measures of rock properties (such as facies/rock types, porosity, saturation, etc.), but what we typically measure in the field are quantities like resistivity, density, seismic wiggles, etc., —signals that are “somehow” related (to a smaller or larger degree) to these desired rock properties. 

Obtaining profiles of rock properties from measured well logs is called petrophysical evaluation. Geologists, when they want to obtain estimates of overpressures, talk about prediction. Geophysicists, trying to obtain 3D images of rock properties from processed 3D seismic data, have a perhaps better, more formal name for this process: inversion. 

Seismic inversion is a difficult endeavor, for the simple reason that the earth filters out a lot of the useful signal as it travels from a source through the subsurface to the receivers. What we are left with is a bandlimited signal with restricted information content. This can be readily seen when we compare a seismic trace against a corresponding impedance profile: The latter typically becomes larger as we go deeper (compaction hardens the earth), whereas the former keeps wiggling around zero. What a mismatch! 

Even though the new broadband seismic acquisition technique increases the seismic information content (good!), the signal is still band-limited, and keeps wiggling around zero. Thus, the mismatch with the hardening impedance profile is still there. 

In that same song, Jagger also sings of a more optimistic moment: “If you try sometimes, you might find … you get what you need!” — a sentiment I wholeheartedly agree with! Seismic inversion may be difficult, and the information content of the seismic signal may be limited, but there are ever more sophisticated ways to perform seismic inversion, and that is what this lecture is all about. 

The trick really is that somehow we need to add information to the seismic inversion process that is not in the seismic itself. For instance, low-frequency information (as the seismic is band-limited), or highfrequency information (for the same reason). Much of this lecture is about adding this extra information, because there are many ways to do this, though not all equally successful. We shall focus specifically on using rock-physics models to better derive the extra information, because these are nothing other than relationships between what we get and what we want! 

Just to put the reader’s mind (and ears) at ease: I shall not be singing during the lecture. 


Dr. Michel Kemper,
Director, Research & Innovation, Ikon Science 

A petroleum engineer with 31 years' experience in Geophysics, Petrophysics and Reservoir Engineering. The first 13 years were spent with Shell International in The Hague, Nigeria and London, during which time Michael made contributions to the interface between Petrophysics and Geophysics.

In May 1999 he became team leader Petrophysics/Petroacoustics at Ikoda Limited, working on a wide variety of projects. It is during this time that RokDoc - now one of Ikon Science's main products - was started. One of the co-founders of Ikon Science, he is now responsible for the incorporation of latest techniques and developments in the area of rock physics, seismic inversion and (numerical) earth modelling in the Ikon Science software portfolio in his position of Research Director.