[Note: A version of this blog entry appears in World Oil (October, 2010)]
Anyone keeping an eye on seismic advertisements in trade publications must have noticed the proliferation of azimuth (AZ). We are bombarded with WAZ (wide azimuth), NAZ (narrow azimuth), FAZ (full azimuth), RAZ (rich azimuth), etc. What is going on here? Why the blitz of promotion for AZ?
First, we need to understand that a prestack seismic trace is like a child, it has two parents: A source and a receiver. Each parent has a physical location and the trace is considered to live at exactly the half-way point between source and receiver. This location is called the midpoint, so each trace is said to have a midpoint coordinate. But like a child, the trace inherits other characteristics that are a blend of the parents. Looking around from the trace location, we see there is a certain distance between parents, a quantity termed the offset. Furthermore, there is an imaginary line from source to midpoint to receiver whose orientation we call azimuth. This is the bearing that you would read off a compass; 0 is North, 90 is East, and so on around to 360 which is, again, North.
We said earlier that a prestack seismic trace lives at the midpoint between source and receiver. This is true until we migrate the data. Migration is a process that maps observed seismic data into the earth. For example, imagine the source and receiver are very close together and we observe nothing on our trace except a reflection at 1 second.
How are we to make sense of this? Let's say the earth velocity is 2000 m/s, that means the wave went out, reflected, and came back; all in 1 second. Clearly the outward time is half of this, 1/2 second, traveling at 2000 m/s. So the reflecting object must be 1000 m away from the source/receiver/midpoint (S/R/M) location.
We know the object is 1000 m away, but in what direction? Ah, there is the rub. We do not, and cannot, know which way to look for the reflection point when we only have one prestack trace. But, strangely, that is no problem. Back in the 1940s some smart guys figured it out, and sone other smart guys coded it up in the 1970s. The trick is this: Since we don't know where the reflection comes from, we put it everywhere it could possibly have come from.
In our example, we know the reflector is 1000 m away from one point (where S/R/M all live). In other words, a bowl (or hemisphere) centered on that location. Let's be a little more specific. Underneath the data we have built an empty 3D grid that we call 'image space'. We grab the trace, note it's midpoint and reflection time, then take the observed reflection amplitude and spread it out evenly over the bowl. If we have only one trace with one event, that would be the migration result shipped to the client. A bowl-shaped feature embedded in a vast array of zeros. Good luck getting payment on that.
Those who know something about geology will immediately complain that the earth does not contain bowl-shaped objects. True. But remember, this is the result of migrating only one trace and we actually have many millions of traces in a modest 3D survey. All of these are migrated to generate a collection of closely spaced bowls in the subsurface and, when we add them up, something remarkable happens. The bowls tend to cancel in those places where nothing exists in the earth. But where the reflections actually originated the bowls constructively interfere to generate an image of the subsurface. Furthermore, this process can build all the interesting geology we want, including faults, channels, synclines, anticlines, and so on. Quite amazing actually.
Where does azimuth come in? So far we have considered the prestack seismic trace to have S/R/M all at the same location. In other words, there is no offset and no azimuth. When the source and receiver separate they do so along an azimuth, which the seismic trace inherits. Migration now involves the same kind of process described earlier, except the primitive migration shape is now a stretched bowl with the long axis along the S/R azimuth (technically, an ellipsoid).
Before all the excitement and activity about WAZ, marine surveys were shot with one, or a few, cables towed behind a ship steaming in, say, E-W lines. This is a narrow azimuth survey, since all the traces have about the same orientation and those millions of migration bowls are lined up E-W along the acquisition azimuth. Not surprisingly, when all the bowls are summed in the subsurface image, we get a good view of geology with an E-W dip direction. Geology oriented any other way is blurred, smeared, or just not visible.
Strange things can appear in such a data set, taxing the interpretation ability of even the most experienced geologist. Faults are a good case in point. Consider our narrow azimuth E-W survey shot in an area with faults oriented parallel (E-W) and perpendicular (N-S) to the shooting direction. The explanation is a bit technical, but the bottom line is that N-S faults will be beautifully imaged, while those running E-W will be poorly seen, if at all.
With this kind of narrow azimuth data, the industry spent decades developing ever faster computers and better migration algorithms, only to see the data improvements get smaller and smaller. But then overnight, it seemed, the introduction of wide azimuth shooting brought a quantum leap in image quality. Of course, WAZ came along late and unleashed all that pent-up computing and algorithm power making the improvement seem all the more remarkable.
Almost from the first days of petroleum seismology, practitioners knew that to unravel 3D dip required shooting in different directions. This lesson was always heeded in the development of land 3D. But offshore operational difficulties, and related costs, pushed the full azimuth goal aside. Then subsalt prospecting introduced a new class of imaging problem and narrow azimuth data was just not good enough. WAZ is here to stay.
Monday, October 25, 2010
Tuesday, October 12, 2010
SEG Governance Changes
As some of you SEG members may know there is a move afoot to change the governance structure of the organization. The details are not hard to find, there are SEG emails, newsletter, the latest issue of Leading Edge, and, of course, online. Each member will have to consider the proposals and decide on his/her own conscience.
In my opinion, there is great danger in the proposed structure. The excom currently is a president and six others, all elected at large by the entire SEG membership. The new rule would be an excom of 18, an executive group much bigger than those of vastly larger organizations such as Apple, Walmart, or the IEEE. Furthermore, certain seats are to be reserved on the excom for regions. Currently, the awards nominating committee is a small group of distinguished members with the charge to identify the best of the best in our society for special recognition, but this is slated to change. The new rule will require something like proportional representation of awards to mirror the composition of the society.
Both of these smack of political correctness to me, and a dispersal of influence and power to the corners of the earth from where it currently resides in North America. Ours is a mixed industrial and academic society and the industrial center of gravity, like it or not, is Houston. If the SEG spreads too thin, too far, too fast, I suspect there could be a rift in the society. If Texas spawned its own society in competition with SEG it would immediately be nearly its rival in power and resources, even if only 10% of the size.
When the SEG broke away from AAPG in the 1930's there was good reason. The culture and goals of the two groups did not align. The men, for they were men, who set up the structure of our society did it with full knowledge of what they were doing. Power is distributed with checks and balances. It is not perfect, but it is more than adequate to serve the society and perhaps save it from a debilitating pulse of globalism for the wrong reasons.
Although I now live in Houston, I am not a Texan by birth or nature. And while I am an American I harbor no American agenda. The fact is that no one set out to make North America the power center of the SEG, it developed naturally from the energy, innovation, and passion of the geophysical industries born there. When this rare combination of enterprise, efficiency, and hard work springs up taller and stronger elsewhere in the world I suspect the SEG power center will move with it, easily adapting within it's original governance framework.
The engine of SEG governance may need a tune up, but not an overhaul.
In my opinion, there is great danger in the proposed structure. The excom currently is a president and six others, all elected at large by the entire SEG membership. The new rule would be an excom of 18, an executive group much bigger than those of vastly larger organizations such as Apple, Walmart, or the IEEE. Furthermore, certain seats are to be reserved on the excom for regions. Currently, the awards nominating committee is a small group of distinguished members with the charge to identify the best of the best in our society for special recognition, but this is slated to change. The new rule will require something like proportional representation of awards to mirror the composition of the society.
Both of these smack of political correctness to me, and a dispersal of influence and power to the corners of the earth from where it currently resides in North America. Ours is a mixed industrial and academic society and the industrial center of gravity, like it or not, is Houston. If the SEG spreads too thin, too far, too fast, I suspect there could be a rift in the society. If Texas spawned its own society in competition with SEG it would immediately be nearly its rival in power and resources, even if only 10% of the size.
When the SEG broke away from AAPG in the 1930's there was good reason. The culture and goals of the two groups did not align. The men, for they were men, who set up the structure of our society did it with full knowledge of what they were doing. Power is distributed with checks and balances. It is not perfect, but it is more than adequate to serve the society and perhaps save it from a debilitating pulse of globalism for the wrong reasons.
Although I now live in Houston, I am not a Texan by birth or nature. And while I am an American I harbor no American agenda. The fact is that no one set out to make North America the power center of the SEG, it developed naturally from the energy, innovation, and passion of the geophysical industries born there. When this rare combination of enterprise, efficiency, and hard work springs up taller and stronger elsewhere in the world I suspect the SEG power center will move with it, easily adapting within it's original governance framework.
The engine of SEG governance may need a tune up, but not an overhaul.
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