ABSTRACT: Sometimes it is a good idea to put receivers on the seabed. Sometimes it is not. There are several considerations when deciding whether to opt for ocean-bottom technology and if so, how. Seismic surveillance for reservoir production monitoring is done in busy and noisy oilfields that are partially obstructed by production and drilling surface facilities, which present more safety and quality challenges to surface towed streamers than to seabed receivers. In addition, permanent or accurately repositioned receivers have improved repeatability for reservoir production monitoring. Other motivations to put receivers on the seabed apply also to development and exploration. With a large and dense shot carpet, seabed receivers provide full-azimuth and well-sampled common-receiver gathers. Such data are useful for imaging below complex overburden including subsalt, sub- and intrabasalt, under gas clouds, and in fault shadows. Full azimuth is also good for multiple suppression. Interestingly, multiples don't always need to be suppressed. Mirror imaging turns multiples from noise to signal. In addition to improved P-wave imaging, multicomponent seabed receivers record shear waves that propagate in solids but not in liquids. Shear waves carry valuable information about lithology and fractures, and can help distinguish between effects of fluid change and pore-pressure change. Currently, however, shear waves are hardly used. The reason is that, as an industry, we are poor at managing expectations. There seem to be two groups of people: those who expect too much, and those who expect nothing at all. People move from the first group to the second, going all the way without stopping somewhere in the middle. The middle is that while we must not expect shear waves to replace P-waves, we ought to expect them to add value, because if we expect nothing we will get nothing.
The talk will review the history and the various types of ocean bottom technologies, with emphasis on ocean-bottom seismic nodes. A number of case histories, which are now public, provide valuable lessons that can prevent costly future mistakes. One type of mistake is to use ocean-bottom receivers or sources where and when they are not useful. Another type of mistake is to allow too little time or money to make a survey successful. Arguably, the most common mistake is to not go to the seabed and miss a great opportunity. This lecture will be a good opportunity for those who have done ocean bottom surveys to compare notes. For those who have never done ocean bottom surveys—sooner or later you will.