Aided inertial navigation system
First Claim
1. A method of surveying a borehole containing sections of a tubular string utilizing a survey probe, the method comprising:
- mounting an inertial navigational system on the probe, the inertial navigation system including a plurality of gyroscopes and a plurality of accelerometers;
generating a set of navigational data from the plurality of gyroscopes and the plurality of accelerometers indicative of the three dimensional probe position, velocity and attitude relative to the earth as the probe moves through the borehole;
having a probe mounted sensor for detecting joints a number of successive between the sections of the tubular string within the borehole;
using paid sensor for determining a path length along the borehole from a known reference point to the probe as a function of the number of joints detected; and
as the probe moves through the borehole, altering the navigational data as a function of the determined path length to reduce errors in the navigational data provided by the inertial navigational system.
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Accused Products
Abstract
The invention relates particularly to sensing devices and techniques which may be used to provide measurement data to aid an inertial navigation system, or attitude and heading reference system, and so bound the growth of errors which increase with time in such systems when operating autonomously. In one aspect, the invention relates to a method of determining the path length along a borehole from a known reference point to a probe or tool which progresses through a drillpipe or tubular string, to provide data to aid an inertial navigation system. A sensing device 15 is used to detect joints 11 between sections of drillpipe or tubular string within the borehole and the path length is determined from the number of joints detected and a known length of each section of drillpipe or tubular string. In another aspect, a flow measuring device, such as an impeller, is used to measure the velocity of the probe or tool through the drillpipe or tubular string. In another aspect the invention relates to a method of determining the velocity of a probe or a tool moving through a drillpipe or tubular string to provide data to aid an inertial navigation system. Two sensing devices, which are spaced apart by a known distance on the probe or tool, are used to detect one or more positions within a drillpipe or tubular string, and the velocity of the probe or tool is determined from the elapsed time between each sensor detection of the or each position and the distance between the sensors.
83 Citations
13 Claims
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1. A method of surveying a borehole containing sections of a tubular string utilizing a survey probe, the method comprising:
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mounting an inertial navigational system on the probe, the inertial navigation system including a plurality of gyroscopes and a plurality of accelerometers; generating a set of navigational data from the plurality of gyroscopes and the plurality of accelerometers indicative of the three dimensional probe position, velocity and attitude relative to the earth as the probe moves through the borehole; having a probe mounted sensor for detecting joints a number of successive between the sections of the tubular string within the borehole; using paid sensor for determining a path length along the borehole from a known reference point to the probe as a function of the number of joints detected; and as the probe moves through the borehole, altering the navigational data as a function of the determined path length to reduce errors in the navigational data provided by the inertial navigational system. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A borehole survey apparatus for providing navigational data representative of the position of a probe moving within the borehole containing sections of a tubular string, the borehole survey apparatus comprising:
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an inertial navigation system mounted on the probe, the inertial navigation system including a plurality of gyroscopes and a plurality of accelerometers for outputting a set of navigational data indicative of the three dimensional probe position, velocity and attitude relative to the earth as the probe moves through the borehole; a sensor mounted on the probe for detecting a number of successive joints between the sections of the tubular string within the borehole; and a signal processor mounted on the probe for receiving signals from said sensor and outputting a path length signal from a known reference point to the probe as a function of the number of joints detected by the sensor and altering the navigational data as the probe moves through the borehole as a function of the path length signal to reduce errors in the navigational data provided by the inertial navigation system. - View Dependent Claims (8, 9, 10, 11, 12, 13)
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Specification