Combining redundant inertial sensors to create a virtual sensor output
First Claim
1. A method of determining an inertial quantity in a system with linear, non-linear, Gaussian, or non-Gaussian characteristics or combinations thereof, the method comprising:
- associating a plurality of inertial sensor devices with the system;
acquiring inertial sensor data from the plurality of inertial sensor devices;
utilizing a computing device for processing the inertial sensor data by application of a Monte Carlo estimation-based inference system configured to produce estimates in systems with linear, non-linear, Gaussian, and non-Gaussian characteristics, wherein;
the Monte Carlo estimation-based inference system is selected from a set of Monte Carlo estimation-based inference systems based on a set of operating and performance characteristic criteria; and
the computing device produces a virtual connection between at least two of the plurality of inertial sensor devices, resulting in a virtual sensor output value, the virtual sensor output value being of a degree of accuracy exceeding that which would otherwise be attributable to one of the single inertial sensor devices; and
utilizing the virtual sensor output value as at least part of a tangible indication of the inertial quantity.
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Abstract
Included are embodiments for determining an inertial quantity. One embodiment of a method includes combining readings from a plurality of inertial sensors to produce an estimate of the value of an inertial quantity in a manner that is fault-tolerant, more accurate than traditional sensor arrangements, and able to handle non-linear and non-Gaussian systems. Embodiments of a method also include utilizing a Monte Carlo estimation-based inference system to adaptively combine the inertial sensor outputs into a fault-tolerant highly-accurate inertial quantity estimate, an axis-reversed-paired physical arrangement of inertial sensors to minimize effects of environmental and process noise, and cross-associating sensors to ensure good sensor associations and reduce the effects of sample impoverishment.
27 Citations
10 Claims
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1. A method of determining an inertial quantity in a system with linear, non-linear, Gaussian, or non-Gaussian characteristics or combinations thereof, the method comprising:
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associating a plurality of inertial sensor devices with the system; acquiring inertial sensor data from the plurality of inertial sensor devices; utilizing a computing device for processing the inertial sensor data by application of a Monte Carlo estimation-based inference system configured to produce estimates in systems with linear, non-linear, Gaussian, and non-Gaussian characteristics, wherein; the Monte Carlo estimation-based inference system is selected from a set of Monte Carlo estimation-based inference systems based on a set of operating and performance characteristic criteria; and the computing device produces a virtual connection between at least two of the plurality of inertial sensor devices, resulting in a virtual sensor output value, the virtual sensor output value being of a degree of accuracy exceeding that which would otherwise be attributable to one of the single inertial sensor devices; and utilizing the virtual sensor output value as at least part of a tangible indication of the inertial quantity. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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Specification