Multiple-fault detecting device and detecting method for tightly-integrated inertial satellite navigation system

A navigation system and inertial navigation technology, applied in the field of multi-fault detection devices, can solve problems such as increased noise level, pollution of non-fault observation information, failure of single-satellite fault identification to meet navigation needs, etc., and achieve the effect of improving accuracy

Active Publication Date: 2012-09-05
NANJING UNIV OF AERONAUTICS & ASTRONAUTICS
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Problems solved by technology

[0006] (3) Human interference, especially hostile interference, will bring large errors
The above algorithm can realize the detection of system faults under a certain false alarm rate and false alarm rate, but it cannot perform fault identification or can only identify single-satellite faults
With the increase in the number of navigation satellites in orbit, single-satellite fault identification can no longer meet navigation requirements, especially in key applications involving life safety
[0009] Mul...

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  • Multiple-fault detecting device and detecting method for tightly-integrated inertial satellite navigation system
  • Multiple-fault detecting device and detecting method for tightly-integrated inertial satellite navigation system
  • Multiple-fault detecting device and detecting method for tightly-integrated inertial satellite navigation system

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[0046] Below in conjunction with accompanying drawing, the technical scheme of invention is described in detail:

[0047] Take the tight integrated navigation system including double-star failure as an example to illustrate the invention purpose of the present invention. The simulation of the inertial satellite tight integrated navigation system adopts dynamic track and medium-precision inertial devices; the GPS pseudo-range residual error is 20m, regardless of the influence of satellite geometric accuracy .

[0048] Such as figure 1 The multi-fault detection device of the inertial satellite compact combination system shown includes an observation measurement unit, an inertial navigation auxiliary unit, a satellite fault evaluation unit, a measurement information screening unit, and a Kalman filter. The observation measurement unit includes: an inertial navigation equivalent pseudo-range measurement unit and an adder.

[0049]The first input end of the inertial navigation eq...

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Abstract

The invention discloses a multiple-fault detecting device and detecting method for a tightly-integrated inertial satellite navigation system, and belongs to the technical field of satellite positioning and navigation. The multiple-fault detecting device comprises an observed quantity measurement unit, an inertial navigation aided unit, a satellite fault evaluation unit, a measurement information filtering unit and a Kalman filter, which can detect and identify the faults (of multiple satellites) occurring simultaneously. The fault detecting method transfers the inertial navigation information to an observed quantity matrix; according to a corrected detection and observation equation of the observed quantity matrix and the quality evaluation for the satellite observed quantity, the satellite fault evaluation unit reconstructs the observation system and the observation equation, and therefore the precision of the tightly-integrated navigation system under fault condition is improved.

Description

technical field [0001] The invention relates to a multi-fault detection device and a detection method of an inertial satellite tight combination navigation system, and belongs to the technical field of satellite positioning and navigation. Background technique [0002] Inertial satellite tight integrated navigation system is a navigation system that combines inertial navigation and satellite navigation, and uses the pseudo-range and pseudo-range rate of the original satellite observation information as the observation quantity. Compared with the loose combination, the tight combination system has better accuracy and dynamic performance, and can work normally in a shorter period of time when there are less than 4 visible satellites. [0003] However, due to the deep combination of the tight combination system, its accuracy and reliability are greatly affected by the pseudorange and pseudorange rate quality of the original satellite observation information. Pseudo-range and p...

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Application Information

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IPC IPC(8): G01C25/00G01S19/42
Inventor 钟丽娜刘建业李荣冰王融曾庆化谢非杭义军
Owner NANJING UNIV OF AERONAUTICS & ASTRONAUTICS
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