The empirical selection criterion of gravity matching area was given by using local gravity standard deviation and local gravity correlation coefficient as quantity indexes for selecting gravity-matching area.

In order to improve the locating precision and matching rate of the gravity aided inertial navigation system(INS) in regions with significant gravity anomaly characteristic,the pattern recognition neural network was used to investigate the problem of gravity matching.

The forward-looking image matching and localization is one of challenging problems.

Based on the mode coupling theory,the optimal analysis of TM 01-TE 11overmoded circular waveguide mode converter geometric configuration with the different phase rematch and structure is given.

Adopting different phase rematch techniques, the optimal geometry parameter is obtained.

Adopting structure of the waveguide axis curved and radius tapered with different phase rematch technique, the reliable optimal geometry parameter can be obtained.

Based on the principle and performance of integrated INS/Gravity-map matching navigation system, a gravity-map matching method based on RANSAC was presented to restrain the error increase of INS, which is very robust even if there are outliers in the gravity data.