Quantification method of radiation performance indexes of optical mapping camera

A radiation performance and quantitative method technology, applied in the field of aerospace optical surveying and mapping, to achieve the effect of fast convergence and strong global optimization ability

A radiation performance and quantitative method technology, applied in the field of aerospace optical surveying and mapping, to achieve the effect of fast convergence and strong global optimization ability

CN105677943AInactive Publication Date: 2016-06-15HARBIN INST OF TECH
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  • Quantification method of radiation performance indexes of optical mapping camera
  • Quantification method of radiation performance indexes of optical mapping camera
  • Quantification method of radiation performance indexes of optical mapping camera

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Embodiment Construction

[0032] The technical solutions of the present invention will be further described below in conjunction with the accompanying drawings, but are not limited thereto. Any modification or equivalent replacement of the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention shall be included in the present invention. within the scope of protection.

[0033] The Least Squares Image Matching Algorithm (LSIM) is a recognized, reliable, and high-precision matching algorithm in photogrammetry processing, and its accuracy can reach the sub-pixel level. On the premise of fixing LSIM, the present invention proposes and quantifies the radiation index of aerospace surveying and mapping cameras The scientific basis is not strong. The main factors affecting the matching accuracy are analyzed theoretically, and the variation of matching accuracy with each factor is studied, and the matching error model is establ...

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Abstract

The present invention discloses a quantification method of radiation performance indexes of an optical mapping camera. The quantification method comprises the following steps of (1) based on least square image matching, deriving and obtaining camera radiation performance indexes influencing mapping precision; (2) based on the step (1), analyzing the influence rule of each index on the mapping matching precision; (3) for the purpose of achieving decorrelation decoupling of the camera radiation indexes and scene information, proposing scene information characterization parameters; (4) based on the step (2) and step (3), constructing an association model between the camera radiation indexes and the mapping precision; and (5) combined with the model constructed in the step (4), proposing a camera radiation index quantification method. According to the method, the association model between the camera radiation indexes and the mapping precision is established, and the model can be used for providing theoretical direction and technical support for quantification and optimal design of mapping camera radiation performance indexes and performance prediction.

Description

technical field [0001] The invention belongs to the field of aerospace optical surveying and mapping, and relates to a method for quantifying the radiation performance index of a surveying and mapping camera, in particular to a method for quantifying the radiation performance index of a surveying and mapping camera based on least squares matching, which is suitable for guiding the reasonable quantification and optimal design of the surveying and mapping camera index . Background technique [0002] Aerospace surveying and mapping provides basic data for the acquisition and update of global geospatial information, and high-precision aerospace surveying and mapping can provide an important guarantee for the improvement of the effectiveness of precision strike weapons and equipment. Aerospace optical surveying and mapping is widely used in the field of aerospace surveying and mapping due to its high-resolution and high-precision characteristics. Its realization method is to shoo...

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Application Information

Patent Timeline
15 Jun 2016
Publication
CN105677943A
IPC
G06F17/50; G06N3/12; G06T7/00
CPC
G06F30/367; G06N3/12; G06T2207/10021
Inventors
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