CN104121884B - Satellite image pixel view zenith angle and azimuthal computational methods - Google Patents

Abstract

It is a kind of that pixel observation zenith angle and azimuthal method are calculated according to satellite image geometry imaging model：The imaging model for only needing to know satellite image (can be rigorous geometry model, can also be the general three-dimensional imaging model of rational function model etc), view zenith angle and the azimuth of each pixel in image can just be calculated, when the geometric transformations such as geometric correction, re-projection are carried out to image, the observation angle of each pixel can together be entered line translation, therefore the observation angle information of image will not be caused to lose because of geometric transformation.

Description

Satellite image pixel view zenith angle and azimuthal computational methods

Technical field

The present invention relates to satellite-remote-sensing image view zenith angle and azimuthal calculating, can apply in agricultural, forestry, gas As remote sensing departments such as, ecological environment and national defense and military.

Background technology

Observation angle (zenith angle and azimuth) information has important effect for the treatment and application of remotely-sensed data.It is first First, the difference of moonscope angle can cause the difference of air path in radiation transmission, therefore observation angle is typically remote sensing shadow As |input paramete critically important in atmospheric correction treatment.Secondly, under the conditions of given incidence, the reflection received by sensor Radiation intensity is also influenceed by observation angle, therefore generally utilizes bidirectional reflectance distribution function (Bidirectional Reflectance Distribution Function, BRDF) describe how light is reflected in body surface.Additionally, When with hypsography, observation angle can also produce large effect to the geometrical property of image.

For the less satellite image of the angle of visual field, the change of observation angle is smaller in a scape image capturing range, metadata provider Generally a view zenith angle and azimuth (such as Landsat-5) are provided to a scape image.The image larger for the angle of visual field, then Need to provide more observation angles (such as MODIS, HJ-1A/B) for different regions.In fact, if necessary to accurate land productivity With the observation angle information of satellite, even for the less satellite image of Landsat-5 etc angles of visual field, a scape gives one group of sight Measuring angle is also inadequate, especially in high-latitude area.(such as GF-1 wide cuts shadow in addition, many larger remote sensing images of the angle of visual field Picture) one group of observation angle only also is given to a scape image, it is thus more inaccurate.

In view of important effect of observation angle (the zenith angle and azimuth) information for treatment and the application of remotely-sensed data, And observation angle information that existing satellite image product is provided is generally imperfect, therefore research satellite image each pixel is seen The computational methods of measuring angle have important practical value.

The content of the invention

It is an object of the invention to solve the deficiencies in the prior art, it is proposed that one kind is according to satellite image geometry imaging model Calculate pixel observation zenith angle and azimuthal method.Only need to know the imaging model of satellite image, it is possible to calculate shadow The view zenith angle of each pixel and azimuth as in, when the geometric transformations such as geometric correction, re-projection are carried out to image, can The observation angle of each pixel is entered into line translation together, therefore the observation angle information of image will not be caused to lose because of geometric transformation Lose.

Technical scheme is as follows：

A kind of pixel observation zenith angle and azimuth calculation method based on satellite image geometry imaging model, methods described Middle geometry imaging model can be the rigorous geometry model, or general three-dimensional imaging model described with ephemeris parameter (such as rational function model)；Comprise the following steps,

Step 1, recovers observation sight line：For any point p on image (pixel coordinate be (x, y)), take two it is different Height value h₁And h₂(h₁＜ h₂), obtain the corresponding two spaces point P of p points using the imaging model of satellite image₁(φ₁, λ₁, h₁) And P₂(φ₂, λ₂, h₂), recover the observation sight line of image plane point p

Step 2, calculating observation zenith angle：Connection the earth's core O and P₁Point, calculates OP₁With P₂P₁Angle, as image plane point p View zenith angle θ_zenith；

Step 3, calculating observation azimuth initial value：Calculate P₂P₁With P excessively₁The angle of the meridian plane of point, as image plane point p The initial value θ of observed azimuth_azimuth；

Step 4, north-south amendment is carried out to observed azimuth：If φ₂＜ φ₁, then θ is taken_azimuth=180 ° of-θ_azimuth； Otherwise, step 5 is gone to；

Step 5, East and West direction amendment is carried out to observed azimuth：If λ₂＜ λ₁, then θ is taken_azimuth=-θ_azimuth；Otherwise, Terminate to calculate.

Brief description of the drawings

Fig. 1 is the flow chart of the embodiment of the present invention one；

Fig. 2 is moonscope zenith angle schematic diagram；

Fig. 3 is OP '₁P₂Place great circle floor map；

Fig. 4 is satellite observation direction angle schematic diagram；

Fig. 5 is plane O ' IP₂Schematic diagram；

Fig. 6 is meridian plane OIP '₁Schematic diagram.

Specific embodiment

The present invention proposes a kind of according to satellite image geometry imaging model calculating pixel observation zenith angle and azimuthal Method.Technical solution of the present invention is described in detail below in conjunction with one embodiment and accompanying drawing 1~6.

Example is provided and calculates pixel observation zenith angle and azimuthal method according to satellite image geometry imaging model, referring to Accompanying drawing 1：

Step 1, recovers observation sight line：For any point p on image (pixel coordinate be (x, y)), take two it is different Height value h₁And h₂(h₁＜ h₂), obtain the corresponding two spaces point P of p points using the positive calculation model of satellite image₁(φ₁, λ₁, h₁) And P₂(φ₂, λ₂, h₂), recover the observation sight line of image plane point pReference can be made to accompanying drawing 2；

The imaging model of satellite image is used for describing pixel coordinate (ranks number) and geodesic latitude and longitude coordinates (longitude, latitude And elevation) between mapping relations, generally represented from pixel coordinate and given elevation to geodesic latitude and longitude coordinates with positive calculation model Mapping, such as shown in (1),

(φ, λ)=F (x, y, h) (1)

X represents the row coordinate of image plane point in formula (1), and y represents the row coordinate of image plane point, and φ represents latitude, and λ represents warp Degree, h represents elevation, and F () represents positive and calculates model.

Imaging model is not limited to certain specific model, both can be the rigorous geometry model described with ephemeris parameter, It can be general three-dimensional imaging model (such as rational function model).

Here h₁Can value be 0 meter, h₂Can be taken as 1000 meters.

Step 2, calculating observation zenith angle：Connection the earth's core O and P₁Point, calculates OP₁With P₂P₁Angle, as image plane point p View zenith angle θ_zenith；

Extension OP1 hand over P2 points where elevation face in P ' 1, then θ zenith=∠ P2P1P ' 1, the latitude and longitude coordinates that 1 point of P ' are P ' 1 (φ 1, λ 1, h2), for the sake of directly perceived, fall into a trap in the big disk where OP ' 1P2 calculate ∠ P2P1P ' below, referring to accompanying drawing 3.Cross P2 points Make the vertical OP ' 1 of P2M in M, make ∠ P2OP ' 1=γ.By " Haversine formula " [H.B.Goodwin, The Haversine in nautical astronomy, Naval Institute Proceedings, vol.36, no.3 (1910), pp.735-746：Evidently if a Table of Haversines is employed we shall be saved in the first instance the trouble of dividing the sum of the logarithms By two, and in the second place of multiplying the angle taken from the tables by the same number.This is the special advantage of the form of table first Introduced by Professor Inman, of the Portsmouth Royal Navy College, nearly a Century ago.] γ can be calculated obtain

If earth radius is R ≈ 6.4 × 10⁶Rice, then OP₁=R+h₁, OP₂=R+h₂, then

Therefore can obtain view zenith angle is：

Step 3, calculating observation azimuth initial value：Calculate P₂P₁With P excessively₁The angle of the meridian plane of point, as image plane point p The initial value θ of observed azimuth_azimuth；

If I points are P₂Parallel and P excessively where putting₁The intersection point of the meridian plane of point, crosses P₂Make plane OIP₁Vertical line (intersection point It is designated as M), then ∠ P₂P₁M is the observed azimuth (or supplementary angle) of satellite, referring to accompanying drawing 4.From solid geometry knowledge, vertical line P₂M must be in P₂In weft plane where point, and P₂M ⊥ O ' I, wherein O ' are P₂Weft plane where point and earth's axis Intersection point.Then

P is calculated separately below₂M and P₁M。

For the sake of directly perceived, first in plane O ' IP₂Middle calculating P₂The length of M, referring to accompanying drawing 5.

The radius of circle O ' is by P₂The latitude and elevation of point determine there are O ' P₂=O ' I=(R+h₂)cosφ₂, and ∠ P₂O ' I are P₂Point and P₁The difference of longitude of point, i.e. ∠ P₂O ' I=| λ₂-λ₁|, can then obtain

O ' M=(R+h₂)cosφ₂cos|λ₂-λ₁|---(5)

P₂M=(R+h₂)cosφ₂sin|λ₂-λ₁|

Identical with step 2, R represents the radius of the earth here.

Then in meridian plane OIP '₁Middle calculating P₁The length of M, referring to accompanying drawing 6：

In accompanying drawing 6, OE is the intersection of meridian plane and equatorial plane.Cross P₁Point makees vertical line and meets at A with OE and O ' I respectively to OE And B, then

Wherein, P₁B=AP₁- AB=AP₁- OO '=(R+h₁)sinφ₁-(R+h₂)sinφ₂,

BM=O ' M-O ' B=O ' M-OA=(R+h₂)cosφ₂cos(λ₂-λ₁)-(R+h₁)cosφ₁。

P can be utilized below₂M and P₁The azimuthal initial value of M calculating observations：

Due to R ＞ ＞ h₁And R ＞ ＞ h₂, it is believed thatThen (7) formula can be reduced to：

Step 4, north-south amendment is carried out to observed azimuth：If φ₂＜ φ₁, then θ is taken_azimuth=180 ° of-θ_azimuth； Otherwise, step 5 is gone to；

Step 5, East and West direction amendment is carried out to observed azimuth：If λ₂＜ λ₁, then θ is taken_azimuth=-θ_azimuth；Otherwise, Terminate to calculate.

Claims (1)

1. a kind of pixel observation zenith angle and azimuth calculation method based on satellite image geometry imaging model, in methods described Geometry imaging model includes the rigorous geometry model and general three-dimensional imaging model that are described with ephemeris parameter；It is characterized in that：Bag Include following steps,

Step 1, recovers observation sight line：For any one pixel p (x, y) on image, two different height value h are taken₁=0 He h₂, and cause h₁＜ h₂, the corresponding two spaces point P of p points is obtained using the imaging model of satellite image₁(φ₁, λ₁, h₁) and P₂ (φ₂, λ₂, h₂), recover the observation sight line of image plane point p

Step 2, calculating observation zenith angle：Connection the earth's core O and P₁Point, calculates OP₁With P₂P₁Angle, the as sight of image plane point p Observation vertex angle theta_zenith；

Step 3, calculating observation azimuth initial value：Calculate P₂P₁With P excessively₁The angle of the meridian plane of point, as image plane point p observations Azimuthal initial value θ_azimuth；

Step 4, north-south amendment is carried out to observed azimuth：If φ₂＜ φ₁, then θ is taken_azimuth=180 ° of-θ_azimuth；Otherwise, Go to step 5；

Step 5, East and West direction amendment is carried out to observed azimuth：If λ₂＜ λ₁, then θ is taken_azimuth=-θ_azimuth；Otherwise, meter is terminated Calculate.