IGARSS 2011

Modeling Daily Net Shortwave Radiation Over Rugged Surfaces

Using MODIS Atmospheric Products

IGARSS 2011 at Vancouver

28 July 2011

Zhang Hailong, Xin Xiaozhou, Liu Qinhuo

State Key Laboratory of Remote Sensing ScienceInstitute of Remote Sensing Applications

Chinese Academy of Sciences

IGARSS 2011

Outline

• Background

• Data and methodology

• Results and discussion

• Conclusion

IGARSS 2011

Background

• NSSR (Net Surface Shortwave Radiation ) controls the total energy exchange between the atmosphere and the land surface.

• NSSR is not measured in most regular meteorological sites.

• NSSR products (ISCCP/GEWEX/CERES) have fine temporal resolution but coarse spatial resolutions.

IGARSS 2011

Background

IGARSS 2011

Data and methodology

• Data for model input and validation

DATA Description

MOD09A1 Surface reflectance

MOD03/MYD03 Geolocation data set

MOD05/MYD05 Total precipitable water

MOD06/MYD06 Cloud optical thickness; cloud fraction

DEM

NSSR observations Model validation

IGARSS 2011

Data and methodology

• NSSR retrieval

• Global solar radiation

W)-(1 W- WN SSR

IGARSS 2011

Data and methodology

• Beam

• Diffuse

• Reflected

• Global downward solar radiation

)sin(hE T(clear) T(cloudy)I R0 dirI

)II (I nAR difI

)1/()( gg sdifdirsref III

wss

wsr

refdifdir IIIW )(

IGARSS 2011

Data and methodology

• 3D effects of cloud

IGARSS 2011

Data and methodology

• Viewing angle correction

O

P

Sensor

C

O’A

B

hViewing position True position

IGARSS 2011

Data and methodology

• Solar angle correction

O

Solar

C

O’A

B

h

shadow position

True position

IGARSS 2011

Results and discussion

• Model validation

(X-axis: observed values; Y-axis: modeled values. Unit: MJ/(m2·d) )

IGARSS 2011

Results and discussion

• Model validation

(X-axis: observed values; Y-axis: modeled values. Unit: MJ/(m2·d) )

IGARSS 2011

Results and discussion

• Model validation

Erjinaqi Beijing Kunming Lhasa

MBE(%) 4.53 4.21 -7.09 4.63

RMSE(%) 15.31 19.20 24.71 19.39

R2 0.93 0.87 0.78 0.71

Horizontal surface rugged surface

IGARSS 2011

Results and discussion

• Error analysis spatial resolution gaps between the observed and retriev

ed data.

coarse spatio-temporal resolution of the MODIS atmospheric products

Errors from the data sources: The maximum uncertainty of the MODIS cloud-detection algorithm is 200% (Houborg, 2007)

IGARSS 2011

Conclusion

• Terrain is a main factor of NSSR attenuation under clear sky

• Cloud plays a greater role than terrain under cloudy sky

• moderately maps of NSSR on rugged surface can be produced using MODIS data

• The geostationary satellites holds great promise for accurate estimation of NSSR

IGARSS 2011