ON-ORBIT SPATIAL RESOLUTION ESTIMATION OF CBERS-1 CCD IMAGING 
SYSTEM FROM BRIDGE IMAGES 
K. Bensebaa, G. J. F. Banon, L. M. G. Fonseca 
Image Processing Division - National Institute for Space Research (INPE) 
Av. dos Astronautas, 1758, 12201-027 Sào José dos Campos, Brazil 
(camel, banon, Leila) (dpi.inpe.br 
Commission WG I/2 
KEY WORDS: CCD Camera, Spatial Resolution, Estimation, Modelling, Simulation, Measurements, Targets. 
ABSTRACT: 
The first China-Brazil Earth Resources Satellite (CBERS) was launched in 1999 and recently was substituted by CBERS-2. CBERS- 
| and CBERS-2 have the same specifications and carry three sensors which combine features that are specially designed to cover the 
broad range of space and time scales involved in the monitoring and preservation of the ecosystem: Wide Field Imager (WFI), High 
Resolution CCD Camera (CCD) and Infrared Multispectral Scanner (IRMSS). In general, the imaging systems cause a blurring due 
to the cumulative effects of the instrumental optics (diffraction, aberrations, focusing error) and image motion induced by the 
movement of the satellite during imaging. This blurring can be understood by describing the imaging system in terms of the Point 
Spread Function (PSF). For a satellite sensor, the knowledge of the point spread function is of fundamental importance since it 
enables an objective assessment of spatial resolution through the parameter known as EIFOV (Effective Instantaneous Field of 
View). This paper describes an original approach to estimate the spatial resolution of the CBERS-1 CCD camera. The imaging 
system point spread function is modeled as a separable gaussian function. The PSF is estimated using images of Rio-Niteroi Bridge 
in Rio de Janeiro (Brazil) and the Lake Pontchartrain Causeway in Louisiana (United States). The results showed that the spatial 
resolution in across-track direction is outside the specifications for all bands while the spatial resolution in along-track direction is 
within the specification for all bands, except the band 4. 
1. INTRODUCTION 
The CBERS (China-Brazil Earth Resources Satellite) 
cooperative program has been jointly developed by China and 
Brazil for the building up a set of remote sensing satellites. 
CBERS-1 and CBERS-2 satellites were launched on October 
14, 1999 and October 21, 2003, respectively. CBERS-1 carries 
onboard sensors, which combine features that are specially 
designed to cover the broad range of space and time scales 
involved in the monitoring and preservation of the ecosystem. 
During image acquisition, the imaging systems cause a blurring 
due to the cumulative effects of the instrumental optics 
(diffraction, aberrations, focusing error) and image motion 
induced by the movement of the satellite (Leger et al. 2002). 
This blurring effect can be modelled by the Point Spread 
Function (PSF) or by the Modulation Transfer Function (MTF) 
in the frequency domain. 
The PSF and the MTF are of great importance in determining 
the spatial resolution of a system that is usually defined as its 
half-power response width (Bretschneider 2002). In general, the 
spatial response is estimated from the PSF in terms of the 
parameter known as EIFOV (Effective Instantaneous Field of 
View) (Slater, 1980). When the PSF is approximated by a 
gaussian function with standard deviation o, the EIFOV is 
calculated as 2.666 (Banon and Santos, 1993). Storey (2001) 
has provided a methodology to measure the Landsat-TM on- 
orbit spatial response using ground target such as bridges. Choi 
and Helder (2001) have used as targets airport runway and a 
tarp placed on the ground for on-orbit MTF measurement of 
IKONOS satellite sensor. 
Before launching, band 4 (0,77 - 0,89 um) of the CBERS-1 
CCD camera presented a myopia distortion due to a problem in 
the camera assembly. At this time, some image simulation tests 
were performed in order to check the possibility to improve its 
resolution spatial through restoration technique (Banon and 
Fonseca, 1998). 
This paper describes an approach for the CBERS-1 CCD 
camera in-flight spatial resolution assessment. The CCD spatial 
response is modeled as a separable gaussian function in along- 
track and across-track directions of the satellite. On-orbit 
images of the Rio-Niteroi Bridge in Rio de Janeiro (Brazil) and 
the Lake Pontchartrain Causeway in Louisiana (United States) 
were used to estimate the spatial resolution in the along-track 
and across-track directions, respectively. 
2. CBERS-1 OVERVIEW 
CBERS-1 satellite carries on-board a multisensor payload with 
different spatial resolutions called: WFI (Wide Field Imager), 
IRMSS (Infrared MSS) and CCD (Charge Coupled Device) 
camera. The high-resolution CCD Camera has 4 spectral bands 
from visible light to near infrared and one panchromatic band 
(Table. 1). It acquires the earth ground scenes by pushbroom 
scanning, on 778 km sun-synchronous orbit and provides 
images of 113 km wide strips with sampling rate of 20 meters at 
nadir. 
  
  
  
  
  
  
Spectral Bands | Number | Wavelength 
Blue BI 0,45 - 0,52 
Green B2 0,52 - 0,59 
Red B3 0,63 - 0,69 
Near-Infrared B4 0,77 - 0,89 
Pan. B5 0,51 - 0,73 
  
  
  
  
  
Table 1. Spectral bands of the CCD sensor. 
   
   
     
  
    
   
   
  
   
  
  
  
  
  
   
  
  
  
  
  
  
  
  
  
  
  
  
  
   
  
   
  
   
    
   
   
  
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