Date post: | 27-Mar-2015 |
Category: |
Documents |
Upload: | ella-daley |
View: | 215 times |
Download: | 3 times |
NRSCC Agency ReportLiu Dingsheng
China Remote Sensing Satellite Ground StationNational Remote Sensing Center of China
WGISS-24
Oberpfaffenhofen/Munich, Germany October 15-19, 2007
NRSCC
MOST
2
NRSCC
MOST
National Remote Sensing Center of China WGISS-24 October 15-15, Oberpfaffenhofen/Munich, Germany
Agency report - NRSCC Topic
FY-2D launched and put into operation
HY-1B launched and put into testing operation
Cbers-02B Successfully Launched
China RSGS extend its facility
Future plan for earth observation satellites in China
3
NRSCC
MOST
National Remote Sensing Center of China WGISS-24 October 15-15, Oberpfaffenhofen/Munich, Germany
FY-2D launched and put into operation Geostationary orbit meteorological satellite Fengyun-2D(FY-
2D) successfully launched at 8:53 December 8th, 2006 FY-2D was started to put into operation from June 27th, 2007 Forming backup observing status based on FY-2C and 2D
double satellites
4
NRSCC
MOST
National Remote Sensing Center of China WGISS-24 October 15-15, Oberpfaffenhofen/Munich, Germany
FY-2D launched and put into operation FY-2D visible image
5
NRSCC
MOST
National Remote Sensing Center of China WGISS-24 October 15-15, Oberpfaffenhofen/Munich, Germany
HY-1B launched and put into operation China’s second ocean color satellite (HY-1B)
successfully launched at 11:27 April 11th, 2007 HY-1B was started to put into testing operation from
September 30th, 2007 Purpose: observation of ocean color and SST Payloads:
COCTS -- Chinese Ocean Color and Temperature Scanner CZI -- Coastal Zone Imager
6
NRSCC
MOST
National Remote Sensing Center of China WGISS-24 October 15-15, Oberpfaffenhofen/Munich, Germany
HY-1B launched and put into operation
7
NRSCC
MOST
National Remote Sensing Center of China WGISS-24 October 15-15, Oberpfaffenhofen/Munich, Germany
HY-1B launched and put into operation
Parameter COCTS CZI
Spatial resolution 1.1km 0.25km
Scan coverage 1400km/1664 500km/2048
Polarization sensitivity 5% 5%
Digitization 10bit/pixel 12bit/pixel
Data transmission rate 2.6616Mbps 2.6616Mbps
Radiometer accuracy 10% 10%
Major parameters of COCTS and CZI
8
NRSCC
MOST
National Remote Sensing Center of China WGISS-24 October 15-15, Oberpfaffenhofen/Munich, Germany
HY-1B launched and put into operation
Wave band(μm) Target
0.402~0.422 Yellow substance, water pollution
0.433~0.453 Absorption of chlorophyll
0.480~0.500Chlorophyll, sea water optics sea ice
Pollutants, shallow sea topography
0.510~0.530Chlorophyll, water depth,
Sediment of low concentration
0.555~0.575 Chlorophyll, Sediment of low concentration
0.660~0.680 Peak of fluorescence, Sediment of high concentration, pollution, atmospheric correction, aerosols
0.730~0.770 Sediment of high concentration, atmospheric correction
0.845~0.880 atmospheric correction, water vapor
10.3~11.4 SST, sea ice, temperature of cloud top
11.4~12.5 SST, sea ice, temperature of cloud top
COCTS bands and detection object
9
NRSCC
MOST
National Remote Sensing Center of China WGISS-24 October 15-15, Oberpfaffenhofen/Munich, Germany
HY-1B launched and put into operation
Wave band
(μm)Target
0.433~0.453 pollution, vegetation, ocean, color ice, shallow sea topography
0.555~0.575 Sediment, pollution, vegetation ice , coast zone
0.655~0.675 Sediment, soil ,water vapor
0.675~0.695 soil ,water vapor , atmospheric correction
CZI bands and detection object
10
NRSCC
MOST
National Remote Sensing Center of China WGISS-24 October 15-15, Oberpfaffenhofen/Munich, Germany
Cbers-02B Successfully Launched Cbers-02B successfully launched at 11:19
September 19, 2007Orbit: sun-synchronous
Orbit Altitude: 778 km
Inclination: 98.504º
Period:100.26 min.
11
NRSCC
MOST
National Remote Sensing Center of China WGISS-24 October 15-15, Oberpfaffenhofen/Munich, Germany
Cbers-02B Successful Launched
Payloads Bands Spectrum(μm)
Resolution(m)
Swatch(km)
Recycle(days)
Data Rate
(Mbps)
CCD Camera
B01 0.45~ 0.52 20
113 26 106
B02 0.52~ 0.59 20
B03 0.63~ 0.69 20
B04 0.77~ 0.89 20
B05 0.51~ 0.73 20
High-Resolution Pan. Camera B06 0.5~ 0.8 2.37 27 104 60
Wide Field
Imager B07 0.63~ 0.69 258 890 5 1.1
Payloads:
12
NRSCC
MOST
National Remote Sensing Center of China WGISS-24 October 15-15, Oberpfaffenhofen/Munich, Germany
Cbers-02B Successful Launched Image
from CCD Camera (Tianjin)
13
NRSCC
MOST
National Remote Sensing Center of China WGISS-24 October 15-15, Oberpfaffenhofen/Munich, Germany
Cbers-02B Successful Launched Image fro
m High-Resolution Pan. Camera (tianjin)
14
NRSCC
MOST
National Remote Sensing Center of China WGISS-24 October 15-15, Oberpfaffenhofen/Munich, Germany
Cbers-02B Successful Launched HR-CCD
merge image Tianjin
15
NRSCC
MOST
National Remote Sensing Center of China WGISS-24 October 15-15, Oberpfaffenhofen/Munich, Germany
RSGS extend its facility Beginning last year, China Remote Sensing Satellite Ground St
ation (RSGS) started to extend its receiving range to cover the whole Chinese territory Establish western receiving station – Kashi, Xinjiang Uygur Autonomou
s Region of China
Establish southern receiving station – Sanya, Hainan Province of China
Expand receiving antenna at Miyun station – Beijing of China
The goal is to receive more than 15 satellites simultaneously Continuously as national receiving station to responsible for receiving ci
vil remote sensing satellites worldwide
Responsible to receive national resources satellite data such as the series of China-Brazil Earth Resources Satellites (Cbers’s), the Chinese constellation of small satellites for environment and disaster monitoring and forecasting (HJ’s)
16
NRSCC
MOST
National Remote Sensing Center of China WGISS-24 October 15-15, Oberpfaffenhofen/Munich, Germany
RSGS extend its facility
Th
e receiving coverage
17
NRSCC
MOST
National Remote Sensing Center of China WGISS-24 October 15-15, Oberpfaffenhofen/Munich, Germany
RSGS extend its facility The design has been finished and approved by authorization
Kashi receiving station
Sanya receiving station
18
NRSCC
MOST
National Remote Sensing Center of China WGISS-24 October 15-15, Oberpfaffenhofen/Munich, Germany
RSGS extend its facility Kashi Station has almost established
First Antenna has been put into operation
19
NRSCC
MOST
National Remote Sensing Center of China WGISS-24 October 15-15, Oberpfaffenhofen/Munich, Germany
RSGS extend its facility Sanya Station will be started its base construction
20
NRSCC
MOST
National Remote Sensing Center of China WGISS-24 October 15-15, Oberpfaffenhofen/Munich, Germany
Future plan for earth observation satellites in China Series of meteorological satellites
2020 sun
-synch
ronou
sG
eostationar
y
FY-1
1988 90 2000 95 05 10 15
1A1B
FY-2
FY-3
FY-4
1D
2A 2B
2C
2D
2E
2F
2G
3D 3F
3A
3B
3C 3E 3G
3H
RM RMRM
4A
E1
W1
MS
1C
E2
W2
21
NRSCC
MOST
National Remote Sensing Center of China WGISS-24 October 15-15, Oberpfaffenhofen/Munich, Germany
Future plan for earth observation satellites in China Main Satellites of earth observation
90 2000 95 05 10 15 2020
Cbers’s
HJ’s
HY’s
1 2 3 4
1A 1B
2
1A
1B1C
1C3
Cbers’s – Earth Resources Satellites HY’s – Oceanic Satellites HJ’s – Environment and Disaster Monitoring Forecasting Constellation
22
NRSCC
MOST
National Remote Sensing Center of China WGISS-24 October 15-15, Oberpfaffenhofen/Munich, Germany
Agency report - NRSCC
Thanks!