1 snow cover mapping using multi-temporal meteosat-8 data martijn de ruyter de wildt jean-marie...
TRANSCRIPT
![Page 1: 1 Snow cover mapping using multi-temporal Meteosat-8 data Martijn de Ruyter de Wildt Jean-Marie Bettems* Gabriela Seiz** Armin Grün Institute of Geodesy](https://reader035.vdocuments.mx/reader035/viewer/2022070403/56649f2b5503460f94c467ed/html5/thumbnails/1.jpg)
1
Snow cover mapping usingmulti-temporal Meteosat-8 data
Martijn de Ruyter de WildtJean-Marie Bettems*
Gabriela Seiz**Armin Grün
Institute of Geodesy and Photogrammetry, ETH Zürich, Switzerland
* MeteoSwiss, Zürich, Switzerland
** now at: ESA-ESRIN, Directorate of Earth Observation, Rome, Italy
A fellowship, in cooperation with
![Page 2: 1 Snow cover mapping using multi-temporal Meteosat-8 data Martijn de Ruyter de Wildt Jean-Marie Bettems* Gabriela Seiz** Armin Grün Institute of Geodesy](https://reader035.vdocuments.mx/reader035/viewer/2022070403/56649f2b5503460f94c467ed/html5/thumbnails/2.jpg)
2
Introduction
Objective: to obtain accurate snow cover maps for the numerical weather
prediction model of MeteoSwiss (aLpine Model, aLMo).
Main problem: discrimination between ice clouds and snow.
• Use high temporal frequency of MSG (15 minutes) in addition to spectral
capabilities (12 channels) to improve separation of clouds and snow
• in real-time, fully automatic
• usable over alpine terrain
![Page 3: 1 Snow cover mapping using multi-temporal Meteosat-8 data Martijn de Ruyter de Wildt Jean-Marie Bettems* Gabriela Seiz** Armin Grün Institute of Geodesy](https://reader035.vdocuments.mx/reader035/viewer/2022070403/56649f2b5503460f94c467ed/html5/thumbnails/3.jpg)
3
Data
Areas of interest:model domains of aLMo (western and central Europe). Resolution: 7 and 2.2 km.
Training and validation periods: 8 - 10 March, 2004 23 - 24 February, 2005(only day-time images)
8+1 spectral bands used: 1 VIS 0.635 m 2 VIS 0.81 m 3 NIR 1.64 m 4 IR 3.92 m 7 IR 8.70 m 9 IR 10.80 m 10 IR 12.00 m 11 IR 13.40 m 12 HR-VIS 0.70 m
![Page 4: 1 Snow cover mapping using multi-temporal Meteosat-8 data Martijn de Ruyter de Wildt Jean-Marie Bettems* Gabriela Seiz** Armin Grün Institute of Geodesy](https://reader035.vdocuments.mx/reader035/viewer/2022070403/56649f2b5503460f94c467ed/html5/thumbnails/4.jpg)
4
r1.6
BT3.9 - BT10.8BT10.8
Spectral image classification: “traditional” features (10-3-2004, 12:12 UTC)
r0.81
snow
ice cloud
snow
snowsnow
ice cloud
ice cloud
ice cloud
![Page 5: 1 Snow cover mapping using multi-temporal Meteosat-8 data Martijn de Ruyter de Wildt Jean-Marie Bettems* Gabriela Seiz** Armin Grün Institute of Geodesy](https://reader035.vdocuments.mx/reader035/viewer/2022070403/56649f2b5503460f94c467ed/html5/thumbnails/5.jpg)
5
BT3.9 - BT10.8
BT3.9 - BT13.4
Improved spectral classification II
BT3.9 - BT10.8: snow is as dark as or darker than ice clouds;
BT3.9 - BT13.4: snow is as dark as or brighter than ice clouds;
=> the following feature should enhance the contrast between snow and ice clouds:
13.43.9
10.83.9
BTBT
BTBT
−−
(BT3.9 - BT10.8) / (BT3.9 - BT13.4 )
snow
ice cloud
snow
ice cloud
snow
ice cloud
![Page 6: 1 Snow cover mapping using multi-temporal Meteosat-8 data Martijn de Ruyter de Wildt Jean-Marie Bettems* Gabriela Seiz** Armin Grün Institute of Geodesy](https://reader035.vdocuments.mx/reader035/viewer/2022070403/56649f2b5503460f94c467ed/html5/thumbnails/6.jpg)
6
Spectral classification
classification result:
white : snowdark gray : cloudslight gray : snow-free landblack : sea
UTC:200403101212
clouds
snow
![Page 7: 1 Snow cover mapping using multi-temporal Meteosat-8 data Martijn de Ruyter de Wildt Jean-Marie Bettems* Gabriela Seiz** Armin Grün Institute of Geodesy](https://reader035.vdocuments.mx/reader035/viewer/2022070403/56649f2b5503460f94c467ed/html5/thumbnails/7.jpg)
7
Temporal classification
Temporaltest
snow
![Page 8: 1 Snow cover mapping using multi-temporal Meteosat-8 data Martijn de Ruyter de Wildt Jean-Marie Bettems* Gabriela Seiz** Armin Grün Institute of Geodesy](https://reader035.vdocuments.mx/reader035/viewer/2022070403/56649f2b5503460f94c467ed/html5/thumbnails/8.jpg)
8
∑ ∑−= −=
σ=1
1i
1
1jj,i,mm wd
Temporal classification
Temporal variability can be quantified for each channel m with:
where ( )∑−=
−=2
2
2
,4
1
tmtmm IIσ
more ice more water more ice more water
![Page 9: 1 Snow cover mapping using multi-temporal Meteosat-8 data Martijn de Ruyter de Wildt Jean-Marie Bettems* Gabriela Seiz** Armin Grün Institute of Geodesy](https://reader035.vdocuments.mx/reader035/viewer/2022070403/56649f2b5503460f94c467ed/html5/thumbnails/9.jpg)
9
Temporal classification
The temporal standard deviations of the 9 used channels form a 9-dimensional parameter space,
where some of the parameters are correlated with each-other.
Reduce data redundancy: principal components analysis (PCI); when applied to the difference
between two images, the change information is concentrated into fewer dimensions (Gong, 1993).
Here:
- standardised PCI (applicable to data with variables at different scales)
- applied to the 9 temporal standard deviations
Normalised eigenvalues of the 9 new components, averaged over all training data:
1 0.5872 0.2883 0.0794 0.0245 0.0136 0.0067 0.0028 0.0019 0.000
Change information
noise
![Page 10: 1 Snow cover mapping using multi-temporal Meteosat-8 data Martijn de Ruyter de Wildt Jean-Marie Bettems* Gabriela Seiz** Armin Grün Institute of Geodesy](https://reader035.vdocuments.mx/reader035/viewer/2022070403/56649f2b5503460f94c467ed/html5/thumbnails/10.jpg)
10
First principal component of thetemporal standard deviation(10-3-2004, 12:12 UTC):
Second and third componentsare also useful for detectingclouds.
more ice more water
clouds
snow
![Page 11: 1 Snow cover mapping using multi-temporal Meteosat-8 data Martijn de Ruyter de Wildt Jean-Marie Bettems* Gabriela Seiz** Armin Grün Institute of Geodesy](https://reader035.vdocuments.mx/reader035/viewer/2022070403/56649f2b5503460f94c467ed/html5/thumbnails/11.jpg)
11
white : snowdark gray : cloudslight gray : snow-free landblack : sea
UTC:200403101212
UTC:200403101212
temporal
spectral
temporal cloudmask is ‘liberal’, only used to check snowy pixels for misclassifications:
spectral/temporal
Spectral and temporal classification
UTC:200403101212
UTC:200403101212
![Page 12: 1 Snow cover mapping using multi-temporal Meteosat-8 data Martijn de Ruyter de Wildt Jean-Marie Bettems* Gabriela Seiz** Armin Grün Institute of Geodesy](https://reader035.vdocuments.mx/reader035/viewer/2022070403/56649f2b5503460f94c467ed/html5/thumbnails/12.jpg)
12
Composite snow map, March 10th, 2004, 07:00 - 12:00 UTC
March 10th, 2004, 12:12 UTC
white: snow dark gray: clouds light gray: snow-free land black:sea
spectral/temporal
UTC:200403101212
Composite snow map, March 8th - March 10th
spectral/temporal
spectral/temporal
Composite snow maps
![Page 13: 1 Snow cover mapping using multi-temporal Meteosat-8 data Martijn de Ruyter de Wildt Jean-Marie Bettems* Gabriela Seiz** Armin Grün Institute of Geodesy](https://reader035.vdocuments.mx/reader035/viewer/2022070403/56649f2b5503460f94c467ed/html5/thumbnails/13.jpg)
13
Composite snow maps: spectral vs. spectral/temporal
March 10th, 2004, 07:00 - 12:00 UTC
white: snow dark gray: clouds light gray: snow-free land black:sea
spectral spectral/temporal
![Page 14: 1 Snow cover mapping using multi-temporal Meteosat-8 data Martijn de Ruyter de Wildt Jean-Marie Bettems* Gabriela Seiz** Armin Grün Institute of Geodesy](https://reader035.vdocuments.mx/reader035/viewer/2022070403/56649f2b5503460f94c467ed/html5/thumbnails/14.jpg)
14
High resolution visible (hrv) channel
RGB image, red= rhrv, green= r1.6 (low res.), blue= (low res.)
red pixels: surface snow OR ice clouds 13.43.9
10.83.9
BTBT
BTBT
−−
![Page 15: 1 Snow cover mapping using multi-temporal Meteosat-8 data Martijn de Ruyter de Wildt Jean-Marie Bettems* Gabriela Seiz** Armin Grün Institute of Geodesy](https://reader035.vdocuments.mx/reader035/viewer/2022070403/56649f2b5503460f94c467ed/html5/thumbnails/15.jpg)
15
Classification of hrv channel
Use low resolution cloud mask and temporal variability in hrv channel to detect clouds.
Composite snow map, March 10th, 2004, 07:00 - 12:00 UTC
![Page 16: 1 Snow cover mapping using multi-temporal Meteosat-8 data Martijn de Ruyter de Wildt Jean-Marie Bettems* Gabriela Seiz** Armin Grün Institute of Geodesy](https://reader035.vdocuments.mx/reader035/viewer/2022070403/56649f2b5503460f94c467ed/html5/thumbnails/16.jpg)
16
Conclusions:
• new spectral feature detects more clouds than
BT3.9 - BT10.8 alone and is less influenced by the solar zenith angle
• spectral classification separates snow and clouds reasonably well,
but: some clouds have the same spectral signature as snow
• using temporal information, most of these clouds can be detected
• temporal classification classifies snow in a conservative way
(somewhat too little snow detected, but with high certainty)
• high frequency strongly reduces cloud obscurance
• snow mapping also possible in hrv channel
• start of implementation at MeteoSwiss this winter
13.43.9
10.83.9
BTBT
BTBT
−−