Transcript 2 - WMO

Typhoon Forecast
Operational System
(Component of MICAPS3.1 )
China Meteorological Administration
May 12, 2009
Outlines:
• 1. MICAPS3.1
•
1.1 MICAPS brief introduction
•
1.2 MICAPS Framework Features
•
1.3 Micaps Main Functions
Outlines:
• 2. Typhoon Forecast Operational System
•
•
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2.1
2.2
2.3
2.4
2.5
2.6
2.7
Motivation of the component
Data Sources
Real Track Display
History Searches
Forecast Error Statistics
Interactive Forecast Making
Strike Probability
1.1 MICAPS brief introduction
• Full name:
Meteorological Information
Comprehensive Analysis And Process System
• Platform: PC-Windows , Linux/Unix
• The standard graphics workbench of
Chinese forecasters used in almost all
local weather centers
1.2 MICAPS 3.1 Framework Features
• Open software architecture
• The functional Module is optional
• Special version for special usage
Main framework:
Interface
Interactive
system
View
Control
Graphic
layer control
Graphic
system
Cont
ours
Plots
….
Images
Geographic
display
Sat.
fax
….
TlgP
DataSet/database
Algorithms , labels ,
etc
Vector
tools
I/O System
File
Symbols
Projections
DB
LOG
1.3 Micaps3.1 Main Functions
• An interactive computer system that integrates
all meteorological, satellite, and radar data into
one computer workstation.
• Allows forecasters the interactive capability to
view, analyze, combine, and manipulate graphical
and alphanumeric weather data.
• Provides effective means for forecasters to
prepare and issue forecasts.
Main interface:
Title bar
Menu
Tool bar
TyphoonTool box
Layer window
Property window
Display area
Display set window
2. Typhoon Forecast Operational
System (TFOS):
Typhoon component
2.1 Motivation of the component
• The purpose of this component is to adequately
•
make use of the Micaps multiple functions and
provide typhoon-forecasters with a complete
operational work platform. It can get the real
and forecast data from other typhoon forecast
centers timely and display it in favorable and
convenient ways.
This system is developed in program language
C#.NET and use SQL database
2.2 Data Sources
• One of this component data source is the real-
•
time TC warning message files from other
typhoon forecast centers. The component can
update the typhoon track database by searching
the usable data from the message files timely.
The real track of TC displaying and the forecast
making are all based on the database.
The second data source is the history annual
track data complied by Shanghai Typhoon
Institute and it can be used to search analogical
history tracks.
2.3 Real Track Display
TFOS includes 5
main functions.
The first is real-time
track display.
The display is on
the base of real
track database,
where the series
number and CMA
number of every TC
is authorized.
When the strength
of one TC reaches
TS, CMA will give it
a CMA number. But
before then, how to
identify one TD?
TCs Identification:
• Within 0h~36h, if the distance between a new TC
record’s position and any former record’s position
less than the corresponding minimum distance, we
consider they are the same one TC and they share a
same series number. Otherwise, it’s a new TC and
gets a new series number.
Minimum Distance (km)
1000
800
600
400
200
Time difference (hour)
Among 1980～2007 years
12
0
10
8
96
84
72
60
48
36
24
12
0
0
Exceptional cases in 28 years:
8225、8226
9004、9005
Time difference:
18~36h
Minimum distance:
about 200km
In these exceptional cases, it needs us to mend it by handwork.
Series number in the real-time
track database:
Centers and Methods:
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BABJ: Beijing China Subjective
VHHH: Hongkong China Subjective
PGTW: America Subjective
RJTD: Japan Subjective
RKSL: Korea Subjective
TMBJ: Beijing Objective
JTYM: Japan Typhoon Model
JGSM: Japan Other Model
BCGZ: Guangzhou China Subjective
BCSH: Shanghai China Subjective
SHOS: Shanghai China Objective
EGRR: UK Objective
2.4 History Searches
The left part controls
the date and regions
of the wanted history
tracks.
The above scroll bars
set the start-end of
years. System uses the
track and strength
database compiled by
Shanghai Typhoon
Institute, spanning
from 1949 to present.
The middle two set the
TC’s birth date ranges,
so as to identify the
seasonal background.
A sample of history analogue searches. In the middle summer, most
part of the stronger TCs which go by the way of near the Luzon Island
and north of the Taiwan Island pushed forward NNE and affected the
Korea Peninsula, though their strength got rather weaker then.
2.5 Forecast Error Statistics
Select menu item
“Typhoon->FcstErr”
to display the
forecast errors of
different centers
and motheds,
compared to their
own observational
values.
Click the “Formstatistics” panel or
keep the checkbox
“AutoOpenRecord”
checked to get the
detail in numbers.
2.6 Interactive Forecast Making
System let you move the mouse to “find”
the wanted TC , appoint the current
position and select the forecast times.
Then use the mouse to modify (drag) the
positions of every forecast time.
At last, enter the TC forecast issue and
release window.
When every thing is ok, you can click the “ok” button to see the
encoded text files. “CreateFax” function creates a fax picture file
and “SendFax” sends it to CMA database for dissemination.
Probability (70%) Circles:
Probability (70%) Circles
can also be figured out.
When forecast making is
well done, you can get the
probability circles by
changing the value of the
item “PlotSetup” in the
property window to “True”
and the system will popup
a property-setting dialog
window. Confirm the
setting and the circles will
appear in the display area.
2.7 Strike Probability
Here shows a
example of a “strike
probability” method
in typhoon forecast.
The numbers in the
pictures are
percentages of
strike probability to
local site. The strike
radius is set to 120
km. Please see the
detail in relative
articles.
This is real time analyses. I wish this TFOS can help our typhoon forecasters to do more.
Thanks for attention!
Your comments and advices are
welcome!