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Mr. Terry Jameson

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UAS Data Collection for High-resolution MET Modeling Ingest Mr. Terry Jameson Battlefield Environment Division Army Research Laboratory, WSMR COMM 575-678-3924 – PowerPoint PPT presentation

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Title: Mr. Terry Jameson

1
UAS Data Collection for High-resolution MET
Modeling Ingest
Mr. Terry Jameson Battlefield Environment
Division Army Research Laboratory, WSMR COMM
575-678-3924 terry.c.jameson.civ_at_mail.mil
2
Weather Prediction Models

Numerical Weather Prediction (NWP) Models
Predictions of basic Met parameters (winds,
temperature, pressure, humidity)
Predictions of derived parameters (turbulence,
visibility, cloud layers, etc.)
Predictions at 3-D grid points ( 30 mi. down
to 8 mi. horizontal spacing)
Predictions out several hours - up to many days
Research-grade models (one-hour predictions
0.6 mi. grid spacing)

Models require Met data observations input for
initialization
Surface weather stations (manned and automated)
little help for upper
atmosphere
Doppler weather radar (intensity and motion
within storms) good info but
only when storms are present
Satellite observations of winds and temps (very
coarse vertical resolution)
Vertically-pointing wind profiling radars few
locations even in U.S.
Weather balloons (winds, pressure, temperature,
humidity)
70 stations in Lower 48, 700 world-wide
Twice-daily balloon launches
Mainstay of NWP model input since its
inception in late 50s-early 60s

3
But theres a Problem

In the U.S. all of the above are available,
but..
Problem is All of the above leave many gaps
(time/space),
especially for high-resolution models
Problem is In/near the battlefield, only a
very few weather
balloon and surface observation stations exist
Problem is Those few stations can be sporadic
in their
observations
Bottom line
WE NEED MORE INPUT MET DATA!

4
In-situ Obs from UAVs
Data collected from UAVs - What are we up against?

Certainly many UAVs have a temperature
sensor/readout, plus GPS winds

BUT

Are the data just displayed to the operator?
cant use in modeling

Are the data recorded at the ground station?
probably not

Are the data recorded on-board somehow?
probably not

Are those data date/time/location-stamped?

What about pressure and humidity? need those
parameters as well

How to QC the data? bad data or wrong
time/place poor performance.

How to format the data? models are very picky!

5
TAMDAR-What is it?

TAMDAR (Tropospheric Airborne Met DAta
Reporting)
Small meteorological (Met) data
sensing/transmitting instrument
AirDat, LLC
Installed on 150 regional commuter airliners
Collects Met data for ingest into Numerical
Weather Prediction (NWP) Models
TAMDAR-U (TAMDAR-UAV)
TAMDAR downsized for installation on UAVs
Stringent restrictions on Size, Weight, and
Power (SWaP) requirements

6
AirDats Commercial TAMDAR System
Know the Weather
Information used with permission from AirDat, LLC
7
The Team

NMSU PSL/Technical Analysis Applications Center
(TAAC)
The Aerostar-B UAV
Established COA in southern NM
Substantial experience in conducting
instrumentation flight tests

AirDat, LLC
The TAMDAR
Instrumentation facilities (Lakewood, CO)
Data ground station and NWP modeling facilities
(Florida)
Substantial experience in instrumenting
commercial airline fleets
Substantial experience in ingesting TAMDAR data
into models

ARL
Long-term history of DOD weather research and
support
High-resolution, battlefield-scale NWP model
development
Substantial experience in assessing model
performance

8
TAMDAR-U Sensor (Prototype)
Mounted on Modified Aerostar Nose Cone
Prototype TAMDAR-U
CFD Analysis

Measures and Reports
-Ice presence -Relative Humidity
-Median and peak turbulence -Indicated and True
Airspeed
-Static pressure and pressure altitude -Winds
Aloft (Speed and Dir)
-Air temperature (Mach corrected) -GPS Position
and Time
-Additional sensing possible (CBRN) -Encryption
Possible

Know the Weather
Information used with permission from AirDat, LLC
9
TAMDAR-U Sensor (Prototype) - SWaP
LRU Dimensions (Volume) Weight Max Power (Estimated)
Probe (External) 2.6x2.5x0.7 3.6 Pitot 2.2 oz (62 g) N/A
Data Acquisition, Processing, and Communications (Internal) 40 in3 12.2 oz (346 g) 8.4W
TOTALS 40 in3 Internal (reductions possible) 14.4 oz (408 g) (reductions possible) 8.4W (reductions possible)
Know the Weather
Information used with permission from AirDat, LLC
10
The Aerostar UAS
11
The Airspace Model Domain
32o 46.00 N 106o 30.00 W
32o 46.00 N 107o 50.00 W
31o 40.00 N 106o 30.00 W
31o 40.00 N 107o 50.00 W
12
Experimental Approach

Collect TAMDAR-U data within model domain for
three-hour flight
Reformat and archive data for later analyses
Run model in data-ingest mode for 3-hrs,
simulating ingest during flight
Continue model run after data ingest cutoff
generate 6 hr forecast
Compare output charts with/without TAMDAR-U
ingest
Compare against any available observations

13
(No Transcript)
14
Example Test Card
32o 46.00 N 107o 50.00 W
32o 40.00 N 107o 34.00 W Point B
32o 46.00 N 106o 30.00 W
After T/O Normal climb to 10,000 MSL Course
305o True At 10,000 MSL, normal descent to
7,000 MSL At Point B, standard rate turn to
125o True Return to Point A (LRU) At 65 kt IAS
(approx. 75 kt TAS), the R/T to Pt. B will take
approximately 1.15 hr.
305O / 40 nm
125O / 40 nm
LRU A/P 32o 17.21 N 106o 55.19 W Point A
31o 40.00 N 106o 30.00 W
31o 40.00 N 107o 50.00 W
SOUTHERN BORDER ADIZ
15
Example Results
16
What did we find?