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![Page 1: Radio Acoustic Sounding Techniques for Temperature Profiling Mrs Jyoti Chande Head Atmospheric Remote Sensing Division SAMEER, IIT Campus, Powai, Mumbai.](https://reader036.fdocuments.us/reader036/viewer/2022062305/56649cce5503460f94999f81/html5/thumbnails/1.jpg)
Radio Acoustic Sounding Techniques for Temperature Profiling
Mrs Jyoti ChandeHead Atmospheric Remote Sensing Division
SAMEER, IIT Campus, Powai, Mumbai 400076
![Page 2: Radio Acoustic Sounding Techniques for Temperature Profiling Mrs Jyoti Chande Head Atmospheric Remote Sensing Division SAMEER, IIT Campus, Powai, Mumbai.](https://reader036.fdocuments.us/reader036/viewer/2022062305/56649cce5503460f94999f81/html5/thumbnails/2.jpg)
Why we need temperature profiles?
• For better understanding of Meteorological phenomenon
• Thermal perturbation excite gravity waves
• Temperature inversion layers prevent mixing of layers which causes trapping of hazardous chemicals
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Temperature profiling-Application areas-
• Meteorology
• Atmospheric research
• Study of thermal inversions,
• Measurement of heat flux
• Boundary layer research.
• Environmental monitoring applications
Temperature Vs Height05.30 09/03/2002
0
100
200
300
400
500
600
700
800
900
1000
1100
0 10 20 30 40 50
Temperature Tv (C)___RASS, -----RS/RW
Heig
ht (m
)
![Page 4: Radio Acoustic Sounding Techniques for Temperature Profiling Mrs Jyoti Chande Head Atmospheric Remote Sensing Division SAMEER, IIT Campus, Powai, Mumbai.](https://reader036.fdocuments.us/reader036/viewer/2022062305/56649cce5503460f94999f81/html5/thumbnails/4.jpg)
Observation techniques of temperature profiles
• Direct (in-situ measurement)– Radiosonde ( Height resolution 30 m , accuracy
of 0.5 deg K & time interval 3hr)
• Remote sensing: – Radiometer – RASS
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What is RASS?
Radio Acoustic Sounding System
- Combines Radio and acoustic probing techniques for obtaining continuous temperature profiles
![Page 6: Radio Acoustic Sounding Techniques for Temperature Profiling Mrs Jyoti Chande Head Atmospheric Remote Sensing Division SAMEER, IIT Campus, Powai, Mumbai.](https://reader036.fdocuments.us/reader036/viewer/2022062305/56649cce5503460f94999f81/html5/thumbnails/6.jpg)
RASS concept
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RASS concept:• The basic concept of RASS is tracking of sound
waves by means of electromagnetic radar. • The compression and rarefaction of air due to
transmitted sound waves alters the refractive index of air in periodic fashion causing the reflection of electromagnetic waves.
• For enhancing the reflected electromagnetic power it is essential that both acoustic and radio wavelength are BRAGG matched
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Bragg Matching conditionScattering of radio waves is intensified when the acoustic and radio wavelengths satisfy relation as follows
e = 2 a
• where e : electrical wavelength
& a : Acoustic wavelength
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RASS measurements
• Physical quantity inferred by the RASS is Ca • Ca : atmospheric sound velocity. • The virtual temperature is related to speed of
sound Ca is as follows • Ca = 20.047 Tv• Tv: virtual temperature• Tv = T(1+ 0.61x r)• r :the mixing ratio of water vapor in the air and T
is the air temperature in deg K
![Page 10: Radio Acoustic Sounding Techniques for Temperature Profiling Mrs Jyoti Chande Head Atmospheric Remote Sensing Division SAMEER, IIT Campus, Powai, Mumbai.](https://reader036.fdocuments.us/reader036/viewer/2022062305/56649cce5503460f94999f81/html5/thumbnails/10.jpg)
RASS realization
RASS can be added to a
1. wind profiler radar
(Pulsed radar and FMCW acoustic)
2. Acoustic sounder /Sodar system. (Pulsed Acoustic and CW radar)
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Windprofiler- RASS
• Three or four vertically pointing acoustic antennas are placed around the radar wind profiler's RF antenna
• Acoustic system is added which contains power amplifier Acoustic Signal generating unit.
• Acoustic antennas generate periodic scattering structure which is sampled by coherent pulsed electromagnetic radar.
![Page 12: Radio Acoustic Sounding Techniques for Temperature Profiling Mrs Jyoti Chande Head Atmospheric Remote Sensing Division SAMEER, IIT Campus, Powai, Mumbai.](https://reader036.fdocuments.us/reader036/viewer/2022062305/56649cce5503460f94999f81/html5/thumbnails/12.jpg)
RASS added to an acoustic sounder
• The radar subsystems are added to transmit and receive radar signals and to process the reflected radar echo information.
• The sodar transducer are used to transmit the acoustic signals that produces the Bragg scattering of the radar signals.
• The speed of sound is measured by the CW electromagnetic radar
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Height Coverage:The Maximum height coverage for Temperature
profiles basically depends on
• System parameters (wave length, antenna Size, acoustic power and Radar Power)
• Atmospheric parameters ( turbulence, winds and humidity)
• Distance between the Acoustic and RF systems
• Acoustic attenuation:
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Acoustic attenuation
• Sound is absorbed in air by several processes.
• Absorption is a complicated function of
• Frequency
• Temperature• Humidity...
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Signal to Noise Ratio -for Wind profiler/ RASS mode:
The back-scattered echo power is given as;
(c /2) P a Ga Pr
Pr = 3.7 x 10 -14 ------------------- x 10 -R/10 x I
( r R ) 2 B
where ,• Pr : Averaged received power
• (c /2) : radar range resolution (m)
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SNR
• c: Speed of light (3 x 10 8 m/s); : radar pulse width r : radar wavelength in meters • R: range in meters; • Pa : transmitted acoustic power in watts; • Ga: gain of acoustic antenna;• Pr: Transmitted radar power in watts; • B: 2 b/Ca : acoustic wave number bandwidth ; b: acoustic
frequency bandwidth : acoustic attenuation • The factor I in equation describes the attenuation of the
received signal due to atmospheric effects
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Acoustic Excitation in pulsed radar:
• CW acoustic excitation
• A short acoustic pulse completely enclosed within radar pulse.
• A Long acoustic pulse where only part of acoustic pulse lies within resolution volume
• FMCW acoustic excitation
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R
I
Q
A
T
Ca
a
CW excitation and resulting phasor diagram
Peak is always at Ca
Transmitted acoustic freq
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R
I
Q
A
T
Ca
a
Short acoustic pulse and resulting phasor diagram
Peak is at Bragg freq
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R
I
Q
A
T
Ca
a
Long Pulse and resulting phasor diagram
Two Peaks of approx equal magnitude at Ca & Bragg freq
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R
I
Q
A
T
Ca
a
Sharp peaks only at Bragg frequency
FMCW
FMCW acoustic transmission
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RASS installed at India Meteorology
Department (IMD) Pune
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Atmospheric humidityThe relationship between acoustic speed and atmospheric
temperature for dry air is given by
Ca = A T
Where Ca : Acoustic Speed;
T : Atmospheric Temperature in oK.
Under the assumption that atmosphere is dry and
obeys the ideal gas law We have equation
A = ( R’ / M) = 20.053 is ratio of specific heats – R’ is the gas constant – M is mean molecular weight of air.
![Page 24: Radio Acoustic Sounding Techniques for Temperature Profiling Mrs Jyoti Chande Head Atmospheric Remote Sensing Division SAMEER, IIT Campus, Powai, Mumbai.](https://reader036.fdocuments.us/reader036/viewer/2022062305/56649cce5503460f94999f81/html5/thumbnails/24.jpg)
Accuracy of the temperature profiles obtained by the RASS technique depends upon atmospheric variables
• Humidity• Vertical winds..
Effect of Atmospheric Parameters on Measurement Accuracy of RASS
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Humidity correction
• Assumption of dry and still atmosphere is not valid in the lower troposphere.
• It was observed that at a given temperature , speed of sound varies with humidity .
• Ca = 20.053 * A’ T• where
A’: constant depending on Relative humidity (%)
For ex: for 100% humidity A’: 1.0033
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Errors due to Vertical Wind Velocities
The vertical winds introduce errors in the temperature measured by RASS.
T = 1.6 * W
where W is in m/sec.This error can be reduced by measuring the mean vertical velocity simultaneously and subtracting this from the acoustic speed at that height.
![Page 27: Radio Acoustic Sounding Techniques for Temperature Profiling Mrs Jyoti Chande Head Atmospheric Remote Sensing Division SAMEER, IIT Campus, Powai, Mumbai.](https://reader036.fdocuments.us/reader036/viewer/2022062305/56649cce5503460f94999f81/html5/thumbnails/27.jpg)
Vertical Doppler( 2 Hz)
Acoustic Frequency
970 Hz
805 HZ
Frequency
L O without Offset
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Acoustic Frequency
L O with 890 Hz Offset
- 80 Hz +80 Hz
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Acoustic FrequencyVertical Doppler
525 365
445
L O with 445 Hz Offset
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Typical RASS spectrum
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Temperature 31/07/2002 (12GMT)
0
0.5
1
1.5
2
2.5
3
5 10 15 20 25 30
Temperature( deg c)
Hei
gh
t(km
)
Temperature profiles derived from RASS spectrum
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RASS implemented with Windprofiler
Specifications- • Transmitted Acoustic Power is 100 W
(electrical)• Type of Antennas : Parabolic reflector with
acoustic transducer/ horn assembly • Antenna gain :15 dB• 3 dB beam width: 16 degrees. • No of Antennas : Three ( switchable)• Type of waveform : FMCW
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Acoustic waveform design
• Range of acoustic frequencies to be transmitted depend on the variation of temperature in the desired range .
• The expected temperature variation is from -50 0C to about +50 oC. Sound velocities at these temperatures would be ranging from 298 m/s to 356.65 m/s ( 30 m/s).
• The corresponding acoustic frequencies are 805 Hz and 960 Hz .
• Thus a frequency modulated linear sweep of bandwidth 156 Hz ranging from 805 Hz to 961 Hz is required to be transmitted for getting Bragg matched conditions satisfied at all the range bins of our interest..
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Temperature resolution
• Temperature resolution depends on the ability of system to resolve Doppler frequencies
• For highest temperature ( 45 oC) the velocity resolution should be of the order of 0.16 m/s or the Doppler resolution should be of the order of 0.45 Hz.
• This is achieved with Wind profiler system by keeping the data observation time for about 2 sec.
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RASS II RASS implemented with acoustic sounder
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RASS II SPECIFICATIONS
Radio Frequency : 712.5 MHz
Acoustic Frequency : 1600-1700 Hz
Range Resolution : 50 meters
Maximum Range : 800-1000 meters
Minimum range : 50 meters
Temperature measurement range : -100 to 500 C
Temperature resolution : 0.30 K
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RASS SUBSYSTEMS
1. Tx and Rx RF Antennas
2. Transmitter (712 MHz)
3. Exciter
4. Receiver
5. Acoustic Source and Antenna
6. Digital Signal Processing
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Transmitter
Exciter
Tx. Antenna
Receiver
Digital Signal Processing
Rx. Antenna antenna
Acoustic Source
SODAR Antenna
Fig.4 Block diagram of RASS system
Transmitter
Exciter
Tx. Antenna
Receiver
Digital Signal Processing
Rx. Antenna antenna
Acoustic Source
SODAR Antenna
Fig.4 Block diagram of RASS systemSchematic block diagram of CW RASS
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ANTENNA
Type : Parabolic
dish
Frequency : 712.5 MHz
Diameter : 1.5 m
Gain : 20 dB
Bandwidth : 20 MHz
Tx. Antenna
Rx. Antenna
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TRANSMITTER
Frequency :712.5
MHz
Power : 25 W CW
Harmonics : < 30 dBc
Type :Solid State
Bandwidth :10 MHz Radar Hardware
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EXCITER
Reference Oscillator, OCXO (70 MHz)
Generation of RF and LO’s
642.5 MHz PLL
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RECEIVER
Type :Super Heterodyne
Bandwidth : < 250 Hz
Noise Figure : < 3 dB
Receiver Sensitivity : -131 dBm
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Acoustic Source & Antenna
Frequency : 1600-1700 Hz
Power : 116 Watts (Peak)
Pulse Width : 120 ms
(Variable)
PRP : 3 Sec. (Variable)
Beam Width : < 100
Transducer Eff. : 25%
Acoustic Antenna
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Temperature Vs Height17.30 06/03/2002
0
100
200
300
400
500
600
700
800
900
1000
1100
0 10 20 30 40 50
Temperature Tv (C)___RASS, -----RS/RW
He
igh
t (m
)
Temperature Data comparison with RS/RW
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CW RASS Outdoor Field equipment
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CW RASS equipment shelter
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Temperature Vs Height5.30 08/03/2002
0
100
200
300
400
500
600
700
800
900
1000
1100
0 10 20 30 40 50
Temperature Tv (C)_____ RASS, ------ RS/RW
Hei
ght (
m)
Temperature Vs Height05.30 09/03/2002
0
100
200
300
400
500
600
700
800
900
1000
1100
0 10 20 30 40 50
Temperature Tv (C)___RASS, -----RS/RW
Heig
ht (m
)
Thank You