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'''Collocation''' is a procedure used in [[remote sensing]]
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to match measurements from two or more different instruments.
This is done for two main reasons:
for validation purposes when comparing measurements of the same variable,
and to relate measurements of two different variables
either for performing retrievals or for prediction.
In the second case the data is later fed into some type of statistical
[[inverse problem|inverse method]]
such as a [[neural network]], [[statistical classification]] algorithm,
[[kernel estimation|kernel estimator]] or a [[Linear least squares (mathematics)|linear least squares]].  
In principle, most collocation problems can be solved by a [[nearest neighbor search]],
but in practice there are many other considerations involved and the best method is
highly specific to the particular matching of instruments.
Here we deal with some of the most important considerations along with specific examples.
 
There are at least two main considerations when performing collocations.
The first is the sampling pattern of the instrument.
Measurements may be dense and regular, such as those from a cross-track
scanning satellite instrument. In this case, some form of [[interpolation]]
may be appropriate.  On the other hand, the measurements may be
sparse, such as a one-off field campaign designed for some
particular validation exercise.
The second consideration is the instrument footprint, which
can range from something approaching a point measurement
such as that of a [[radiosonde]], or it might be several
kilometers in diameter such as that of a satellite-mounted,
microwave radiometer.  In the latter case, it is appropriate
to take into account the instrument [[antenna pattern]] when
making comparisons with another instrument having both a smaller
footprint and a denser sampling, that is, several measurements
from the one instrument will fit into the footprint of the other.
 
Just as the instrument has a spatial footprint, it will also have
a temporal footprint, often called the integration time.
While the integration time is usually less than a second,
which for meteorological applications is essentially instantaneous,
there are many instances where some form of time averaging can considerably
ease the collocation process.
 
The collocations will need to be screened based on both the time
and length scales of the phenomenon of interest.
This will further facilitate the collocation process since
remote sensing and other measurement data is almost always
[[data binning|binned]] in some way.
Certain atmospheric phenomena such as clouds or convection are quite transient
so that we need not consider collocations with a time error of more than an hour or so.
Sea ice, on the other hand, moves and evolves quite slowly, so that
measurements separated by as much as a day or more might still be useful.
 
==Satellites==
 
[[Image:AMSUB scan tracks.png|thumb|center|upright=2.5|alt=AMSU-B flight tracks|Polar-stereographic projection showing 12 hours of measurements from three AMSU-B instruments]]
 
The [[satellite]]s that most concern us are those with a [[low Earth orbit|low-Earth]], [[polar orbit]] since [[geostationary]] satellites view the same point throughout their lifetime.
The diagram shows measuremnts from [[Advanced Microwave Sounding Unit|AMSU-B]]
instruments mounted on three satellites over a period of 12 hours.
This illustrates both the orbit path and the scan pattern which runs crosswise.
Since the [[orbit]] of a satellite is [[deterministic system|deterministic]],
barring [[orbital maneuver|orbit maneuvers]], we can predict the location of the
satellite at a given time and, by extension, the location of
the measurement pixels.
In theory, collocations can be performed by inverting the
determining equations starting from the desired time period.
In practice, partially processed data (usually referred to as
level 1b, 1c or level 2) contain the coordinates of each of
the measurement pixels and 
it is common to simply feed these coordinates to a nearest neighbor search.
As mentioned previously, the satellite data is always [[Data binning|binned]]
in some manner. 
At minimum, the data will be arranged in  
swaths extending from pole to pole.
The swaths will be labelled by time period and the
approximate location known.
 
==Radiosondes==
 
[[Image:Rs ascent.gif|thumb|center|upright=2|alt=Ascent of a nominal weather balloon|Ascent of a weather balloon launched from the Polarstern research vessel]]
 
[[Radiosonde]]s are particularly important for collocation studies
because they measure atmospheric variables more accurately and more
directly than satellite or other remote-sensing instruments.
In addition, radiosonde samples are effectively instantaneous point measurements.
One issue with radiosondes carried aloft by [[weather balloon]]s is
balloon drift.  In,<ref name="Buehler_etal2004">
{{cite journal
| author=S. A. Buehler, M. Kuvatov, V. O. John, U. Leiterer and H. Dier
| year=2004
| title=Comparison of Microwave Satellite Humidity Data and Radiosonde Profiles: A Case Study
| pages=D13103
| journal=Journal of Geophysical Research
| volume=109
| issue=D13103
| doi=10.1029/2004JD004605
| bibcode=2004JGRD..10913103B}}
</ref>
this is handled by averaging all the satellite pixels within a 50&nbsp;km radius
of the balloon launch.
 
[[Image:Rs ascent hist.gif|thumb|right|upright=2|alt=Weather balloon ascent rate distribution|Histogram of ascent rates of weather balloons launch from the Polarstern research vessel]]
 
If high-resolution sonde data, which normally has a constant
sampling rate or includes the measurement time, is used,
then the lateral motion can be traced from the wind data.
Even with low-resolution data, the motion can still
be approximated by assuming a constant ascent rate.
Excepting a short bit towards the end,
the linear ascent can be clearly seen in the figure above.
We can show that the ascent rate of a balloon is given
by the following equation
:<ref name="Mills2004">
{{Cite thesis
| author = Peter Mills
| url = http://www.sat.ltu.se/members/pmils/Masters_Thesis_Peter_reduced.pdf
| title = Following the Vapour Trail: a Study of Chaotic Mixing of Water Vapour in the Upper Troposphere
| institution = University of Bremen
| year = 2004
}}</ref>
 
:<math>
v = \sqrt{\frac{g k h (1 - R_a/R_s)}{c_D}}
</math>
 
where ''g'' is gravitational acceleration,
''k'' relates the height, ''h'', and surface area, ''A'',
of the balloon to its volume: ''V''&nbsp;=&nbsp;''khA'';
''R''<sub>s</sub> is the equivalent "gas constant" of the balloon,  
''R''<sub>a</sub> is the gas constant of the air
and ''c''<sub>D</sub> is the drag coefficient of the balloon.
Substituting some sensible values for each of the constants,
''k''=1. (the balloon is a perfect cylinder), ''h''=2. m, ''c''<sub>D</sub>&nbsp;=&nbsp;1.
and ''R''<sub>a</sub> is the gas constant of helium,
returns an ascent rate of 4.1&nbsp;m/s. Compare this with the
values shown in the histogram which compiles all of the
radiosonde launches from the [[Polarstern]] research vessel
over a period of eleven years between 1992 and 2003.
 
==Interpolation==
 
For gridded data such as [[data assimilation|assimilation]] or [[meteorological reanalysis|reanalysis]] data,
[[interpolation]] is likely the most appropriate method for performing any type of comparison.
A specific point in both physical position and time is easy to locate
within the grid and interpolation performed between the nearest neighbors.
[[Linear interpolation]] ([[bilinear interpolation|bilinear]], [[trilinear interpolation|trilinear]] etc.) is the most common,
though cubic is used as well but is probably not worth the extra computational overhead.
If the variable of interest has a relatively smooth rate of change (temperature is a good example of this because it
has a diffusion mechanism, [[radiative transfer]], not available to other atmospheric variables),
then interpolation can eliminate much of the error associated with collocation.
 
Interpolation may also be appropriate for many types of satellite instruments,
for instance a cross-track scanning instrument like [[Landsat]].
In <ref name="Mills2009">{{Cite journal
| author = Peter Mills
| title = Isoline retrieval: An optimal method for validation of advected contours
| journal = Computers & Geosciences
| volume = 35
| issue = 11
| pages = 2020&ndash;2031
| year = 2009
| doi =  10.1016/j.cageo.2008.12.015
| url = http://peteysoft.users.sourceforge.net/Mills2009.pdf
|arxiv = 1202.5659 |bibcode = 2009CG.....35.2020M }}</ref> data derived from the [[Advanced Microwave Sounding Unit]] (AMSU) are
interpolated (although not for the purposes of collocation) using a slight variation
of trilinear interpolation.
Since measurements within a single scan track are laid out in an approximately rectangular
grid, bilinear interpolation can be performed.
By searching for the nearest overlapping scan track both forwards and backwards in time,
the spatial interpolates can then be interpolated in time.  
This technique works better with derived quantities rather than raw brightness temperatures since
the scan angle will already have been accounted for.
 
For instruments with a more irregular sampling pattern, such as the [[Aqua (satellite)|Advanced Microwave
Scanning Radiometer-EOS (AMSR-E)]] instrument which has a circular scanning pattern,
we need a more general form of interpolation such as [[kernel estimation]].
A method commonly used for this particular instrument, as well as [[SSM/I]],
is a simple daily average within regularly gridded, spatial bins
.<ref name="Spreen_etal2008">{{Cite journal
| author=G. Spreen, L. Kaleschke and G. Heygster
| year= 2008
| title=Sea ice remote sensing using AMSR-E 89 GHz channels
| pages=C02S03
| journal=Journal of Geophysical Research
| volume=113
| issue=C02S03
| doi=10.1029/2005JC003384
| bibcode=2008JGRC..11302S03S}}</ref>
 
==Trajectories==
 
To collocate measurements of a medium- to long-lived [[flow tracer|atmospheric tracer]] with a second instrument, running [[trajectory (meteorology)|trajectories]] can considerably improve the accuracy.  It also simplifies the analysis somewhat: a trajectory is run both forwards and backwards from the measurement location and between the desired time window. Note that the acceptable time window has now become longer because the error from transport induced changes in the tracer is removed: the tracer lifetime would be a good window to use. Since the trajectories provide a location for every point in time within the time window, there is no need to check multiple measurements from the second instrument. Every time within the trajectory is checked for the distance criterion but within a very narrow window.  Alternatively, the exact times of the measurements for the second instrument are interpolated within the trajectory. Only the smallest distance error below the threshold is used and the distance criterion can be made smaller as a consequence.
 
==Example: Pol-Ice Campaign==
 
[[Image:EM-bird flights.png|thumb|center|upright=2|alt=Pol-Ice E-M bird flights|Map of E-M Bird flights from Pol-Ice campaign along with coincident EMIRAD flights]]
 
Collocations of sea ice thickness and [[brightness temperature]]s taken during the
[[Pol-Ice Campaign]] are an excellent example since they illustrate many of the most important principles as well as demonstrating the necessity of taking into account the individual caseThe Pol-Ice campaign was conducted in the N. Baltic in March 2007 as part of the SMOS-Ice project in preparation for the launch of the [[Soil Moisture and Ocean Salinity satellite]]. 
Because of the low frequency of the SMOS instrument, it is hoped that it will render
information on sea ice thickness, therefore the campaign comprised measurements
of both sea ice thickness and emitted brightness temperature.
Brightness temperatures were measured with the EMIRAD L-band microwave radiometer
<ref name="Skou_etal2007">
{{cite techreport
| author = N. Skou, S. S. Sobjaerg and J. Balling
| title=EMIRAD-2 and its use in the CoSMOS Campaigns
| institution=Electromagnetic Systems Section Danish National Space Center, Technical University of Denmark
| year=2007
| number=ESTEC Contract No. 18924/05/NL/FF
}}</ref>
carried on board an airplane. Ice thickness was measured with the E-M Bird ice thickness meter which was carried by a helicopter. The E-M Bird measures ice thickness with a combination of inductance measurements to determine the location of the ice-water interface and a [[LIDAR|laser altimeter]] to measure the height of the ice surface.<ref name="Heygster_etal2009">
{{cite techreport
| author = G. Heygster, S. Hendricks, L. Kaleschke, N. Maass, P. Mills,
D. Stammer, R. T. Tonboe, and C. Haas
| title=L-Band Radiometry for Sea-Ice Applications
| institution=Institute of Environmental Physics, University of Bremen
| year=2009
| number=ESA/ESTEC Contract N. 21130/08/NL/EL
}}</ref>
The map above shows the flight tracks of both instruments which were approximately coincident but obviously subject to pilot error.
 
[[Image:EMIRAD pattern.gif|thumb|right|upright=1.5|alt=EMIRAD antenna response pattern|EMIRAD antenna response pattern]]
 
Since the flight paths of both aircraft were approximately linear, the first step in the collocation process was to convert all the coincident flights to Cartesian coordinates with the ''x''-axis being lateral distance and the ''y''-axis transverse distance. In this way, collocations can be performed in two ways: crudely, by matching only the ''x'' distances, and more precisely by matching both coordinates.
 
More importantly, the footprint size of the radiometer is many times larger
than that of the E-M Bird meter.  The figure to the left shows
the [[radiation pattern|antenna response function]] for the radiometer.
The [[full width at half maximum]] is 31 degrees.<ref name="Skou_etal2007"/>
Since the aircraft was flying at approximately 500 m, this translates
to a footprint size of 200 m or more.
Meanwhile, the footprint size of the E-M Bird was roughly 40 m
with a sample spacing of only 2 to 4 m.<ref name="Heygster_etal2009"/>
Rather than looking to nearest neighbors, which would have produced
poor results, a weighted average of the thickness measurements was
performed for each radiometer measurement.
Weights were calculated based on the radiometer response function which is almost
a perfect Gaussian up to about 45 degrees.
Points could be excluded based on distance along the flight
path.
For validation of sea ice emissivity forward model calculations,  
this was further refined by performing an emissivity calculation
for each thickness measurement and averaging over the radiometer
footprint.
<ref name="Mills_Heygster2010">
{{cite journal
| author=Peter Mills and Georg Heygster
| journal=IEEE Transactions on Geoscience and Remote Sensing
| year=2010
| title=Sea ice emissivity modelling at L-band and application to Pol-Ice campaign field data
| issue=2
| doi=10.1109/TGRS.2010.2060729
| volume=49
| pages=612–627
| url=http://peteysoft.users.sourceforge.net/smos_ieee.pdf
}}</ref>
 
The figure below illustrates relative measurement locations
from each of the instruments used in the Pol-Ice campaign.
Two overpasses are shown: one from the airplane carrying the
EMIRAD radiometer and one from the helicopter carrying the
E-M Bird instrument.
The x-axis is along the line of the flight path.
EMIRAD footprints are drawn with lines, E-M Bird
inductance measurements are represented by circles
and LIDAR measurements with dots.
 
[[Image:EMIRAD footprints.gif|thumb|center|upright=2.5|alt=Pol-Ice campaign measurement locations|Relative measurement locations from P4X to P2A flight track: see above map.
EMIRAD footprints represent the Gaussian standard-deviation, not FWHM.]]
 
==References==
 
<references/>
 
[[Category:Remote sensing]]
[[Category:Meteorology]]
[[Category:Inverse problems]]
[[Category:Data analysis]]

Revision as of 06:28, 4 March 2014

The plan to lift the ban generated harsh criticism and protests from lawmakers and flight attendants who pointed out that the terrorists who hijacked the planes on Sept. eleven, 2001, had been armed with small blades, amongst different weapons. I recognize that the TSA listened to the American passengers, and significantly our flight attendants who felt uniquely weak and have spoken out overwhelmingly in opposition to the knives on planes plan," she stated best survival knife. Snow globes have been pulled off the prohibited checklist a couple of months ago, but only if the globe has less than three.4 ounces of liquid inside. That's in regards to the measurement of a tennis ball.



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A knife maker will buy metal from a company that processes it from iron ore and other supplies to create a selected alloy. A excessive-high quality metal for kitchen knives has specific metallurgical properties and could be expensive to produce. If the knife maker buys a cheaper - decrease quality metal, it'll make no distinction how arduous it's in Rockwell terms or how it's processed by the knifemaker - it will merely be a foul knife. A great example is the International model, which I like very much. Many of those knives are not cast to create a lighter knife.

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