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Metr 51: Scientific Computing II Lecture 9: Lidar Plotting Techniques Allison Charland 3 April 2012.

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Presentation on theme: "Metr 51: Scientific Computing II Lecture 9: Lidar Plotting Techniques Allison Charland 3 April 2012."— Presentation transcript:

1 Metr 51: Scientific Computing II Lecture 9: Lidar Plotting Techniques Allison Charland 3 April 2012

2 Two weeks of Matlab left! Matlab Final will be on April 19 th Then on to HTML and creating a personal webpage Reminder

3 Emitted infrared light Infrared light reflected from aerosols Movement of aerosols by wind The shift in frequency of the return echo is related to the movement of aerosols. The faster the aerosols move, the larger the shift in frequency. From this, the wind speed relative to the light beam can be measured. Doppler Lidar Theory

4 Doppler wind lidar Halo Photonics, Ltd. Stream Line 75 1.5 micron Eye-safe 75 mm aperture all-sky optical scanner Min Range: 80 m Max Range: 10km 550 user defined range gates (24 m) Temporal resolution: 0.1-30 s Measurements: Backscatter Intensity Doppler Radial Velocity

5 Lidar Scanning Techniques Multiple elevation and azimuth angles can be adjusted to create different types of scans. DBS (Doppler Beam Swinging): Wind Profile Stare: Vertically pointing beam RHI (Range Height Indicator): Fixed azimuth angle with varying elevation angles PPI (Plan Position Indicator): Fixed elevation angle with varying azimuth angles 95 o 30 o 70 o

6 DBS Data Date & Time(UTC) Height (m AGL) Wind Direction & Wind Speed (ms -1 ) Remove 225 heading Use load to read in the data then create wind speed and direction profiles. What if you have multiple files that you want to plot using one code?

7 You have three files that you want to plot: wind_profile_0900PST.txt, wind_profile_1200PST.txt, and wind_profile_1500PST.txt Create a character string array called filenames filenames = [‘wind_profile_0900PST.txt’;… ‘wind_profile_1200PST.txt’;‘wind_profile_1500PST.txt’]; Hint: filenames must all be the same character length Create a variable for the number of files you have Num = 3; Plotting multiple profiles

8 Now you want to create a for loop that will go from 1 to the number of files you have and load and plot each file. Each time you loop through you want to reset the filename that is being read. Set your values of height, wind direction and wind speed. Plot your variables. Clear variables so that the next time through the loop they will be replaced. Plotting multiple profiles

9 for i =1:Num f = filenames(i,:); load f; data = f; clear f; height = data(:,1); wind_dir = data(:,2); wind_speed = data(:,3); figure(1);clf; plot(wind_dir, height, ‘+k’); hold on; plot(wind_speed, height, ‘k’); hold on; clear data; clear height; clear wind_dir; clear wind_speed; end %for Plotting multiple profiles

10 To plot each profile as a separate figure replace figure(1);clf; with figure(i);clf; To save each figure as a jpeg, use saveas after your figure is complete figure_name = [‘profile_’i’.jpg’]; saveas(gcf,figure_name); Each time through the loop the figure_name will be reset and saved with the new number i. Plotting multiple profiles

11 Stare Lidar Data Date & Time(UTC) There is one data file per hour

12 Stare Data The load command cannot be used for stare data because the number of columns changes throughout the data file from 3 to 4 after each scan. Fastest way to plot stare data is using xlsread This reads in an excel spreadsheet then later using loops the data can be separated into specific variables. The first step is to load the stare data file into excel space delimited then save it as an excel file with the extension.xlsx (for Microsoft 2010).

13 Stare Data Before loading the data, set up the height array. Heights will always be the same throughout a stare file. height = 0:225; height = (height + 0.5)*24; height = height';

14 Stare Data Read in the datafile data = xlsread(filename.xlsx); j = hour; %The hour of the particular data file fprintf('Completed %2.0f \n', j) Set conditions for start of data columns c1=2; if j > 1 k=17; p=18; elseif j==1 k=9; p=10; end if j >= 4 c1=1; end %if if j >= 18 c1=2; end %if

15 Splitting the data count = 0; n = 2100; for i=1:n count = count +1; time(count) = data(k,c1); k=k+226; V = data(p:p+100,3)'; V_2 = data(p+100:p+224,2)'; V_new(count,:) = [V V_2]; B = data(p:p+100,4)'; B_2 = data(p+100:p+224,3)'; B_new(count,:) = [B B_2]; p=p+226; end %for fprintf('Completed split \n')

16 Stare Data Change time from UTC to PST Depends on Daylight Savings for w = 1:length(time) if time(w) < 7; time(w) = 24 - (7-time(w)); else time(w) = time(w)-7; end %if end %for

17 Transpose the data B_new = B_new'; V_new = V_new'; time =time' ;

18 figure(1);clf; pcolor(time,height,V_new);hold on; shading interp; ylim([0 2400]) xlabel('Time (PST) '); ylabel('Height (m AGL)'); title('Vertical Velocity (m s^-^1)') caxis([-5 4]) colorbar Show Example Plotting Stare Data

19 Stare Data The example shown is the raw data. A filter algorithm can be used to eliminate invalid data including near the surface and aloft where the signal is no longer retrieved. The algorithm code will be available on D2L. Multiple files could be read in and plotting using the same technique as earlier to plot multiple wind profiles. The problem is that the figures created will have so much detail that there may be issues copying them.

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