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@ -1,19 +1,39 @@
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% Calculate orientation the beach profile at each unique site and save to .mat file
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% Calculate orientation the beach profile at each unique site and save to .mat file. Orientation is
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% the number of degrees, anticlockwise from east, perpendicular to the shoreline (pointing towards
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% land).
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%% Setup
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% Needs the following coastal tools:
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% Needs the following coastal tools:
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% J:\Coastal\Tools\MALT Logspiral Transformation
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addpath('J:\Coastal\Tools\MALT Logspiral Transformation')
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% J:\Coastal\Tools\Coordinate Transformations
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addpath('J:\Coastal\Tools\Coordinate Transformations')
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clear
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clear
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clc
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clc
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%% Options
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% Where is the profiles file located? This should contain a structure including the .lat and .lon
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% for each analysed cross section
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profilesFile = '..\..\data\raw\processed_shorelines\profiles.mat';
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% Where should we store the processed beach orientations?
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outputFile = '..\..\data\raw\processed_shorelines\orientations.mat';
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% How far in meters does the profile extend towards land and sea? Used to provide end points of the
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% cross section
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distance = 200;
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%% Script
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% Load profile data, this is where we want to calculate orientations.
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% Load profile data, this is where we want to calculate orientations.
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warning('off','all')
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warning('off','all')
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data = load('C:\Users\z5189959\Desktop\nsw_2016_storm_impact\data\raw\processed_shorelines\profiles.mat');
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data = load(profilesFile);
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data = data.data;
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data = data.data;
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% Save results to variable
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output = [];
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output = [];
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for ii = 1:n
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for ii = 1:length(data)
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disp(num2str(ii))
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disp(num2str(ii))
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lat = data(ii).lat;
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lat = data(ii).lat;
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lon = data(ii).lon;
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lon = data(ii).lon;
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@ -21,14 +41,41 @@ for ii = 1:n
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[x,y,utmzone] = deg2utm(lat,lon);
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[x,y,utmzone] = deg2utm(lat,lon);
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if strcmp(beach, 'BOOM') == 1 || strcmp(beach, 'HARGn') == 1 || strcmp(beach, 'BILG') == 1 || strcmp(beach, 'HARGs') == 1 || strcmp(beach, 'DEEWHYn') == 1
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if strcmp(beach, 'BOOM') == 1 || strcmp(beach, 'HARGn') == 1 || strcmp(beach, 'BILG') == 1 || strcmp(beach, 'HARGs') == 1 || strcmp(beach, 'DEEWHYn') == 1
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% log spiral transformation file is out of date. Talk to Mitch
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% These are straight beaches, load the transformation file directly and read the rotation angle.
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continue
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parameterDir = 'J:\Coastal\Tools\MALT Logspiral Transformation';
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end
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parameterFile = [parameterDir, filesep, beach, '.mat'];
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parameterMat = load(parameterFile);
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fields = fieldnames(parameterMat);
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field = fields(1,1);
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site = getfield(parameterMat, field{1});
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rot_angle = site.rot_angle; % Angle of the shoreline counter clockwise from east
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% Figure out end points in utm coordinates
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x_land = x - distance * cos(deg2rad(rot_angle));
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y_land = y + distance * sin(deg2rad(rot_angle));
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x_sea = x + distance * cos(deg2rad(rot_angle));
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y_sea = y - distance * sin(deg2rad(rot_angle));
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[lat_land,lon_land] = utm2deg(x_land,y_land,utmzone);
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[lat_sea,lon_sea] = utm2deg(x_land,y_land,utmzone);
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if strcmp(beach, 'AVOCAs') == 1
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row.lat_center = lat;
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% negative solution. Talk to Mitch
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row.lon_center = lon;
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row.lat_land = lat_land;
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row.lon_land = lat_land;
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row.lat_sea = lat_sea;
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row.lon_sea = lon_sea;
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row.orientation = rot_angle + 90; % Tangent to shoreline towards line
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row.beach = beach;
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output = [output; row];
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continue
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continue
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end
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end
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% if strcmp(beach, 'AVOCAs') == 1
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% % negative solution. Talk to Mitch
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% continue
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% end
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% Get the sp log spiral transformed coordinates
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% Get the sp log spiral transformed coordinates
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xyz.x = x;
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xyz.x = x;
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@ -56,7 +103,12 @@ for ii = 1:n
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[lat_sea,lon_sea] = utm2deg(xyz_sea.x,xyz_sea.y,utmzone);
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[lat_sea,lon_sea] = utm2deg(xyz_sea.x,xyz_sea.y,utmzone);
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% Orientation in degrees anticlockwise from east, pointing towards land
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% Orientation in degrees anticlockwise from east, pointing towards land
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orientation = radtodeg(atan2((xyz_land.y - xyz_sea.y), (xyz_land.x - xyz_sea.x)));
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try
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orientation = radtodeg(atan2((xyz_land.y - xyz_sea.y), (xyz_land.x - xyz_sea.x)));
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catch
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disp(['Cannot calculate orientation: ' beach])
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continue
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end
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row.lat_center = lat;
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row.lat_center = lat;
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row.lon_center = lon;
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row.lon_center = lon;
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@ -70,4 +122,4 @@ for ii = 1:n
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end
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end
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warning('on','all')
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warning('on','all')
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save('orientations.mat','output','-v7')
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save(outputFile','output','-v7')
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