Difference between revisions of "BirdView"

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== General ==
+
'''UNDER CONSTRUCTION'''
  
Google Birds is an interactive web-browser embedded application that allows user to look at the available data in the flysafe database in an easy and intuitive way.
+
== Introduction ==
It is build using the Google Earth browser plugin, which enables it to make use of all the Google earth GIS functionality, and combine it with the ease of a webbrowser.
 
[[BR]]
 
The current version is available on the Google Birds test server. It is only accessible for those IP's that have been granted access. In order to get your IP on the list, send an email to tijs.dekler@sara.nl.
 
Additionally, you need to run either a windows or an macintosh machine, and have the Google earth browser plugin installed. Installing the plugin is easy, and you will be prompted to isntall the plugin when you first look at a Google Earth browser plugin built site. However, you do need to have adminstrator rights to install the plugin.
 
  
== Bird Tracks ==
+
BirdView is an interactive web-browser embedded application that allows users to look at gps tracks from the database, superimposing them of different data sources, such as satellite images and meteorological data.
 +
It is built using the Google Earth browser plugin, which enables it to make use of all the Google earth GIS functionality (pan, zoom, high quality satellite images, etc), and combine it with the ease of a web browser.
  
For each radar, an algorithm is used to extract the echoes that are considered birds. These birds are the
+
'''''This service is currently not available.'''''
  
The low beam birds are shown in red, and the high beam birds are shown in green.
+
===Requirements===
  
=== Confetti Birds ===
+
To be able to use BirdView, there are a couple of requirements. Most of these requirements are usually already fulfilled, or in case of installing Google Earth browser plugin, very easy.
 +
* You need to run either Microsoft Windows (XP  or later) or Maxc OS X 10.4+ as operating system.
 +
* You need to have a compatible web browser. Internet explorer, Google Chrome and Firefox are known to be compatible, but Firefox is recommended since it provides additional functionality such as opening local kmz/kml files.
 +
* You need to have the Google Earth plugin installed. This can be done very simply provided you have administrator rights. It will query you to install the first time you open
 +
* To retrieve data, you need to be logged in with your UvA-Bit password. See [[#Security]] for more details.
  
In lack of a better name, Confetti Birds is the same bird tracks as in the normal Bird Tracks, except that they are colorred according to flying direction.
+
We recommend Firefox as browser: While other browser will work too, only Firefox support loading of local KMZ/KML files.
  
== Bird summary Plot ==
+
== Control Panel ==
  
The bird sumarry plot shows a bird density plot mapped on the speed and direction of the birds. This can be used to see the general direction of the bird migration on that particular moment.
+
===BirdView tab===
 +
[[image:interfaceBirdView.png|thumb|right|260px|Screenshot of the BirdView Control interface]]
  
The plot itself is made by a seperate R process, which can run preloaded R scripts. This means that other R scripts can be written that generate different kind of plots, which can be inserted in Google Birds relative easily
+
In the BirdView tab you can find most of the interface controls for selecting the data in the database. It allows you to specify the date and time your interested in, the radar beams you want to include in your queries, the bounding box for the meteorological data, and allows you to switch part of the visualization off and on as desired. Below we go into more detail on different parts of the interface.
  
== MPR Images ==  
+
==== Time Control ====
 +
The topmost 3 fields, named "Date/Time", "Minutes" and "Animation", and their related buttons, are used to navigate trough time, and enable the user to quickly and easily find periods of interest, such as heavy migration.
  
The MPR images come in thre different levels:[[BR]]
+
When BirdView is started, the date and time default to UTC, rounded down to the hour. UTC is used, because the data in the database uses UTC timestamps, and by using UTC we avoid confusion as to timezones and daylight savings.
- bottom is the full echo density image, and this is collored in a range from green to red, where red is the most dense echoes.
 
- The middle level is the Rain Mask, which is shown as a Blue layer.
 
- The top level is the Land Mask, which is shown as a Green layer.
 
  
Each layer can be turned on and off individually, in order to look at different deatails of the radar image.
+
To navigate trough time, there are two options:
 +
* To go to a specified date and/or time, you can simply fill in a specific date/time in the box, and press the "go" button. The data in BirdView will automatically update for the new period.
 +
* To move backward and forward trough time, you can use the back and forward arrow icons respectively. The amount of minutes in the box is the size of the time-steps. The data in BirdView will automatically update for the new time-step. The default time-step is 30 minutes, equal to the time between consecutive radar images.
 +
* The animation controls can be used to let BirdView Automatically play trough consecutive time-steps. It uses the same size of time-steps as the "back/forward" controls. The interval in seconds between steps of the animation is equal to the number in the box. Default is 3 seconds, but if large data selections are made, it is recommended to take a larger interval for the animation. The animation can be started and stopped with the play and pause button respectively.
  
== Bounding Box ==
+
==== Radar Selection ====
 +
'''''note:''''' Radar is only enabled for certain users.
  
In the bounding box area you can fill in bounding values for the area that you are interested in. The visualization of the temperature, the percipitation, and the wind vectors will use these values to determine what area will be shown. The pressure level is used for those weather values that have values on different pressure levels
+
Currently there are three different MPR radars (Glons, Wier and Millingen) in the database, that each have both a high beam and a low beam, making a total of 6 different radar images each update.
  
== Temperature ==
+
Often when you are looking at the MPR data you only want a few of the radar images available. Therefore each radar (both low and high beam) can be selected individually.
 +
This limits the amount of information on your screen, giving a better overview. Furthermore, it reduces the loading strain, since only the data of the selected radars is retrieved from the database.
  
The temperature is shown as slightly transparent filled contourplot, in an area bounded by the bounding box. The temperature range displayed is light blue to dark blue for the -20 to 0 degrees celsius range, and light green-yellow-red-purple for the 0 to 40 degrees celsius range. The effect is that the zero degree boundary is easily visible because the shfit from dark blue to light green.
+
The radar selection is used for the following visualization options:
Additionally, each level of the contour represents a step of 0.33 degrees celsius and is bordered by very thin line, that aim to help seeing different temperature layers.
+
* Bird tracks
 +
* Bird Summary Plot
 +
* Radar Images
 +
* Land Mask
 +
* Rain Mask
  
== Wind Vector ==
+
==== Bounding Box ====
 +
'''''note:''''' Meteorological data is only enabled for certain users.
 +
See also [[#Meteorological data]]
  
 +
The database contains a large collection of meteorological data, including wind speed, temperature and precipitation, for an area covering Scandinavia to North Africa.
 +
For looking at continental migration, this data can be an invaluable asset, but it also puts a strain on the database, since loading large areas can result in longer loading times.
 +
If you are only interested in the weather in the Benelux, the long loading time is unnecessary. Therefore we provide an interface to specify the area of interest. In this interface the user can set a bounding box by providing the minimum and maximum latitude and longitude coordinates. This way, only the meteorological data inside this area is queried and displayed.
  
 +
In some cases the meteorological data also has different values at different pressure levels in the atmosphere. For example, on lower pressure levels (i.e. higher in the air) the wind direction and speed can be significantly different compared to closer to the ground. Since birds can fly on different heights, this is can be an important factor when looking at bird migration.
  
== Precipitation ==
+
These settings are used for :
 +
* Wind Barbs
 +
* Precipitation
 +
* Temperature
 +
 
 +
==== MPR Radar data ====
 +
[[image:ScreenShotBirdView1.jpg|thumb|right|400px|Screenshot of BirdView with summary plots of 6 selected radars]]
 +
 
 +
There is no full temporal coverage for the MPR data in the FlySafe database. Out of every half hour, 10 consecutive radar revolutions are taken.
 +
Therefor the default time step in BirdView is set to 30 minutes.
 +
 
 +
The following options can be used to display different aspects of the MPR radar data
 +
 
 +
=====Bird Tracks =====
 +
 
 +
The MPR radar data contains a large amount of echoes, of which only a smalls set are bird echoes. In order to extract the echoes that are considered to be birds, an algorithm (ROBIN) is used. The algorithm extracts bird echoes, and then connects the echoes that it considers the same bird, resulting on small bird tracks of up to 10 different points.
 +
 
 +
By selecting the Bird tracks option, the bird tracks for all selected radars are shown. The low beam birds are shown in red, and the high beam birds are shown in green. There currently is no mechanism to identify which bird belongs to which radar, only the high and low beam distinction is made.
 +
 
 +
===== Bird summary Plot =====
 +
 
 +
The bird tracks give an indication of the amount of birds detected by the MPR radar, but not of other characteristics, such as average speed and heading for each track.
 +
In order to give an indication of these factors, a dynamically generated bird summary plot can be shown. In this plot, the average speed and direction of each bird track (taken from the entire radar area for a given beam) are plotted on a circular graph. The angular component is the average flight direction, the radial component is the average speed, and the color indicates the density of tracks in the plot exhibiting a particular combination of speed and direction.
 +
 
 +
The plot itself is dynamically generated by a separate R (http://www.r-project.org) process, which can run preloaded R scripts. In this case, a bird summary plot is generated that gives a general indication of the direction and speed of bird migration. It is also possible to write other R scripts that generate different kinds of plots. This still requires some rewriting of code, but is a relatively simple operation, and could be something for future extensions of BirdView.
 +
 
 +
If multiple radars or beams are selected, a unique plot for each radar and beam combination is generated. BirdView displays all the generated plots along the left of the Google Earth window (see figure on the right), stacked under one other, in the same order as the radars appear in the radar selection. If the total height of the plots is bigger than the height of the window, the images are automatically resized so that they fit.
 +
 
 +
Note: If data for the selected radar has not been uploaded for the selected time period, there are no bird tracks with which to produce a plot. In that case a default image (a large red "X") is shown in place of the plot.
 +
 
 +
===== MPR Images =====
 +
'''''Note:''''' Viewing MPR images requires access
 +
Every half hour, 10 radar revolutions are recorded, and the resulting echo densities are added together and stored as an image. In this image, we can distinguish different types of echoes, such as permanent landmarks, rainclouds, and birds. Since we are mainly interested in the birds echoes, we want to be able to distinguish between different type of echoes. This is done by apply certain filters on the echo density image, forming seperate images. There are currently two type of filters in the FlySafe database, in addition to the unfiltered radar image, namely the ''Land mask'' and ''Rain mask''. However it must be noted that echoes filtered by either the land or rain masks are not per definition land or rain, but only echoes fulfilling certain filtering criteria.
 +
 
 +
Each of the different type of images can be added in BirdView as an overlay, centered on the location of the radar. These layers can be turned on and off individually, in order to look at different details of the radar image. Furthermore, each of the overlays is partly transparent where there are no echoes, in order to be able to see how the radar image relates to the real-world satellite images.
 +
 
 +
When adding the overlays, they are always added in the following order, bottom to top:
 +
* bottom is the full echo density image, and this is colored in a range from bright green to red, where red is the most dense echo.
 +
* The middle level is the Rain Mask, which is shown as a Blue layer.
 +
* The top level is the Land Mask, which is shown as a Green layer.
 +
 
 +
Note:
 +
*The images are mapped to approximately fit their real location in BirdView. The aligning of the radar image and the real-world coordinates was done by hand, by comparing certain landmarks (church towers) and their echoes. Additionally, certain image and coordinate conversion steps produce deviation errors, that can result in errors in both radial and angular position.
 +
 
 +
----
 +
 
 +
==== Meteorological data ====
 +
[[Image:ScreenShotMeteo.png|thumb|right|500px|Wind, temperature and precipitation data in BirdView]]
 +
The FlySafe database contains the weather prediction data acquired from ECMWF. The meteorological data goes back as far as 01-01-2005, although only wind vector is available for that particular period.
 +
 
 +
ECMWF data  properties:
 +
* The prediction is 72 hours into the future
 +
* The data is updated every 12 hours, overwriting previous data.
 +
* The last prediction for any 12 hour period is kept in the database
 +
* The data interval is 3 hours, e.g 00:00, 03:00, etc.
 +
* The resolution is 0.25 degrees latitude and longitude (currently, was 0.5 in the past)
 +
* The current boundaries are Longitude -17 to 45 degrees, Latitude 5 to 62 degrees
 +
* Some variables (temperature, wind speed) have multiple altitude levels. Currently, these include ''ground, ''1000'', ''925'', ''850'', and ''700'', given in milliBar.
 +
 
 +
===== Temperature =====
 +
By selecting the temperature option, you get the temperature as a slightly transparent filled contour plot, in an area bounded by the bounding box. The temperature range displayed is limited to a -40 to 50 degrees Celsius range, with a small jump at the freezing point, making it stand out slightly. The legend of the temperature can be found by using the ''legend'' option.
 +
 
 +
Slightly visible white lines have been added to the contour plot to make the different levels of the contour plot easier to see. The levels are 0.33 degrees each, so three different bands will represent one degree in temperature shift.
 +
 
 +
===== Wind Vector (Wind Barb)=====
 +
Wind speed is an important factor in bird behavior. Flying against a strong wind is very inefficient, while flying along with the wind can save a lot of energy. It can often be seen that the general direction of birds is strongly dependent on the wind speed.
 +
 
 +
If the wind Vector option can be used to visualize the wind speed. It will display the wind in yellow arrows (vectors) where the direction is the wind direction, and the size of the arrow gives an indication of the wind speed.
 +
 
 +
When the ''legend'' option is checked, the wind vectors will be extended with very small icons on the base of the arrow. These icons can be clicked on, and a popup table will tell you the exact properties of the wind vector in that location, with speed in both U/V component, and in absolute speed/heading.
 +
 
 +
===== Precipitation =====
 +
 
 +
By selecting the precipitation option, you get the accumulated precipitation for the last full 3 hour period (e.g. if you do it for example at 04:00, you get the precipitation from 00:00-03:00). This value is calculated by subtracting the previous accumulated value from the current accumulated value, giving us the accumulated value of that 3 hour period.
 +
 
 +
The precipitation is visualized as a slightly transparent filled contour plot, in an area bounded by the bounding box. Everything under 1mm of precipitation is ignored, the rest is shown in a scale of dark blue to light blue. The range goes to 15+ mm, everything higher gets the same color as the 15mm level.
 +
 
 +
The precision of the plot is 0.5 mm per color level.
 +
 
 +
----
 +
 
 +
===KML Documents ===
 +
 
 +
The KML document panel contains the interface to add custom data to BirdView, in the form of KML/KMZ files. These files can be located either on your local machine, in which case you upload them, or they can be retrieved directly form an online location.
 +
 
 +
Note that while all browsers support loading of online KML/KMZ files, only firefox supports opening local KML and KMZ files.
 +
 
 +
==== Add online KML/KMZ files ====
 +
 
 +
Here you can add the url of an online KML or KMZ file, and so load it directly in BirdView.
 +
Either press "enter" or the little magnifying glass icon.
 +
 
 +
==== Add Local KML/KMZ ====
 +
'''''Note:''''' These are only supported in Firefox
 +
 
 +
Both the KML and the KMZ options work similar: Press the "browse" button and select the KML or KMZ file you want to upload.
 +
The file is then uploaded and opened in BirdView. Depending on the size of the file, this might take a short while.
 +
 
 +
=== Miscellaneous tabs ===
 +
 
 +
The tabs "Find location", "Google Earth Layers" and "Options" provide some of additional functionality that is usually found in Google earth.
 +
The functions and options function similar as a normal Google earth/Google maps client.
 +
 
 +
==== Credits ====
 +
 
 +
In this overview tab the main partners in the FlySafe Project are listed as images.
 +
Each image is a link to the organizations website, and a mouse-over shows the name of the partner.
 +
 
 +
Furthermore, there is a checkbox that switches on the logo-icons in the Google earth plugin. These icons show the location of the the partners on the map.
 +
The logo-icons are visible when you start BirdView, but are turned off automatically after 10 seconds.
 +
 
 +
== Security ==
 +
 
 +
The security of the UvA-Bits database is an important issue, and as such there are a few security measures in place to protect both the data in the database, and the system itself.
 +
 
 +
The BirdView application itself is open to the public, and can be accessed by anyone. However, to access any kind of data from the database, a user is required to log in using her UvA Bits username and password.
 +
 
 +
Some functionality, such as the ECMWF data and the radar images, require additional access rights, and might be disabled for some users.
 +
 
 +
== Known problems/Troubleshooting ==
 +
''updated 6-12-2013''
 +
 
 +
* Loading local KML/KMZ only works from Firefox
 +
* Loading local KML/KMZ does not work correctly when embedded in the FlySafe services environment (https://services.e-ecology.sara.nl)

Latest revision as of 11:21, 21 January 2021

UNDER CONSTRUCTION

Introduction

BirdView is an interactive web-browser embedded application that allows users to look at gps tracks from the database, superimposing them of different data sources, such as satellite images and meteorological data. It is built using the Google Earth browser plugin, which enables it to make use of all the Google earth GIS functionality (pan, zoom, high quality satellite images, etc), and combine it with the ease of a web browser.

This service is currently not available.

Requirements

To be able to use BirdView, there are a couple of requirements. Most of these requirements are usually already fulfilled, or in case of installing Google Earth browser plugin, very easy.

  • You need to run either Microsoft Windows (XP or later) or Maxc OS X 10.4+ as operating system.
  • You need to have a compatible web browser. Internet explorer, Google Chrome and Firefox are known to be compatible, but Firefox is recommended since it provides additional functionality such as opening local kmz/kml files.
  • You need to have the Google Earth plugin installed. This can be done very simply provided you have administrator rights. It will query you to install the first time you open
  • To retrieve data, you need to be logged in with your UvA-Bit password. See #Security for more details.

We recommend Firefox as browser: While other browser will work too, only Firefox support loading of local KMZ/KML files.

Control Panel

BirdView tab

Screenshot of the BirdView Control interface

In the BirdView tab you can find most of the interface controls for selecting the data in the database. It allows you to specify the date and time your interested in, the radar beams you want to include in your queries, the bounding box for the meteorological data, and allows you to switch part of the visualization off and on as desired. Below we go into more detail on different parts of the interface.

Time Control

The topmost 3 fields, named "Date/Time", "Minutes" and "Animation", and their related buttons, are used to navigate trough time, and enable the user to quickly and easily find periods of interest, such as heavy migration.

When BirdView is started, the date and time default to UTC, rounded down to the hour. UTC is used, because the data in the database uses UTC timestamps, and by using UTC we avoid confusion as to timezones and daylight savings.

To navigate trough time, there are two options:

  • To go to a specified date and/or time, you can simply fill in a specific date/time in the box, and press the "go" button. The data in BirdView will automatically update for the new period.
  • To move backward and forward trough time, you can use the back and forward arrow icons respectively. The amount of minutes in the box is the size of the time-steps. The data in BirdView will automatically update for the new time-step. The default time-step is 30 minutes, equal to the time between consecutive radar images.
  • The animation controls can be used to let BirdView Automatically play trough consecutive time-steps. It uses the same size of time-steps as the "back/forward" controls. The interval in seconds between steps of the animation is equal to the number in the box. Default is 3 seconds, but if large data selections are made, it is recommended to take a larger interval for the animation. The animation can be started and stopped with the play and pause button respectively.

Radar Selection

note: Radar is only enabled for certain users.

Currently there are three different MPR radars (Glons, Wier and Millingen) in the database, that each have both a high beam and a low beam, making a total of 6 different radar images each update.

Often when you are looking at the MPR data you only want a few of the radar images available. Therefore each radar (both low and high beam) can be selected individually. This limits the amount of information on your screen, giving a better overview. Furthermore, it reduces the loading strain, since only the data of the selected radars is retrieved from the database.

The radar selection is used for the following visualization options:

  • Bird tracks
  • Bird Summary Plot
  • Radar Images
  • Land Mask
  • Rain Mask

Bounding Box

note: Meteorological data is only enabled for certain users. See also #Meteorological data

The database contains a large collection of meteorological data, including wind speed, temperature and precipitation, for an area covering Scandinavia to North Africa. For looking at continental migration, this data can be an invaluable asset, but it also puts a strain on the database, since loading large areas can result in longer loading times. If you are only interested in the weather in the Benelux, the long loading time is unnecessary. Therefore we provide an interface to specify the area of interest. In this interface the user can set a bounding box by providing the minimum and maximum latitude and longitude coordinates. This way, only the meteorological data inside this area is queried and displayed.

In some cases the meteorological data also has different values at different pressure levels in the atmosphere. For example, on lower pressure levels (i.e. higher in the air) the wind direction and speed can be significantly different compared to closer to the ground. Since birds can fly on different heights, this is can be an important factor when looking at bird migration.

These settings are used for :

  • Wind Barbs
  • Precipitation
  • Temperature

MPR Radar data

Screenshot of BirdView with summary plots of 6 selected radars

There is no full temporal coverage for the MPR data in the FlySafe database. Out of every half hour, 10 consecutive radar revolutions are taken. Therefor the default time step in BirdView is set to 30 minutes.

The following options can be used to display different aspects of the MPR radar data

Bird Tracks

The MPR radar data contains a large amount of echoes, of which only a smalls set are bird echoes. In order to extract the echoes that are considered to be birds, an algorithm (ROBIN) is used. The algorithm extracts bird echoes, and then connects the echoes that it considers the same bird, resulting on small bird tracks of up to 10 different points.

By selecting the Bird tracks option, the bird tracks for all selected radars are shown. The low beam birds are shown in red, and the high beam birds are shown in green. There currently is no mechanism to identify which bird belongs to which radar, only the high and low beam distinction is made.

Bird summary Plot

The bird tracks give an indication of the amount of birds detected by the MPR radar, but not of other characteristics, such as average speed and heading for each track. In order to give an indication of these factors, a dynamically generated bird summary plot can be shown. In this plot, the average speed and direction of each bird track (taken from the entire radar area for a given beam) are plotted on a circular graph. The angular component is the average flight direction, the radial component is the average speed, and the color indicates the density of tracks in the plot exhibiting a particular combination of speed and direction.

The plot itself is dynamically generated by a separate R (http://www.r-project.org) process, which can run preloaded R scripts. In this case, a bird summary plot is generated that gives a general indication of the direction and speed of bird migration. It is also possible to write other R scripts that generate different kinds of plots. This still requires some rewriting of code, but is a relatively simple operation, and could be something for future extensions of BirdView.

If multiple radars or beams are selected, a unique plot for each radar and beam combination is generated. BirdView displays all the generated plots along the left of the Google Earth window (see figure on the right), stacked under one other, in the same order as the radars appear in the radar selection. If the total height of the plots is bigger than the height of the window, the images are automatically resized so that they fit.

Note: If data for the selected radar has not been uploaded for the selected time period, there are no bird tracks with which to produce a plot. In that case a default image (a large red "X") is shown in place of the plot.

MPR Images

Note: Viewing MPR images requires access Every half hour, 10 radar revolutions are recorded, and the resulting echo densities are added together and stored as an image. In this image, we can distinguish different types of echoes, such as permanent landmarks, rainclouds, and birds. Since we are mainly interested in the birds echoes, we want to be able to distinguish between different type of echoes. This is done by apply certain filters on the echo density image, forming seperate images. There are currently two type of filters in the FlySafe database, in addition to the unfiltered radar image, namely the Land mask and Rain mask. However it must be noted that echoes filtered by either the land or rain masks are not per definition land or rain, but only echoes fulfilling certain filtering criteria.

Each of the different type of images can be added in BirdView as an overlay, centered on the location of the radar. These layers can be turned on and off individually, in order to look at different details of the radar image. Furthermore, each of the overlays is partly transparent where there are no echoes, in order to be able to see how the radar image relates to the real-world satellite images.

When adding the overlays, they are always added in the following order, bottom to top:

  • bottom is the full echo density image, and this is colored in a range from bright green to red, where red is the most dense echo.
  • The middle level is the Rain Mask, which is shown as a Blue layer.
  • The top level is the Land Mask, which is shown as a Green layer.

Note:

  • The images are mapped to approximately fit their real location in BirdView. The aligning of the radar image and the real-world coordinates was done by hand, by comparing certain landmarks (church towers) and their echoes. Additionally, certain image and coordinate conversion steps produce deviation errors, that can result in errors in both radial and angular position.

Meteorological data

Wind, temperature and precipitation data in BirdView

The FlySafe database contains the weather prediction data acquired from ECMWF. The meteorological data goes back as far as 01-01-2005, although only wind vector is available for that particular period.

ECMWF data properties:

  • The prediction is 72 hours into the future
  • The data is updated every 12 hours, overwriting previous data.
  • The last prediction for any 12 hour period is kept in the database
  • The data interval is 3 hours, e.g 00:00, 03:00, etc.
  • The resolution is 0.25 degrees latitude and longitude (currently, was 0.5 in the past)
  • The current boundaries are Longitude -17 to 45 degrees, Latitude 5 to 62 degrees
  • Some variables (temperature, wind speed) have multiple altitude levels. Currently, these include ground, 1000, 925, 850, and 700, given in milliBar.
Temperature

By selecting the temperature option, you get the temperature as a slightly transparent filled contour plot, in an area bounded by the bounding box. The temperature range displayed is limited to a -40 to 50 degrees Celsius range, with a small jump at the freezing point, making it stand out slightly. The legend of the temperature can be found by using the legend option.

Slightly visible white lines have been added to the contour plot to make the different levels of the contour plot easier to see. The levels are 0.33 degrees each, so three different bands will represent one degree in temperature shift.

Wind Vector (Wind Barb)

Wind speed is an important factor in bird behavior. Flying against a strong wind is very inefficient, while flying along with the wind can save a lot of energy. It can often be seen that the general direction of birds is strongly dependent on the wind speed.

If the wind Vector option can be used to visualize the wind speed. It will display the wind in yellow arrows (vectors) where the direction is the wind direction, and the size of the arrow gives an indication of the wind speed.

When the legend option is checked, the wind vectors will be extended with very small icons on the base of the arrow. These icons can be clicked on, and a popup table will tell you the exact properties of the wind vector in that location, with speed in both U/V component, and in absolute speed/heading.

Precipitation

By selecting the precipitation option, you get the accumulated precipitation for the last full 3 hour period (e.g. if you do it for example at 04:00, you get the precipitation from 00:00-03:00). This value is calculated by subtracting the previous accumulated value from the current accumulated value, giving us the accumulated value of that 3 hour period.

The precipitation is visualized as a slightly transparent filled contour plot, in an area bounded by the bounding box. Everything under 1mm of precipitation is ignored, the rest is shown in a scale of dark blue to light blue. The range goes to 15+ mm, everything higher gets the same color as the 15mm level.

The precision of the plot is 0.5 mm per color level.


KML Documents

The KML document panel contains the interface to add custom data to BirdView, in the form of KML/KMZ files. These files can be located either on your local machine, in which case you upload them, or they can be retrieved directly form an online location.

Note that while all browsers support loading of online KML/KMZ files, only firefox supports opening local KML and KMZ files.

Add online KML/KMZ files

Here you can add the url of an online KML or KMZ file, and so load it directly in BirdView. Either press "enter" or the little magnifying glass icon.

Add Local KML/KMZ

Note: These are only supported in Firefox

Both the KML and the KMZ options work similar: Press the "browse" button and select the KML or KMZ file you want to upload. The file is then uploaded and opened in BirdView. Depending on the size of the file, this might take a short while.

Miscellaneous tabs

The tabs "Find location", "Google Earth Layers" and "Options" provide some of additional functionality that is usually found in Google earth. The functions and options function similar as a normal Google earth/Google maps client.

Credits

In this overview tab the main partners in the FlySafe Project are listed as images. Each image is a link to the organizations website, and a mouse-over shows the name of the partner.

Furthermore, there is a checkbox that switches on the logo-icons in the Google earth plugin. These icons show the location of the the partners on the map. The logo-icons are visible when you start BirdView, but are turned off automatically after 10 seconds.

Security

The security of the UvA-Bits database is an important issue, and as such there are a few security measures in place to protect both the data in the database, and the system itself.

The BirdView application itself is open to the public, and can be accessed by anyone. However, to access any kind of data from the database, a user is required to log in using her UvA Bits username and password.

Some functionality, such as the ECMWF data and the radar images, require additional access rights, and might be disabled for some users.

Known problems/Troubleshooting

updated 6-12-2013

  • Loading local KML/KMZ only works from Firefox
  • Loading local KML/KMZ does not work correctly when embedded in the FlySafe services environment (https://services.e-ecology.sara.nl)