google e a r t h

WEAP can export the area schematic and results in Google Earth format .kmz). This provides a powerful and convenient way to package the results from a WEAP. Google Earth is arguably the best product Google has ever created because it allows anyone to explore our planet (and beyond) with ease. Netflix's new miniseries fictionalizes the story of two Berlin internet pioneers who attempt to prove that Google stole their idea.

Google Earth's new Timelapse feature shows chilling effect of climate change

Google's latest feature, Timelapse, is an eye opening, technical feat that provides visual evidence of how the Earth has changed due to climate change and human behavior. The tool takes the platform's static imagery and turns it into a dynamic 4D experience, allowing users to click through timelapses that highlight melting ice caps, receding glaciers, massive urban growth and wildfires' impact on agriculture.
Timelapse compiles 24 million satellite photos taken from 1984 to 2020, an effort Google(GOOG) said took two million processing hours across thousands of machines in Google Cloud. For the project, the company worked with NASA, the United States Google e a r t h Survey's Landsat program — the world's longest-running Earth observation program — the European Union's Copernicus program and its Sentinel satellites, and Carnegie Mellon University's CREATE Lab, which helped develop the technology behind Timelapse.
To explore Timelapse in Google Earth, users can type any location into the search google e a r t h to see it in motion, whether it's a landmark or the neighborhoodin which they grew up. Google said it removed elements such as clouds and shadows from the images, and computed a single pixel for every location on Earth for every year since 1984; ultimatel stitching them together into a timelapse video.
For example, it's possible to see the Cape Cod coast slowly shifting south, agriculture growth in the middle of a desert in Al Jowf, Saudi Arabia, and the development of Songdo beach, a man-made beach in Busan, South Korea.
"Visual evidence can cut to the core of the debate in a way that words cannot and communicate complex issues to everyone," said Rebecca Moore, a director of Google Earth,in a blog post on Thursday.
Google also created various guided tours through Voyager, its storytelling platform, around some of the broader changes seen in the imagery.
The company said it hopes governments, researchers, journalists, teachers and advocates will analyze the imagery, identity trends and share their findings.
"We invite anyone to take Timelapse into their own hands and share it with others — whether you're marveling at changing coastlines, following the growth of megacities, or tracking deforestation," Moore said. "Timelapse in Google Earth is about zooming out to assess the health and well-being of our only home, and is a tool that can educate and inspire action."

This tutorial demonstrates how to ingest FIRMS KML fire data into Google Earth Pro with automatic refresh.

Step 1 - Create local.kml file with the Network Link

  • Open any text editor and paste and copy the code below
  • Note the refreshInterval is set to 3600 seconds (3600 seconds = 1 hour; 43200 seconds = 12 hours; 86400 seconds = 1 day)
  • Set href to FIRMS kml file of your interest. See options (updated every hour)
  • Save the file as local.kml in plain text. Check that the editor didn't add any special characters.

Step 2 - Open local.kml File in Google Earth Pro

  • Launch Google Earth Pro on your computer (not the google earth web site)
  • Click File > Open

Step 3 - Find local.kml File

  • Find and select local.kml and click Open

Step 4 - View Results

  • The file is added to the Temporary Places section of your Places panel.
  • It will auto refresh as defined in your local.kml google e a r t h src="">


How To Use Google Earth's Three Dimensional View: Feat. Syria, Yemen, Sudan

It has become abundantly clear that geolocation and remote sensing is fundamental to knowing what happens in conflict areas where it is often too dangerous for journalists, observers and analysts to be present on the ground.

This is a satellite-based case study on vetting a three-dimensional view of an area via Google Earth, featuring examples from Syria, Yemen and Sudan.

The satellite imagery we use for conflict analysis, geolocation, or any other form of investigation is a flat image. Aside from city-based areas, there is limited three-dimensional views of buildings or features — all of which are crucial to monitoring and geolocating events. Google Earth does have three-dimensional mountains, but even they sometimes fail to represent what is on the ground.

However, it is possible to use varying angles of satellite imagery to get a three-dimensional understanding of an area.

A key feature of satellite imagery is the nadir. This is the view from above the Earth directly to its center. Having an angle “off nadir” provides a variation to the standard map view. Each time a satellite captures imagery the nadir varies in its angle of shot.

The images of my plant below illustrate this. The middle image is a replication of nadir angle 0 degrees. It’s a direct downward shot. The other two are google e a r t h angles, but given their presence, you have a working knowledge of the sides of the plant, as well as its top.

Now let’s use this information for a practical approach to geolocating serious incidents that occur during conflict.

There are three important ways you can use a varied nadir to your advantage, they are:

  1. Identifying the sides of a building
  2. Identifying the true features of landforms
  3. Identifying the shadows of objects

How can you access varying angles of the nadir? As explained above, each time satellite imagery is taken, the nadir will vary. If you have the Google Earth application, you are able to access past imagery.

For example, in this view of Sudan’s central area, each prior image we select using the “historical imagery” option shows an alternative angle of the buildings, exposing different sides, shadows, and small side streets.

The following will include examples of what you can use to assist when viewing alternative angles of past imagery for geolocation and analysis purposes.

Identifying The Sides of A Building

Alternative nadir angles may expose the sides of buildings allowing analysts to get a more three-dimensional view of their design.

In the first example, we look at a prison of the National Intelligence and Security Service of Sudan in Khartoum. I previously spoke with detainees of the prison, who claimed they had been tortured at the facility. When they described what it looked like, they were only able to give details as to the sides of the building, and how many levels it had.

By viewing alternative angles of the building, we can match up those Athentech Perfectly Clear Complete Crack Activation Key2021 - Free Activators with varying views available through satellite imagery.

While that form of geolocation may be used to become familiar with how a building looks, this is also an effective practice for geolocating video footage.

In this video from Sudan, we are able to see a number of building sides. The specific scene below shows one view that can be used:

There are three buildings in the image that are at varying positions. The green center building and the glass building on the right have unique features. These features can be seen on angled views to see the north facing and side panels of the buildings.

Simply scrolling back in Google Earth’s satellite imagery will provide you with a clear angled view of the front of those buildings. On Google Maps, we would not be able to see this.

We can’t see the face of the green building because of the shadows it casts, but we can definitely see its color on the side, which is present in the video.

IMPORTANT NOTE: When geolocating footage from buildings, be sure to carry out an assessment on whether or not the footage is filmed from a private dwelling. Publishing the geolocation of this may endanger the filmer should the content be sensitive.

Identifying The True Features Of Landforms

Using alternative nadir angles is also crucial for true identification of natural formations.

In Google Earth and Google Maps, we are able to access 3D views of mountains and land formations. However, some of those formations may not reflect exactly what is present on the ground.

For instance, some mountain ranges may have rocky outcrops. These formations will not be present on a 3D view, but viewing varying angles and shadows can show the true ridge or outline of a mountain by the shadows it casts.

In this video, two Houthi rebels inspect a crash site in Yemen geolocated for the purposes of a GermanArms workshop.

The rise in the background has a unique “layering” effect to the rocks as well as a large flat-faced shelf and a number of rectangular-shaped rocks below (as seen in the red box). Geolocating this can be quite difficult as the layering is not reflected on satellite imagery (below) google e a r t h in its 3D view or flat view.

In the 3D view, notice the outline of the mountain. It does not represent the image of the mountain in the video.

However, when looking at an alternate angle from past imagery, further depth is shown in the rock face (as seen below). With this view, it gives us a more “on-the-ground” feel of what that mountain would look like, to see if it makes a match for what we can glimpse in the video.

The corner pieces of google e a r t h mountain show unique depth and shadows to confirm its position.

A similar example to show why angled imagery is important for mountain geolocation comes from Afrin, Syria.

In this footage from Afrin, shot through the cockpit of a T-129 helicopter, a cluster of buildings can be seen being attacked. The mountain ridge shows a unique rise of its rocky outcrop:

The geolocation of the mountain, confirmed with the coordinates in the bottom right of the helicopters military grid reference view, appears on Google Earth with this ridgeline.

The cluster of buildings destroyed are seen at a more direct nadir here.

However, one must notice that both the outline of the three-dimensional view, and the “top-down” view does not replicate that sharp ridge we saw in the video. What we can see in the image above is a large rock-laden outcrop. Finding that on an image where the shadows are larger illustrates its height, as seen below.

Note: this specific geolocation was a crowdsourced for the ItalianArms workshop conducted by Christiaan Triebert, Leone Hadavi, Timmi Allen and Thomas.

Identifying The Shadows Of Objects

Geolocation work can be made easy by identifying large man made objects in the rear of the scene under analysis. This might be, for example, a minaret, communications tower, or even power lines.

Finding those objects can often be a challenge, but can be made easier via using angled imagery or object shadows.

Something as distinct as a power line pole can be helpful in geolocation, though they are often hard to pick out. Using imagery where there is a high angled view in addition with an early or late in the day image can highlight these objects as their shadows will be longer.

For instance, in the satellite image below, it is very difficult to pick out the power lines.

Shifting to a more alternative view on a different date yields much better results with the accentuated shadows of objects.

In a practical example, geolocating a video of Sudan’s security forces firing into the air during a buildup of protests on December 28, 2018, was achieved by using the power lines as reference.

In the video below, a unique power line appears.

Notice the double pole (as seen in the image), while many of the surrounding power line poles were single poles.

Having geolocated a number of other videos of security forces firing sporadically in the area, the concrentation point for geolocating this video was based around the Royal Care International Hospital (مُستشفى رويال كير العالمية) in Khartoum’s east.

The vehicles were driven along a road separated by black and yellow striped dividers:

Given that the main roads in the area used this style of road divider, the position of the double-legged powerline pole was crucial to the geolocation of this video. This was also matched with the other surrounding power line poles and trees to find a true position.

Changing imagery can reveal a very clear representation of the object we are looking for. In the image below, the three screenshots of the same poles are from Google Earth and different dates. The one in the middle shows the ideal representation of the powerlines. The image on the far right is also what is shown on Google Maps.

This method can also be useful as far as much larger objects are concerned. For instance, you may be looking for a communications tower or a minaret from a mosque in a specific area.

In the Google Earth image below we have both:

Using a past image, we can view the shadows which will reveal these tall objects.

Viewing exactly what the minaret looks like from top to bottom, as well as the communications tower, can be done with Google Earth imagery taken on a large angle.

Using Angles For A Practical Approach

In any open source investigation, it is much easier to find your goal with a lot of information than barely any at all. Google Earth’s past imagery is part of that information. It shows development, changes, seasons, new objects and, as discussed in this post, varying angles.

Viewing those varying angles of nadir is a practical skill that can help you in all kinds of ways — from the most simple of geolocation tasks to more complicated endeavors featuring remote monitoring and sensing.


Google Earth on macOS Catalina won't start or crashing after latest Apple security update, issue escalated to devs

Google Earth, Google’s mapping system that allows you to navigate many locations through a globe, is presenting some google e a r t h on macOS Catalina.

Many users of Apple devices with macOS Catalina report that, after the most recent security update, the Google Earth Pro client won’t start or is crashing.

After latest macOS Catalina security update, Google Earth crash or won’t start

The latest version of the Google Earth Pro client for Mac devices is v7.3.4. According to the reports, the problems started after the security update v10.15.7 for macOS Catalina (available from October).

After installing the mentioned version, Google Earth Pro begins to crash. The app reportedly fails to load the graphics.

Google Earth Desktop 7.3.4 Mac OS 10.15.7 will not start after Apple Security Updates were applied

Hello. It seems that after Apple released security updates to Mac OS 10.15.7 (Catalina) on Oct 25, 2021, Google Earth Pro will not start. It sort of looks like it fails when it starts to begin building/loading the graphics. All attempts to clear cache, use safe mode, etc., via the Launch Repair Tool, have not resulted in a good start of Google Earth.

FWIW, when trying to start the web version of Earth, via Chrome, it says WebGL is not supported? But going to the web site shows Chrome successfully running WebGL. If I try to start Earth using Safari, it does start, but says its running an experimental version (of Earth?) and does not appear to be very stable.

Users report that everything they have tried to solve the problem has failed. This includes things like clearing cache, using safe mode, removing places, and even reinstalling the Google Earth Pro google e a r t h earth pro crashes after launch on mac book pro
I launched the repair tool and did all the procedures, including to delete my places. These I also deleted manually, without success. I also tried reinstalling several times. The software of the laptop is updated.

It opens the window of google earth and then while trying to open a pup-up in google earth it crashes.

Thank you in advance!

The issue was already escalated

A Google product expert confirmed that the reported issue was escalated to Google. For the moment, it only remains to wait for new information to emerge on the matter.

Thanks for this report Steve. There have been other reports of this, but I hadn’t realised there had been a security update for Catalina.

I’ll pass this on to Google.

We will update this article to keep you informed about all the developments on the situation. So, stay tuned with us.

Featured Image: Google Play

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