Home to the astronauts, the International Space Station is one of the largest aircraft that orbit Earth and control all the internal and external sensors that provide data about Earth. It consists of powerful data infrastructure that supports earth monitoring and helps astronauts collect valuable insights into our planets, as well as, the surrounding asteroids. The international space station also happens to be the only largest aircraft with the crew in it. It offers a myriad of opportunities to astronauts when it comes to space data. Launched in 1998, the space station was first acquired by the human crew in 2000.
With the help of the GIS (geographic information system), the international space station collects a large volume of data that helps us prepare for the disasters in advance. The question is what sets this unit apart from other remote sensing satellites orbiting Earth? There are plenty of satellites installed in space, offering a clear view of different planets in 3D quality. The sensors on these satellites also capture the pictures from different angles.
Crystal Clear Images with Different Lighting Conditions
International space station does not revolve around the Earth in the sunsynchronous format. It clearly means that the space station takes a spin around the planet in different lighting conditions and covers locations between 52 degrees south and north. Other remote sensing satellites orbit around the sunsynchronous platforms, which means they revolve around the earth in the same manner and at the same time every day.
Since they cover space at the same hour every day, these satellites do not give pictures of the planet under different lighting conditions. The space station, on the other hand, does not have a consistent revolving pattern.
How is it Different from other Remote Sensor Devices?
Plus, the human intervention is quite helpful. Unlike the robot-controlled satellites, the space station has a human crew that’s capable of managing real-time events quickly and efficiently without having to wait for a new program to be launched. The technology comes in handy when it comes to capturing images of natural disasters that can cause significant damage to Earth and the surrounding planets.
For example, the human crew can click the real-time photos of the planet to get a better idea of the space and detect any natural disaster before it wreaks havoc on earth. In simple words, it is now possible for astronauts and scientists to identify an upcoming earthquake, tsunami, flood, and other natural disasters before they emerge.
Robotic sensors click photos without considering the quality or the atmosphere. The biggest advantage of having a human crew in the space station is that you never have to worry about losing the picture quality due to a cloudy atmosphere or inconsistent illumination. With the help of GIS technology, the international space station is the biggest invention that helps scientists stay up-to-date with the latest space trends and predict any upcoming disasters ahead of time.