At some point between March 2010 and may 2012, a meteor crossed the sky on Mars, where it broke into pieces and fell on the surface of the red planet. The resulting crater is smaller, 13 feet in diameter. The smaller the surface features of the planet, the harder it will be to find it from the Mars Orbiter. Now, scientists have discovered the crater for the first time using artificial intelligence and machine learning. Planetary scientists say the use of artificial intelligence in this fine astronomical study is a milestone. Artificial intelligence researchers from NASA’s Jet Propulsion Laboratory jointly developed machine learning tools to discover craters. Researchers hope that new AI will save time and increase discovery. The typical method for scientists to find such craters is to spend hours a day studying images taken by Mars Reconnaissance orbiters and looking for surface changes. Scientists who study Mars have found more than 1000 new craters in their 14-year orbit, relying on data from Mars Reconnaissance orbiters. In the above figure, only the explosion traces around the impact are prominent, and individual craters cannot be seen. The next step is to use a high-resolution imaging science laboratory called HiRISE to observe the area. The instrument is powerful and can see as detailed details as the footprints left by the rover "e; curiosity. The researchers searched for the surface phenomenon manually by photo search, and it took about 40 minutes to scan a picture of the context camera. To speed up the process, the researchers created a tool called the automatic fresh impact pit classifier. Training the classifier requires researchers to provide 6830 images before and after events, including those previously identified by HiRISE. It takes 40 minutes for humans to analyze an image, while AI tools take only five seconds. Although classifier has all computational capabilities, researchers point out, it still requires human beings to check their work. After 12 years, “world class Super project” Shantou Bay Tunnel ushers in a historic breakthrough today