![]() ![]() Each dot represents the end point of a drive and is labeled with the day, or sol, on Mars, that the rover stopped. transferring a bearing on a map to a destination in the landscape. A high-resolution Digital Elevation Model was created from the images to provide critical information for rover drivers, who need to know how steep the hills are as they plan a path forward through this rocky terrain.Įngineers created this experience with software used by the mission team who decide where Perseverance will explore, and how to get there. Some of the features you can find in the project are: Display user current location on the map. Finding your campsite, a spectacular viewpoint or your way back out of the wilderness. ![]() Some color processing has been applied to both maps to highlight surface features. The high-resolution base map was created with images from the HiRISE camera on NASA’s Mars Reconnaissance Orbiter, while the broader color base map is from the European Space Agency Mars Express High Resolution Stereo camera (the original image can be found here). This uses a file from Displaying Live Location Points & Tracks with JavaScript & Google Maps and PubNub. This map is composed of two layers: a high-resolution color map covering the initial exploration area inside Jezero Crater, and another true-color Northeast Syrtis regional map. Try Google Maps Platform Unlock access to real world data and insights with a monthly 200 Google Maps Platform credit. The goal of the mission is to seek signs of ancient life and collect samples of rock and regolith (broken rock and dust) for possible return to Earth. Scroll and pan around this map to see the latest location and traverse path for the Mars Perseverance rover at Jezero Crater. Proximity Maps describe the distance 'to' or 'from' selected map features. ![]()
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