A map of China's Chang'e-4 mission's landing site on the far side of the moon based on data gathered during the spacecraft's descent. (Image credit: NAOC/National Astronomical Observatories of Chinese Academy of Sciences)

Landing on the moon takes only minutes , but analyzing that process afterward takes much longer.

A team of Chinese scientists has just completed such an analysis for the landing of Chang'e-4 , which touched down on the moon in January. The mission was the first successful landing on the far side of the moon, where spacecraft are unable to communicate directly with humans back on Earth.

"It's of great significance to accurately reconstruct the landing trajectory and determine the location of the landing site after a safe landing," Jianjun Liu, a scientist at the Key Laboratory of Lunar and Deep Space Exploration at the National Astronomical Observatories of Chinese Academy of Sciences, said in a statement . "We can use this information as landmarks and to service the study of lunar farside control points, high-precision lunar mapping, and future lunar missions," added Liu, who co-authored the new study.

Related: Chang'e 4 in Pictures: China's Mission to the Moon's Far Side

Image 1 of 4 The Yutu 2-rover, as seen by the Chang'e 4 lander. (Image credit: CNSA) Image 2 of 4 China's Chang’e-4 lander on the lunar far side, as observed by the mission's Yutu 2 rover. (Image credit: CNSA/CLEP) Image 3 of 4 The Yutu-2 rover rolls away from the Chang'e 4 lander shortly after the mission's historic Jan. 3 touchdown on the moon's far side. (Image credit: CNSA/CLEP) Image 4 of 4 Looking down on the Chang'e-4 landing site; lander is just beyond tip of large arrow, rover at tip of small arrow. Image is 468 meters (1535 feet) across, 2x enlargement, LROC M1303619844LR. (Image credit: NASA/GSFC/Arizona State University)

As the spacecraft landed, its cameras snapped images of the scenery, which it sent to the Queqiao relay satellite that is orbiting the moon to provide communications between the Chang'e-4 spacecraft and Earth.

The team consulted 180 landing camera images, each separated by 1 second of the landing sequence, plus additional images taken by the spacecraft's navigation camera and orbital data gathered by Chang'e-2, a mission that China launched to the moon in 2010.

By comparing the terrain visible in each successive image, the Chang'e-4 personnel could track the spacecraft's route down to the surface . They learned that, as seen from above, the spacecraft made a small loop relatively early in its descent phase, a few miles (or kilometers) above the surface.

The spacecraft also paused for 13 seconds at an altitude of 325 feet (99 meters), giving Chang'e-4 time to evaluate its location and nearby hazards. After studying the area, the vehicle made a few adjustments to its position, then slowly descended to the surface.

The research also confirmed that the robot touched down at 177.5991 degrees east longitude and 45.4446 degrees south latitude. That precise location will help scientists build a more accurate picture of the terrain around the vehicle, including that explored by the Yutu-2 rover that Chang'e-4 brought to the moon.

And the Chang'e-4 lander itself won't be moving anytime soon. Now that scientists have a precise location for the lander, future lunar explorers can use the robot as a landmark to the moon's far side.

The research is described in a paper published Tuesday (Sept. 24) in the journal Nature Communications.