With the VL53L0X, all the photons will be averaged and you get a distance somewhere in the middle.
Generally the average is waited toward the closest object as the light disperses as a square of the distance. But if the near object were barely in the FoV and the far object was reflective, you would get a number very near the far object.
If you want better, you can switch to the VL53L3CX or the VL53L4CX. These sensors use histograms. (But have identical footprints and shapes as the L0X. - The VL53L4CX does have a more narrow FoV.)
By using histograms you can resolve any targets that are more that 80cm seperated in distance.
(The histogram bins contain the number of photons received during that clock cycle.)
So someone sholder at 50cm and a wall at 150cm would appear as 2 separate objects.
The reason for the 80cm has to do with the clock speed and the 2ns pulse width.
If I were doing a student-based robot, I'd consider the VL53L4CD. It works the same way as your VL53L0X, but has a max distance of 1.3 meters and a more narrow (18 degree) FoV.
(And it really is good to that 1.3 meters.) And it's our least expensive sensor as well.
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