Wow. Can you infer vessel speed by assuming the run always concluded at the start position? The bottom line doesn’t meet back at the top line because the ship and runner were going in opposite directions.
You don’t need that assumption. Your assumption can just be “the person and vessel don’t diverge significantly over time”.
Then, if you treat velocity as a vector and compute the average velocity vector over time, you’ll have a pretty close estimation to the vessel’s velocity vector.
After all, if those two average vectors (vessel’s and person’s) were to differ much, they would end up in different locations.
Wow. Can you infer vessel speed by assuming the run always concluded at the start position? The bottom line doesn’t meet back at the top line because the ship and runner were going in opposite directions.
You don’t need that assumption. Your assumption can just be “the person and vessel don’t diverge significantly over time”.
Then, if you treat velocity as a vector and compute the average velocity vector over time, you’ll have a pretty close estimation to the vessel’s velocity vector.
After all, if those two average vectors (vessel’s and person’s) were to differ much, they would end up in different locations.