Difference between revisions of "User:Xor/Better MEA formula"

From Robowiki
Jump to navigation Jump to search
m (fix)
m (fix)
 
(13 intermediate revisions by the same user not shown)
Line 1: Line 1:
 +
After all, I think the traditional MEA is theoretically correct. And I have a proof that is too large to fit in the margin ;).
 +
 +
----
 +
 +
 +
It seems that I made a mistake in previous calculation.
 +
 +
Correct calculation —
 +
 +
Consider a situation when you move orbital to the source of the wave with constant retreat angle (therefore constant lateral velocity and retreat velocity) —
 +
 +
[[File:IntegralBetterMEA.png]]
 +
 
[[File:BetterMEABulletSpeed11.png]]
 
[[File:BetterMEABulletSpeed11.png]]
 +
 +
[[File:BetterMEAResultBulletSpeed11.png]]
 +
 +
where x is retreat velocity (the negative of advancing velocity)
 +
 +
However this formula is not greater than the traditional one ;/
 +
 +
Sorry guys.
 +
 +
 +
Anyway, unlike traditional MEA which you can use for only one wave — this formula is capable of being used to maximize escape angle of every wave. Therefore it is still better — useful for wave surfers.
 +
 +
The best retreat angle (for power 3.0 bullet, considering only MEA) is — 1.152871236rad. (where moving away directly is 0rad)
 +
 +
[[File:BetterMEABulletSpeed19_7.png]]
 +
 +
[[File:BetterMEAResultBulletSpeed19_7.png]]
 +
 +
And for 19.7 wave speed — the result is mea = 0.414994rad, while the traditional one is 0.418172793rad. Pretty close though? (0.1821°) And you can do that for every wave! (until you hit the wall ;) )
 +
 +
The best retreat angle for power 0.1 bullet (considering only MEA) is 1.360194211rad. (where moving away directly is 0rad)

Latest revision as of 10:15, 18 September 2017

After all, I think the traditional MEA is theoretically correct. And I have a proof that is too large to fit in the margin ;).



It seems that I made a mistake in previous calculation.

Correct calculation —

Consider a situation when you move orbital to the source of the wave with constant retreat angle (therefore constant lateral velocity and retreat velocity) —

IntegralBetterMEA.png

BetterMEABulletSpeed11.png

BetterMEAResultBulletSpeed11.png

where x is retreat velocity (the negative of advancing velocity)

However this formula is not greater than the traditional one ;/

Sorry guys.


Anyway, unlike traditional MEA which you can use for only one wave — this formula is capable of being used to maximize escape angle of every wave. Therefore it is still better — useful for wave surfers.

The best retreat angle (for power 3.0 bullet, considering only MEA) is — 1.152871236rad. (where moving away directly is 0rad)

BetterMEABulletSpeed19 7.png

BetterMEAResultBulletSpeed19 7.png

And for 19.7 wave speed — the result is mea = 0.414994rad, while the traditional one is 0.418172793rad. Pretty close though? (0.1821°) And you can do that for every wave! (until you hit the wall ;) )

The best retreat angle for power 0.1 bullet (considering only MEA) is 1.360194211rad. (where moving away directly is 0rad)