I would like to optimize dramaticaly one of my algorithm, i will try to explain it the best way that i can.

## The subject

We are in a 2D euclidian system at the time *t = 0*.
In this system there is two object : **O1** and **O2**.

**O1** and **O2** are respectively situated at the point **PA** and **PC**.

**O1** moves at a **constant and known** speed in direction of the point **PB**. The object will stop when it reach PB.

**O2** can move at a **constant and known** speed *different or not* of O1's in any direction. At the time 0, O2 has **no direction**, we will need to find one for it.

The knowns parameters:

- O1 : Position, direction, speed
- O2 : Position, speed

Here is a little diagram of the system.

We would like to find the point **PI** and the time **ti** for which : `Position of O1 at the time ti = Position of O2 at the time ti = PI`

. Then we will make the object O2 move to the point PI to get the **O2 direction**.

When the direction of O2 (the point PI) is chosen and both objects O1 and O2 are on the move, **the objects will never stop or wait** for each other.

In this case, the result would be something like this (PI is noted D on this picture).

## The algorithm

You can find the working algorithm written in JS at this jsfiddle, it is also a great way to understand the problem.

At this time i use a simple algorithm who works, but can take a lot of operations, i will get the best intersection time, and get the intersection position afterwards.

To get this time, i will check the position of O1 at a moment, and check if O2 could possibly go to this position at this time. If O2 could not reach the object in time, we will increase the time by 150%, however if O2 could cross the O1-B line at the time, we will decrease the time by 50%.

Eventually, after many approximations, we will find the perfect time where both objects could meet.

*PseudoCode*

```
function getOptimalIntersectionTime time
if distance between O1 and O2 at the time `time` < 1
return time
else if O2 could not reach the object O1 at the time `time`
return getOptimalIntersectionTime time * 1.5
else
return getOptimalIntersectionTime time * 0.5
```

## Why am I concern ?

My algorithm works, but in some case (e.g. the "Reverse Case" in the jsFiddle) it will take a large amount of calculus to find the best point.

In this jsFiddle, we are using little values for position (-1000 to 1000) and speed (1-200) but this algorithm is dramaticaly slower with bigger numbers.

I know that premature optimization is a bad idea, but I'm at the end of the project (which consists on databases insertions / selection and data analysis, including this algorithm called many many times) and this algorithm take up to 80% of the project system ressources in certain cases so an improvement could really improve the stability and the responsiveness of the system.

alwayspossible to pick some velocity vector for O2 that'll meet up with O1 at PI. – Alnitak Apr 27 '12 at 21:24the nearest point PI? nearest to PA, PB, or PC? – Islam Hassan Apr 27 '12 at 21:30