# How do I predict the future position of a moving object? [duplicate]

This question already has an answer here:

I have asked this question previously and it was closed due to it not being a programming question, this is entirely as I worded it wrong. I would like this to implemented into java. I am creating a little game and I have a photon torpedo which is being fired from a ship towards a target. Now as the speed of the torpedo is slow the ship will never hit any targets if they're moving and I want to fix this. I have drew up multiple theories and mapped out lots of mathematical stuff to find out the best way to accomplish this and in the end I deduced the following:

1. I find the time it takes for the photon torpedo to get to the target.
2. I find how far the target will have traveled in the time it takes for the torpedo to arrive.
3. I then find the distance between the new position of the target and the original ship.
4. this then gives me the opportunity to use the Cosine rule (SSS) to find out the trajectory at which the bullet needs to be fired to have a much higher chance of hitting.

Here is a digram:

Now the only problem that I need to rotate line a to the correct orientation as by default it's parallel to line c which messes up the entire equation. Can anyone help with this? And also if you can think of a better way to find the new position suggestions are very welcome. My java game entity mechanic works as follows:

1. Each entity has two Vectors which control movement. Position and Velocity. However, velocity is not tracked entirely properly as instead of it being a speed and a direction, to make things easier it's an xSpeed and a ySpeed.
2. The entities are all updates once per tick and the ship which shoots the torpedo must calculate the future position in this one tick and not over multiple ticks.

I ask this question not to be closed again, because this time I really need the answer to be implemented into Java.

This is the math i've tried so far:

``````        double dis = level.distanceBetween(photonTargetTop, this);

double speed = 5;

double time = dis / speed;

double d1 = photonTargetTop.velocity.x * time;
double d2 = photonTargetTop.velocity.y * time;

double dis2 = level.distanceBetween(this, photonTargetTop.pos.x + d1, photonTargetTop.pos.y + d2);

double dis3 = level.distanceBetween(photonTargetTop, photonTargetTop.pos.x + d1, photonTargetTop.pos.y + d2);

double cosAngle = Math.pow(dis2, 2) + Math.pow(dis, 2) - Math.pow(dis3, 2) / 2 * dis2 * dis;

double angle = Math.acos(cosAngle);

EntityPhoton p = new EntityPhoton(this, level);
p.rotation = angle;
level.addEntity(p, pos);
``````
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This is not a code factory. Please read the FAQ at the top. If you make any attempt to do this, people would be happy to help you. –  thatidiotguy Feb 6 '13 at 20:51
Uhh.. I don't want someone to code it for me entirely. Just an understanding of how said maths can be done and implemented with my game engine. –  Shaun Wild Feb 6 '13 at 20:52
There's no need to be hostile. This is a physics question; @BinaryTox1n and the other commenters on your previously closed question suggested checking out the Physics StackExchange, as your question would be more relevant there. Just name-dropping Java doesn't suddenly make this a good match for StackOverflow. –  Jim Dagg Feb 6 '13 at 20:59
@ShaunWild I think the suggestion is, get the theory. Once you have the theory, apply it back to Java. If you have problems at that stage, then ask us here. –  MadProgrammer Feb 6 '13 at 21:13
I think you should at least make some attempt at coding your maths into java, and if it doesn't work, post some code here and people will be willing to help. To get you started, Java has the usual set of trig functions (sin,cos,tan etc) which you'll need. See docs.oracle.com/javase/6/docs/api/java/lang/Math.html. –  NickJ Feb 6 '13 at 21:14
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## marked as duplicate by MadProgrammer, SWeko, Paulius Matulionis, woodchips, Steven PennyFeb 7 '13 at 0:33

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

## 1 Answer

Let's assume the target ship has no acceleration, meaning that it's speed and direction is not changing.

Let's also assume that once fired, your torpedo has no acceleration. And it always goes at constant speed.

Let's also call (0,0) the point where your torpedo is fired.

The ship describes a straight line. Choose a point on this line (if the ship is following a course that does not go through (0,0) you can find the closest point to the central position with some geometry that you can look up on wikipedia).

Once you have chosen the position where you want to hit the enemy ship, you know the distance between (0,0) and that position, and given that the speed of the torpedo is always the same, you can also know when to fire the torpedo. Then you must also find the direction, meaning the values of speed to give on x and y, but that's not so difficult.

In general the problem is a system with multiple solutions, so presuming that the torpedo is faster than the target, there are infinite points where you can hit it, so you must use some heuristic to choose a point that's convenient to you.

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I see what you're getting at, but I do not understand how time can be a variable? –  Shaun Wild Feb 6 '13 at 21:29
OKay i was working on the assumption that we can choose when to shoot... Meaning that we can wait instead of fire at t=0 and just decide where to fire to. –  LtWorf Feb 6 '13 at 21:35
Is there any form of direct communication we can do where we can problem solve this together? –  Shaun Wild Feb 6 '13 at 21:36
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