# Use Quaternions to compute yaw, pitch and roll from iphone?

I have seen many questions and articles mentioning that Quaternions can be used to derive better,accurate and stable yaw, pitch and roll readings from the iPhone rather than reading it's direct yaw, pitch and roll readings. But at the same time, I haven't seen any proper methods of implementing Quaternions in iPhone platform. As a beginner, It's really hard to know, How these Quaternions works and implementing them in a piece of code? (Sorry for not providing any code as i have no idea of how it works in xcode platform of apple)

So please be kind enough to provide an answer to my question that most of the users will benefit from it!

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You don't have to implement anything, the API provides the quaternion for you:

CMAttitude Class Reference, quaternion propery

I personally like rotation matrices better because I find them easier to understand and to work with.

As I am reading your question, I still have the impression that you somehow want yaw, pitch and roll. You have to use quaternions everywhere in your code to get rid of the problems yaw, pitch and roll cause.

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But how to access them continuously in a piece of code to compute yaw, pitch and roll ? –  sam Sep 7 '12 at 18:07
The minute you compute yaw, pitch and roll from a quaternion you will have the same problem as if you were using just yaw, pitch and roll. You have to use quaternions EVERYWHERE in your code and forget about yaw, pitch and roll. –  Ali Sep 7 '12 at 18:11
@Ali- Actually what is the best method of obtaining rate of change of angel from the device accurately? As we all know integrating gyroscope data is subjected to the problem of drift and accumulation of integration error, So what is the best practice to get a stable reading? :) –  sam Sep 7 '12 at 18:16
@sam I am confused at this point. What would you like to do? You would like to use these values for something, what is it? –  Ali Sep 7 '12 at 18:21
I want to track the continuous change of angel of the device to the greatest accuracy possible along y axis. Think like this, If you have a pendulum resting vertically to gravity. And when you move your device up, pendulum should move exactly the same angel it's moved by the user, But at the same time, if user move continuously for 10 seconds, It should log the exact angel variation with respect to the reference vertical position both in positive and negative directions! –  sam Sep 7 '12 at 18:31