# Calculate G-Force,speed and Distance

Can any one guide me to do an app like this link

i.e How to calculate G-Force,Speed and Distance.

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Do you know how to get data from sensors of iphone? –  huseyin tugrul buyukisik Sep 12 '12 at 8:35
You mean acceleration? If not Please let me know –  TENSRI Sep 12 '12 at 8:37
the acceleration `a` is coming from the accelerometer of the device, so, the velocity `v` comes from `v = d / t;`, the acceleration is `a = d / pow (t, 2);`, so the distance `d` comes from `d = a * pow(t, 2);` or `d = v * t`, and where the time `t` come from for the current acceleration should be obvious, I guess. it is just elementary physics. –  holex Sep 12 '12 at 9:37
How is this related to Xcode? –  user529758 Sep 12 '12 at 9:44
@H2CO3, don't worry, it is correct, the current distance is `a * t ^ 2`, it is that distance what you can go with the constant acceleration during the time. a quick example to understand this: the gravity force is `9.81`, when you release anything the distance form the start point after `1` sec is `9.81` meters, the distance from the start point after 2 secs is `39.24` meters. you can use this formula for every interval until the acceleration is same. (if it is same for a hundredth secs only the distance is with that acceleration is `9.81 * 0.01 ^ 2 = 0.98 mm` but show me it is not true. –  holex Sep 12 '12 at 10:29

g-force can be calculated as a length of the vector given by accelerometer (Core Motion framework, see `CMAccelerometerData` for details). As for distance & speed you can get them from GPS/GLONASS (Core Location framework, see `CLLocation` class)

Don't try to calculate distance and speed from acceleration - it's impossible to do this reliably.

For example to calculate speed you have to know acceleration of the car. Given `Aa` is a measurements from accelerometer, car's own acceleration would be `Ac = Aa - Ga` where `Ga` is a gravity acceleration vector in car's coordinates. To know this value one can use CoreMotion services (if gyro is present) or apply low-pass filter to extract gravity vector from accelerometer measurements.

Accelerometers used in iDevices are not very precise. Following integration will accumulate measurement errors steadily. Filters and such are second source of errors.

Now we can calculate our speed:

`V(T[n]) = Ac[n] * dt[n] + V(T[n-1])`

where `V(T[n-1])` is the previous speed of the car. To determine first value (`V(T[0])`) we have to either force user to stop her car (to ensure zero speed, bad) or force her to input this value (unbelievably bad).

Distance is calculated by the same process

`S(T[n]) = V(T[n]) * dt[n] + S(T[n-1])`

which means already extremely imprecise speed value is now integrated over time. Happy, happy, joy, joy. BTW you can enjoy the results without coding all this - just read user comments for the app mentioned by OP.

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1. It's not the accelerometer vector - the accelerometer is an electronic device, not a vector. What you meant probably is the acceleration vector. 2. G-force is not the length of that vector - it's the mass of a body multiplied by the gravitational acceleration (avg. 9.806 m/s^2). 3. Did you know that speed = aceleration * time and distance = acceleration / 2 * time squared? Highschool physhics... –  user529758 Sep 12 '12 at 9:48
@H2CO3 1) my bad, I meant accelerometer's vector (vector provided by accelerometer), not a native speaker, sorry. 2) read en.wikipedia.org/wiki/G-force before enlightening us unwashed masses - g-force is a scalar (acceleration normalized by 9.81) 3) Nice try for a school lab. But we are talking about real life application in real life conditions. I can elaborate if you are genuinely interested. –  hoha Sep 12 '12 at 9:58
yes please. Why do you think that CoreLocation would be more accurate for such small distances than using these formulæ? (By the way, not being a native English speaker is not an excuse, sorry. I also make mistakes myself, but that's why I generally re-read my questions and answers before and after posting them, editing them as needed.) –  user529758 Sep 12 '12 at 10:03
Because it is using global positioning services which provide a least some accuracy. Integrating filtered-out acceleration of the car over the time (twice!) doesn't even deserve word 'accuracy'. As for English - I didn't even think about excuses, just said I'm sorry. –  hoha Sep 12 '12 at 10:09
@srinaidu yes, g-force of a resting object is 1. –  hoha Sep 12 '12 at 10:22