I'm getting data via BLE and I want to convert them into decimal values, however I suspect I do something wrong because value range appears to be incorrect

from BLE I receive characteristic.value

24ffa400 6d08fcff fffffbff 0d001500 5eff

which is constructed maily of IMU values.

when I try to convert the first two bytes, in this example 24ff which is accelerometer X axis value, I get a value from range 1000-30000 (I introduced some dynamic movement to the sensor to see how the value is changing).

This must be wrong since docs say that accelerometer scale is ±16G There are two more important information:

sequence of bytes in frame goes as follows: [LSB, MSB]

values are 16bit and utilizes two's complement

this is how I convert data into decimal value:

class func getAccelerometerData(value: NSData) -> [String] {

    let dataFromSensor = dataToSignedBytes8(value)
    let bytes:[Int8] = [dataFromSensor[1], dataFromSensor[0]]

    let u16 = UnsafePointer<Int16>(bytes).memory
    return([twosComplement(u16)])
}

class func twosComplement(num:Int16) -> String {
    var numm:UInt16 = 0
    if num < 0 {
        let a = Int(UInt16.max) + Int(num) + 1
        numm = UInt16(a)
    }
    else { return String(num, radix:10) }
    return String(numm, radix:10)
}

I suppose I should obtain values from range <-16:16> instead of huge values I mentioned above, what is wrong with my approach?

Thanks in advance

EDIT: Missing method implementation

class func dataToSignedBytes8(value : NSData) -> [Int8] {
    let count = value.length
    var array = [Int8](count: count, repeatedValue: 0)
    value.getBytes(&array, length:count * sizeof(Int8))
    return array
}
up vote 2 down vote accepted

Given some NSData,

let value = NSData(bytes: [0x24, 0xff, 0xa4, 0x00] as [UInt8], length: 4)
print(value) // <24ffa400>

you can retrieve the first two bytes in [LSB, MSB] order as a signed 16-bit integer with

let i16 = Int16(littleEndian: UnsafePointer<Int16>(data.bytes).memory)
print(i16) // -220

This number is in the range -32768 .. 32767 and must be scaled to the floating point range as per the specification of the device, for example:

let scaled = 16.0 * Double(i16)/32768.0
print(scaled) // -0.107421875

scaled is a Double and can be converted to a string with String(scaled), or using a NSNumberFormatter.

  • So I can omit twoComplement function right? Also should I pay attention to LSB and MSB order? now I have sth like this class func getAccelerometerData(value: NSData) -> Double { let dataFromSensor = dataToSignedBytes8(value) let bytes:[Int8] = [dataFromSensor[0], dataFromSensor[1]] let i16 = UnsafePointer<Int16>(bytes).memory return(16.0 * Double(i16)/32768.0) and appears to be working, could you validate the code? – DCDC Aug 18 '16 at 12:07
  • @DCDC: I don't know what your dataToSignedBytes8 does, that seems unnecessary, you can access the data directly as I demonstrated. Otherwise it looks correct. It assumes that Int16 uses a little-endian memory representation, which is the case for all current iOS devices. – Martin R Aug 18 '16 at 12:11
  • @DCDC: I have updated the code to make it byte-order safe! – Martin R Aug 18 '16 at 12:16
  • pretty sure it works now, but I prefer you to have a quick look at aforementioned method to see if everything is fine, please see my edited question – DCDC Aug 18 '16 at 12:19
  • @DCDC: Looks OK, the result should be the same as in my suggestion. – Martin R Aug 18 '16 at 12:21

Your Answer

 

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.