Most GPS brands are built with OEM modules of few chipset manufacturers, and as far as I know, the "standard" interval between each NMEA sentence is of 1 second, so that for the worst case, with the speed of 250Km/h you would have the measurement effectively made just after 69,4m. Perhaps GPS products are not suited for telemetry applications like that. You could think about a hibrid solution, mixing either GPS and another quick-response sensor.
I meant, to use any kind of sensor with higher resolution ( tachometer, encoder ) to get the instantaneous speed, which could be used to interpolate measurements took from GPS.
I meant, to use any kind of sensor with higher resolution ( tachometer, encoder ) to get the instantaneous speed, which could be used to interpolate measurements took from GPS.
I meant, to use any kind of sensor with higher resolution ( tachometer, encoder ) to get the instantaneous speed, which could be used to interpolate measurements took from GPS.
① How to get the direction? because this idea will be benefit with distance only, for examble:
Suppose at (T1 = 1 s) the the reciver send the position , then at (T2 = 1.25 s): we will see the speed of the car at this interval (V) by the speedmeter, then we get the the distance between (T1) and (T2) by: d = (T2 - T1) * V ,then we adding the distance (d) to the first position to get the position at (T2) , Ok: if the car changes its direction between (T1) and (T2): then the second position we measured will be false.
② Is there any place/compney in the world that produce GPS reciver with an interval between each NMEA sentence less than 1 second?
I don't know any GPS chipset with less than 1 second interval between each sentence. Maybe you could solve that issue by using 2 or more modules working at interleaved intervals, but to be honest I consider this an odd solution.
If you want to take the instantaneous speed as you said before, you might be aware that will be required a lot of processing of the uC. Considering that some NMEA sentences have ~75 characters, at 10Hz it would issue something up to 750 serial interrupts per second.
If you want to take the instantaneous speed as you said before, you might be aware that will be required a lot of processing of the uC. Considering that some NMEA sentences have ~75 characters, at 10Hz it would issue something up to 750 serial interrupts per second.