[Ovmsdev] Inaccurate car_parktime / car_time

Matt Beard OVMS smvo at mxf.org.uk
Mon Nov 11 16:50:25 HKT 2013


Can I suggest that the update from the SIM908 time has a sanity check such
that a time well outside the expected range is taken as a new starting time
for the updates. This will prevent an error that I have seen on some
charging posts where the clock gets updated during a charge (I suspect
after a reboot the first time a genuine time is received, which could be
several minutes after the reboot and after your charge starts) this can
give very strange times in the charger log. So, I would suggest a system
similar to the following:

1) First time through, record the SIM908 time in epoch seconds, and the
corresponding car_time
2) Next time through (60 seconds later) get the SIM908 time in epoch
seconds and subtract the stored value
3) If the difference is between 30 and 120, change car_time to
stored_car_time + diff
4) Store current SIM908 time in epoch seconds, and the newly corrected
car_time
5) goto 2

There is an issue with this in that the time can jump backwards a number of
seconds - which may break some code at some point!

A solution to this would be to update car_time if it moves forward, but if
it moves backwards do this by setting a "stall count" that prevents the
car_time being updated for that number of 1 second intervals. This could
safely be a byte as step 2 above ensures we can never move backwards more
than 30 seconds.

Matt Beard



On 11 November 2013 01:33, Mark Webb-Johnson <mark at webb-johnson.net> wrote:

>
> Tom, Michael,
>
> GPS time is extremely accurate, but once satellite coverage is lost, so is
> the time.
>
> GSM time is dependent on the carrier keeping their times accurate in their
> cell towers. In the past this was a problem, but not so much nowadays.
> However, if the GSM connectivity is lost, the clock in the SIM908 module we
> use keeps running - and that is a huge advantage over GPS. You can see this
> in my example, earlier in this email thread - the clock is shown as
> 10/10/10 00:02:51 even in a module without a SIM card or GSM antenna
> attached. I think the SIMCOM chip we use will be pretty accurate.
>
> Reflecting on this, I actually think the following approach would be 'good
> enough':
>
>
>    1. Use the LED interrupt to keep a track of 104.8576ms ticks per
>    interrupt, and increment car_time appropriately.
>
>    2. Use net.c polling to get the time from the GSM module. Convert it
>    to epoch seconds (hopefully not too hard, if we can find a simple algorithm
>    for it). If car_time and that differs, then adjust car_time to match but
>    ALSO adjust car_parktime by the same amount. This would be done once every
>    60 seconds when GSM is online.
>
>    3. Use a net_fnbits bit to control whether the above is done or not.
>    Remove all car_time code from vehicle modules that turn this on.
>
>
> The only tricky bit would be the epoch seconds function. We would need to
> convert a GSM date/time (like “10/10/10,00:02:51+00”) into UTC number of
> seconds since January 1st 1970. Or, maybe microchip C includes a gmtime()
> function? I haven't had a chance to check...
>
> Regards, Mark.
>
> On 11 Nov, 2013, at 2:47 am, Tom Saxton <tom at idleloop.com> wrote:
>
> I had the same thought, but GPS doesn’t work when the car is in a garage,
> an important case for a parking timer. Cell coverage seems to be much more
> penetrating than GPS.
>
>    Tom
>
> From: Michael Jochum <mikeljo at me.com>
> Reply-To: OVMS Developers <ovmsdev at lists.teslaclub.hk>
> Date: Sunday, November 10, 2013 at 10:30 AM
> To: OVMS Developers <ovmsdev at lists.teslaclub.hk>
> Subject: Re: [Ovmsdev] Inaccurate car_parktime / car_time
>
> Hi,
>
> what do you think about the GPS Clock?
>
> Bye
> Michael
>
>
> Am 10.11.2013 um 14:01 schrieb Mark Webb-Johnson <mark at webb-johnson.net>:
>
> Our approach at the moment is very kludgy and not at all accurate.
>
> For the cars without internal support for a timer, we increment car_time
> on a ticker() call, which is approximately once per second, but not in
> delay loops. It is really just intended to give a very approximate 1 second
> ticker, not a clock-accurate timer.
>
> In the PIC, we have four hardware-level timers. Currently:
>  - Timer 0: Used to drive the main event loop
>  - Timer 1: Interrupt-driven, and used for LED blinking
>  - Timer 2: Used for short delays
>  - Timer 3: Unused
>
> I suspect that a better approach would be the Timer 1 we currently have.
> That runs off the FOSC/4 (20Mhz/4 = 5MHz) and uses a 1:8 pre-scaler, so the
> internal timer works at 625,000 ticks per second. With a 16 bit value, it
> will overflow (interrupt) 9.53674 times per second. By my calculations,
> that means each ‘tick’ is approximately 104.8576ms. It would be fairly
> trivial to keep a counter there, and drive car_time from that. I am just
> not sure how accurate that oscillator is (particularly as temperature
> changes) - but I suspect that it would be good enough for what we need.
>
> Alternatively, or additionally, the GSM modem has a clock which can be
> polled by AT+CCLK. It would not be hard to do that in the net.c code
> (probably where we normally poll for status once a minute) and adjust
> car_time as necessary there. For example, changing net.c:
>
> rom char NET_CREG_CIPSTATUS[] = "AT+CREG?;+CIPSTATUS;+CSQ\r";
>
>
> to:
>
> rom char NET_CREG_CIPSTATUS[] = "AT+CREG?;+CSQ;+CCLK?;+CIPSTATUS\r";
>
>
> Produces:
>
> +CREG: 1,0
> +CSQ: 0,0
> +CCLK: “10/10/10,00:02:51+00”
> ERROR
>
>
> (for my disconnected state).
>
> The fact that the time is wrong is irrelevant. All we’d need it to do is
> look at the GSM module time and look for drift against car_time. We would
> need to protect against large changes (as the module gets a GSM connection,
> there may be a very large jump as the timezone and other things get set
> correctly).
>
> The only other ‘trick’ here is that this function would need to be
> controlled by a vehicle feature bit - some cars don’t need it.
>
> The coding should not be too hard, but the testing might take some work.
>
> Regards, Mark.
>
> On 7 Nov, 2013, at 10:17 pm, Håkon Markussen <hakon.markussen at gmail.com>
> wrote:
>
> Hi,
>
> The car_time is incremented in the state_ticker1 (approx once every
> second).
> However I've noticed that this is extremely inacurate
>
> Today I started a stopwatch when parking the car, and compared it to the
> car_parktime in the iOS app:
>  - Stopwatch: 8:00 (eight hours)
>  - car_parktime: 6:01 (six hours and one minute
> A difference of 1 hour and 59 minutes during 8 hours!
>
> I wonder if this could be done in an other way?
> E.g. by pulling the time from the GPS?
>
> Best regards.
> Håkon Markussen
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