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Anyone has any experience using accelerometer on a ship/vessel to detect whether the vessel is moving or stationary?

The difficult part is that I took some samples at 6Hz and found that all X/Y/Z axes show the accelerations going positive and negative. The pattern is exactly the same when the vessel is moving and stationary. I suppose these are caused by ocean waves.

Any ideas?

Thank you all for the suggestions.

The reason that I have to use an accelerometer to detect movements on a vessel is that my device (a custom embedded system) goes into sleep/hibernation most of the time to save power and it only wakes up to perform some tasks after it detected movements. GPS consumes too much power and therefore it can't be powered on all the time.

Actually I do not need to measure the velocity or position, all I need is to differentiate moving and stationary at sea. Accelerometer works fine on land, but not sea probably due to the random ocean waves.

I have also considered using a gyroscope, however, it is too expensive.

Any suggestions?

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My answer is still the same: no matter what you do, you will need the GPS, it is impossible to tell this from the accelerometer data alone. –  Ali Apr 24 '12 at 9:59
Still, GPS is the solution. Me too had a similar problem, tracking a container vehicle on road. As you said, GPS takes more power, so finally we came to a solution - we always kept the phone connected to car charger while tracking it. –  Vishnu Haridas Apr 24 '12 at 10:12

5 Answers 5

You can use GPS receiver to check whether the vessel is moving or stationary. Using GPS API, you can get the position of the vessel on earth, moving direction, and speed of the vessel.

A good tutorial on GPS tracking is here:

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Vishnu Haridas is right, gps is a better way...

in case you need your app on a device without a gps (as iPod touch) accelerometer is not the right hardware to use on a ship: as its name suggests, it register variations of velocity, not velocity. consider a ship constantly moving forward at 10 miles/hours, its variation of velocity is equal to 0, so accelerometer could give you just 0 (but waves of engine vibrations...)

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I have tried measuring engine vibrations (engine should have a higher frequency when the vessel is moving) to determine if the vessel is moving or stationary. However, it seems that the vibration is too little for the accelerometer to pick up. –  Wilson Apr 24 '12 at 7:12
of course... but as i said, the main problem is that a stationary ship has the same acceleration of a ship that is running with a constant velocity, so accelerometer can't help... –  meronix Apr 24 '12 at 16:20

I wrote an application to log flight times using the GPS. Events are detected based on the speed reported by the GPS plus some heuristics. E.g. block-off (plane quits parking and begins taxiing) events are detected when the speed exceeds a threshold (its configurable, 3kts work just fine). Similarly block-on (plane parks after landing and taxiing to the parking position) is detected by the speed falling below a threshold for some time. Here you could also use the position, but the speed works better (is less noisy). For wind correction / drift (irrelevant when taxiing but useful to detect landings and touch-and-go) the user can enter an estimate of wind direction and speed. This value is used for the correction of the speed reported by GPS. This all works just fine w/o using the acceleration sensors. I recommend to gibe the GPS a try. The only risk seems to be that the lower speeds involved when on a boat/vessel may result in a worse speed to noise ratio and of course drift is an aspect here. (But in my opinion that is also problematic when using the acceleration sensors because of swell.)

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It is impossible to tell from the accelerometer data alone whether the ship is moving with a constant speed or lain at anchor: the acceleration is zero in both cases.

Either use just the GPS or try sensor fusion (GPS + accelerometer) if you need better precision. Either way, you will need the GPS.

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Actually GPS doesn't consume that much power. The power consumption comes from applications using the GPS. You could write a light weight application that uses the GPS and have a good performance. I know I'm a day late and a dollar short, but just putting this here for posterity.

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GPS receivers require orders of magnitude more power than accelerometers. Example: GPS 56mA - Accelerometer 350uA. –  Andrew Medico Jul 15 '14 at 19:36
I wasn't comparing it to anything. Just saying that it doesn't consume as much power as people think on it's own. If you connect the phone to a power meter and measure the current drawn, you'll see the current consumed by having the GPS switched on, to be very small compared to the amount the display would with frequent screen refreshes. –  arTsmarT Jul 23 '14 at 19:21

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