Is the Curiosity rover equipped with motion detectors?












14














On Earth, wild life cameras are sometimes equipped with motion detectors to record rare species automatically.



Could they not be applied in the case of Mars too ?



Is Curiosity not equipped with motion detectors to be able to record moving objects like boulders or dust devils automatically ?

Even shadows and meteorites ?



And if not, would that not be a good idea for the Mars 2020 mission ?










share|improve this question




















  • 4




    Sure, it could, but why? What might be the scientific benefit of such a sensor? Remember: every ounce of a payload is precious and anything that doesn’t bring significant benefit is a waste.
    – Paul
    Dec 10 '18 at 14:40












  • @Paul With such sensors it could record (unexpected) events or objects like meteorites, falling rock, dust devils and maybe things we would never expect beforehand.
    – Conelisinspace
    Dec 10 '18 at 15:06






  • 1




    If the Opportunity rover had motion detectors we might know a bit more about how this rock appeared "from nowhere" 12 days after a picture was taken of the same area.
    – Fred
    Dec 11 '18 at 16:29












  • @Fred "Mysterious doughnut" ! NASA thinks it may have been flipped upside down when a wheel dislodged it. Good to know it has high concentrations of sulfur and magnesium !
    – Conelisinspace
    Dec 11 '18 at 18:41


















14














On Earth, wild life cameras are sometimes equipped with motion detectors to record rare species automatically.



Could they not be applied in the case of Mars too ?



Is Curiosity not equipped with motion detectors to be able to record moving objects like boulders or dust devils automatically ?

Even shadows and meteorites ?



And if not, would that not be a good idea for the Mars 2020 mission ?










share|improve this question




















  • 4




    Sure, it could, but why? What might be the scientific benefit of such a sensor? Remember: every ounce of a payload is precious and anything that doesn’t bring significant benefit is a waste.
    – Paul
    Dec 10 '18 at 14:40












  • @Paul With such sensors it could record (unexpected) events or objects like meteorites, falling rock, dust devils and maybe things we would never expect beforehand.
    – Conelisinspace
    Dec 10 '18 at 15:06






  • 1




    If the Opportunity rover had motion detectors we might know a bit more about how this rock appeared "from nowhere" 12 days after a picture was taken of the same area.
    – Fred
    Dec 11 '18 at 16:29












  • @Fred "Mysterious doughnut" ! NASA thinks it may have been flipped upside down when a wheel dislodged it. Good to know it has high concentrations of sulfur and magnesium !
    – Conelisinspace
    Dec 11 '18 at 18:41
















14












14








14


3





On Earth, wild life cameras are sometimes equipped with motion detectors to record rare species automatically.



Could they not be applied in the case of Mars too ?



Is Curiosity not equipped with motion detectors to be able to record moving objects like boulders or dust devils automatically ?

Even shadows and meteorites ?



And if not, would that not be a good idea for the Mars 2020 mission ?










share|improve this question















On Earth, wild life cameras are sometimes equipped with motion detectors to record rare species automatically.



Could they not be applied in the case of Mars too ?



Is Curiosity not equipped with motion detectors to be able to record moving objects like boulders or dust devils automatically ?

Even shadows and meteorites ?



And if not, would that not be a good idea for the Mars 2020 mission ?







mars curiosity camera






share|improve this question















share|improve this question













share|improve this question




share|improve this question








edited Dec 12 '18 at 9:31

























asked Dec 10 '18 at 14:11









Conelisinspace

4851638




4851638








  • 4




    Sure, it could, but why? What might be the scientific benefit of such a sensor? Remember: every ounce of a payload is precious and anything that doesn’t bring significant benefit is a waste.
    – Paul
    Dec 10 '18 at 14:40












  • @Paul With such sensors it could record (unexpected) events or objects like meteorites, falling rock, dust devils and maybe things we would never expect beforehand.
    – Conelisinspace
    Dec 10 '18 at 15:06






  • 1




    If the Opportunity rover had motion detectors we might know a bit more about how this rock appeared "from nowhere" 12 days after a picture was taken of the same area.
    – Fred
    Dec 11 '18 at 16:29












  • @Fred "Mysterious doughnut" ! NASA thinks it may have been flipped upside down when a wheel dislodged it. Good to know it has high concentrations of sulfur and magnesium !
    – Conelisinspace
    Dec 11 '18 at 18:41
















  • 4




    Sure, it could, but why? What might be the scientific benefit of such a sensor? Remember: every ounce of a payload is precious and anything that doesn’t bring significant benefit is a waste.
    – Paul
    Dec 10 '18 at 14:40












  • @Paul With such sensors it could record (unexpected) events or objects like meteorites, falling rock, dust devils and maybe things we would never expect beforehand.
    – Conelisinspace
    Dec 10 '18 at 15:06






  • 1




    If the Opportunity rover had motion detectors we might know a bit more about how this rock appeared "from nowhere" 12 days after a picture was taken of the same area.
    – Fred
    Dec 11 '18 at 16:29












  • @Fred "Mysterious doughnut" ! NASA thinks it may have been flipped upside down when a wheel dislodged it. Good to know it has high concentrations of sulfur and magnesium !
    – Conelisinspace
    Dec 11 '18 at 18:41










4




4




Sure, it could, but why? What might be the scientific benefit of such a sensor? Remember: every ounce of a payload is precious and anything that doesn’t bring significant benefit is a waste.
– Paul
Dec 10 '18 at 14:40






Sure, it could, but why? What might be the scientific benefit of such a sensor? Remember: every ounce of a payload is precious and anything that doesn’t bring significant benefit is a waste.
– Paul
Dec 10 '18 at 14:40














@Paul With such sensors it could record (unexpected) events or objects like meteorites, falling rock, dust devils and maybe things we would never expect beforehand.
– Conelisinspace
Dec 10 '18 at 15:06




@Paul With such sensors it could record (unexpected) events or objects like meteorites, falling rock, dust devils and maybe things we would never expect beforehand.
– Conelisinspace
Dec 10 '18 at 15:06




1




1




If the Opportunity rover had motion detectors we might know a bit more about how this rock appeared "from nowhere" 12 days after a picture was taken of the same area.
– Fred
Dec 11 '18 at 16:29






If the Opportunity rover had motion detectors we might know a bit more about how this rock appeared "from nowhere" 12 days after a picture was taken of the same area.
– Fred
Dec 11 '18 at 16:29














@Fred "Mysterious doughnut" ! NASA thinks it may have been flipped upside down when a wheel dislodged it. Good to know it has high concentrations of sulfur and magnesium !
– Conelisinspace
Dec 11 '18 at 18:41






@Fred "Mysterious doughnut" ! NASA thinks it may have been flipped upside down when a wheel dislodged it. Good to know it has high concentrations of sulfur and magnesium !
– Conelisinspace
Dec 11 '18 at 18:41












2 Answers
2






active

oldest

votes


















24














Most conventional motion detectors wouldn't work well on Mars.




  • PIR: Usually only works well with warm bodies such as humans and animals. Would probably never trigger on Mars


  • Ultrasonic: Due to the extremely low pressure on Mars any acoustic sensing through the atmosphere would be greatly hindered. These sensors usually only pick up on very large, perpendicularly reflective objects. Such a sensor also has a very short range and would also never trigger on Mars (unless the rovers arm swings past the sensor)



A radio-based motion detector would work in principle but there's basically nothing that moves on Mars with any real mass. Rocks only really move on geological timescales and the only thing that would ever move on the surface near the rover is a dust devil or other wind activity (the rover would want to be far away from regions where landslides are possibilities).



This however leaves us with one sensor on the list, "video camera software". The Curiosity rover currently has 17 cameras and it takes lots of pictures that can be compared with each other to detect motion. For example, here is a "video" from Curiosity recording a dust devil moving across the surface:



Dust devil on mars



Summary: Motion detection is a software feature which doesn't require special hardware to work, it just needs the already existing cameras.






share|improve this answer



















  • 3




    very nice answer! "...there's basically nothing that moves on Mars with any real mass. Rocks only really move on geological timescales..." check Tall boulder rolls down martian hill, lands upright and also How to use this Google Mars viewer to find this Martian landslide event? but yes, these are pretty rare ;-)
    – uhoh
    Dec 10 '18 at 15:43






  • 4




    "nothing that moves on Mars with any real mass." -- that we know of :)
    – Barmar
    Dec 10 '18 at 19:37






  • 1




    Well, the whole point of such a scientific instrument would be to confirm or deny your assumption that "Rocks only really move on geological timescales and the only thing that would ever move on the surface near the rover is a dust devil or other wind activity (the rover would want to be far away from regions where landslides are possibilities)". But I do of course agree that such a mission would be neither economical nor particularly useful in all likelihood.
    – Lightness Races in Orbit
    Dec 11 '18 at 10:54








  • 2




    Done by software on board. That's how they catch the dust devils. Otherwise it would just be incredible luck. This software was first deployed on the Mars Exploration Rovers in 2007. Also used to catch clouds.
    – Mark Adler
    Dec 12 '18 at 5:41








  • 1




    InSight adds "seismic detector" to the mix. Once it's deployed, the seismometer will detect anything with any serious mass that does move (like a landslide, a Martian walking past or a meteorite impact ).
    – Steve Linton
    Dec 12 '18 at 11:19



















1














So, the other answer establishes the least-disruptive motion sensor is using motion analysis software on the camera feeds.



Doing the processing on the ground is easy enough, but we don't receive enough images for this. Curiosity does not repeatedly image the same scene. If you want to do that, the amount of transmitted data goes up, and in another question we've seen there's not much room to do that.



So the question becomes, can this be done in a rover's onboard systems?



Apart from processing power, there is an electrical power issue. The rover's systems draw more power than the RTG supplies, so the rover has to hibernate much of the time to recharge its batteries. This limits motion detection to the times the rover is active anyway, and that time is spent traveling or operating the instruments. It may be possible to take some extra pictures during instrument operations and run a comparison on them.






share|improve this answer





















  • With a CCD electrical charges are converted into digital values in memory. This CCD could be in an active state all day (and night?) Could not software be designed to registrate an image in memory only if one or a few pixels from the CCD differ from the last stored image ? That could save a lot of memory and power ?
    – Conelisinspace
    Dec 12 '18 at 11:35













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2 Answers
2






active

oldest

votes








2 Answers
2






active

oldest

votes









active

oldest

votes






active

oldest

votes









24














Most conventional motion detectors wouldn't work well on Mars.




  • PIR: Usually only works well with warm bodies such as humans and animals. Would probably never trigger on Mars


  • Ultrasonic: Due to the extremely low pressure on Mars any acoustic sensing through the atmosphere would be greatly hindered. These sensors usually only pick up on very large, perpendicularly reflective objects. Such a sensor also has a very short range and would also never trigger on Mars (unless the rovers arm swings past the sensor)



A radio-based motion detector would work in principle but there's basically nothing that moves on Mars with any real mass. Rocks only really move on geological timescales and the only thing that would ever move on the surface near the rover is a dust devil or other wind activity (the rover would want to be far away from regions where landslides are possibilities).



This however leaves us with one sensor on the list, "video camera software". The Curiosity rover currently has 17 cameras and it takes lots of pictures that can be compared with each other to detect motion. For example, here is a "video" from Curiosity recording a dust devil moving across the surface:



Dust devil on mars



Summary: Motion detection is a software feature which doesn't require special hardware to work, it just needs the already existing cameras.






share|improve this answer



















  • 3




    very nice answer! "...there's basically nothing that moves on Mars with any real mass. Rocks only really move on geological timescales..." check Tall boulder rolls down martian hill, lands upright and also How to use this Google Mars viewer to find this Martian landslide event? but yes, these are pretty rare ;-)
    – uhoh
    Dec 10 '18 at 15:43






  • 4




    "nothing that moves on Mars with any real mass." -- that we know of :)
    – Barmar
    Dec 10 '18 at 19:37






  • 1




    Well, the whole point of such a scientific instrument would be to confirm or deny your assumption that "Rocks only really move on geological timescales and the only thing that would ever move on the surface near the rover is a dust devil or other wind activity (the rover would want to be far away from regions where landslides are possibilities)". But I do of course agree that such a mission would be neither economical nor particularly useful in all likelihood.
    – Lightness Races in Orbit
    Dec 11 '18 at 10:54








  • 2




    Done by software on board. That's how they catch the dust devils. Otherwise it would just be incredible luck. This software was first deployed on the Mars Exploration Rovers in 2007. Also used to catch clouds.
    – Mark Adler
    Dec 12 '18 at 5:41








  • 1




    InSight adds "seismic detector" to the mix. Once it's deployed, the seismometer will detect anything with any serious mass that does move (like a landslide, a Martian walking past or a meteorite impact ).
    – Steve Linton
    Dec 12 '18 at 11:19
















24














Most conventional motion detectors wouldn't work well on Mars.




  • PIR: Usually only works well with warm bodies such as humans and animals. Would probably never trigger on Mars


  • Ultrasonic: Due to the extremely low pressure on Mars any acoustic sensing through the atmosphere would be greatly hindered. These sensors usually only pick up on very large, perpendicularly reflective objects. Such a sensor also has a very short range and would also never trigger on Mars (unless the rovers arm swings past the sensor)



A radio-based motion detector would work in principle but there's basically nothing that moves on Mars with any real mass. Rocks only really move on geological timescales and the only thing that would ever move on the surface near the rover is a dust devil or other wind activity (the rover would want to be far away from regions where landslides are possibilities).



This however leaves us with one sensor on the list, "video camera software". The Curiosity rover currently has 17 cameras and it takes lots of pictures that can be compared with each other to detect motion. For example, here is a "video" from Curiosity recording a dust devil moving across the surface:



Dust devil on mars



Summary: Motion detection is a software feature which doesn't require special hardware to work, it just needs the already existing cameras.






share|improve this answer



















  • 3




    very nice answer! "...there's basically nothing that moves on Mars with any real mass. Rocks only really move on geological timescales..." check Tall boulder rolls down martian hill, lands upright and also How to use this Google Mars viewer to find this Martian landslide event? but yes, these are pretty rare ;-)
    – uhoh
    Dec 10 '18 at 15:43






  • 4




    "nothing that moves on Mars with any real mass." -- that we know of :)
    – Barmar
    Dec 10 '18 at 19:37






  • 1




    Well, the whole point of such a scientific instrument would be to confirm or deny your assumption that "Rocks only really move on geological timescales and the only thing that would ever move on the surface near the rover is a dust devil or other wind activity (the rover would want to be far away from regions where landslides are possibilities)". But I do of course agree that such a mission would be neither economical nor particularly useful in all likelihood.
    – Lightness Races in Orbit
    Dec 11 '18 at 10:54








  • 2




    Done by software on board. That's how they catch the dust devils. Otherwise it would just be incredible luck. This software was first deployed on the Mars Exploration Rovers in 2007. Also used to catch clouds.
    – Mark Adler
    Dec 12 '18 at 5:41








  • 1




    InSight adds "seismic detector" to the mix. Once it's deployed, the seismometer will detect anything with any serious mass that does move (like a landslide, a Martian walking past or a meteorite impact ).
    – Steve Linton
    Dec 12 '18 at 11:19














24












24








24






Most conventional motion detectors wouldn't work well on Mars.




  • PIR: Usually only works well with warm bodies such as humans and animals. Would probably never trigger on Mars


  • Ultrasonic: Due to the extremely low pressure on Mars any acoustic sensing through the atmosphere would be greatly hindered. These sensors usually only pick up on very large, perpendicularly reflective objects. Such a sensor also has a very short range and would also never trigger on Mars (unless the rovers arm swings past the sensor)



A radio-based motion detector would work in principle but there's basically nothing that moves on Mars with any real mass. Rocks only really move on geological timescales and the only thing that would ever move on the surface near the rover is a dust devil or other wind activity (the rover would want to be far away from regions where landslides are possibilities).



This however leaves us with one sensor on the list, "video camera software". The Curiosity rover currently has 17 cameras and it takes lots of pictures that can be compared with each other to detect motion. For example, here is a "video" from Curiosity recording a dust devil moving across the surface:



Dust devil on mars



Summary: Motion detection is a software feature which doesn't require special hardware to work, it just needs the already existing cameras.






share|improve this answer














Most conventional motion detectors wouldn't work well on Mars.




  • PIR: Usually only works well with warm bodies such as humans and animals. Would probably never trigger on Mars


  • Ultrasonic: Due to the extremely low pressure on Mars any acoustic sensing through the atmosphere would be greatly hindered. These sensors usually only pick up on very large, perpendicularly reflective objects. Such a sensor also has a very short range and would also never trigger on Mars (unless the rovers arm swings past the sensor)



A radio-based motion detector would work in principle but there's basically nothing that moves on Mars with any real mass. Rocks only really move on geological timescales and the only thing that would ever move on the surface near the rover is a dust devil or other wind activity (the rover would want to be far away from regions where landslides are possibilities).



This however leaves us with one sensor on the list, "video camera software". The Curiosity rover currently has 17 cameras and it takes lots of pictures that can be compared with each other to detect motion. For example, here is a "video" from Curiosity recording a dust devil moving across the surface:



Dust devil on mars



Summary: Motion detection is a software feature which doesn't require special hardware to work, it just needs the already existing cameras.







share|improve this answer














share|improve this answer



share|improve this answer








edited Dec 11 '18 at 19:39









Community

1




1










answered Dec 10 '18 at 15:38









Dragongeek

4,0371331




4,0371331








  • 3




    very nice answer! "...there's basically nothing that moves on Mars with any real mass. Rocks only really move on geological timescales..." check Tall boulder rolls down martian hill, lands upright and also How to use this Google Mars viewer to find this Martian landslide event? but yes, these are pretty rare ;-)
    – uhoh
    Dec 10 '18 at 15:43






  • 4




    "nothing that moves on Mars with any real mass." -- that we know of :)
    – Barmar
    Dec 10 '18 at 19:37






  • 1




    Well, the whole point of such a scientific instrument would be to confirm or deny your assumption that "Rocks only really move on geological timescales and the only thing that would ever move on the surface near the rover is a dust devil or other wind activity (the rover would want to be far away from regions where landslides are possibilities)". But I do of course agree that such a mission would be neither economical nor particularly useful in all likelihood.
    – Lightness Races in Orbit
    Dec 11 '18 at 10:54








  • 2




    Done by software on board. That's how they catch the dust devils. Otherwise it would just be incredible luck. This software was first deployed on the Mars Exploration Rovers in 2007. Also used to catch clouds.
    – Mark Adler
    Dec 12 '18 at 5:41








  • 1




    InSight adds "seismic detector" to the mix. Once it's deployed, the seismometer will detect anything with any serious mass that does move (like a landslide, a Martian walking past or a meteorite impact ).
    – Steve Linton
    Dec 12 '18 at 11:19














  • 3




    very nice answer! "...there's basically nothing that moves on Mars with any real mass. Rocks only really move on geological timescales..." check Tall boulder rolls down martian hill, lands upright and also How to use this Google Mars viewer to find this Martian landslide event? but yes, these are pretty rare ;-)
    – uhoh
    Dec 10 '18 at 15:43






  • 4




    "nothing that moves on Mars with any real mass." -- that we know of :)
    – Barmar
    Dec 10 '18 at 19:37






  • 1




    Well, the whole point of such a scientific instrument would be to confirm or deny your assumption that "Rocks only really move on geological timescales and the only thing that would ever move on the surface near the rover is a dust devil or other wind activity (the rover would want to be far away from regions where landslides are possibilities)". But I do of course agree that such a mission would be neither economical nor particularly useful in all likelihood.
    – Lightness Races in Orbit
    Dec 11 '18 at 10:54








  • 2




    Done by software on board. That's how they catch the dust devils. Otherwise it would just be incredible luck. This software was first deployed on the Mars Exploration Rovers in 2007. Also used to catch clouds.
    – Mark Adler
    Dec 12 '18 at 5:41








  • 1




    InSight adds "seismic detector" to the mix. Once it's deployed, the seismometer will detect anything with any serious mass that does move (like a landslide, a Martian walking past or a meteorite impact ).
    – Steve Linton
    Dec 12 '18 at 11:19








3




3




very nice answer! "...there's basically nothing that moves on Mars with any real mass. Rocks only really move on geological timescales..." check Tall boulder rolls down martian hill, lands upright and also How to use this Google Mars viewer to find this Martian landslide event? but yes, these are pretty rare ;-)
– uhoh
Dec 10 '18 at 15:43




very nice answer! "...there's basically nothing that moves on Mars with any real mass. Rocks only really move on geological timescales..." check Tall boulder rolls down martian hill, lands upright and also How to use this Google Mars viewer to find this Martian landslide event? but yes, these are pretty rare ;-)
– uhoh
Dec 10 '18 at 15:43




4




4




"nothing that moves on Mars with any real mass." -- that we know of :)
– Barmar
Dec 10 '18 at 19:37




"nothing that moves on Mars with any real mass." -- that we know of :)
– Barmar
Dec 10 '18 at 19:37




1




1




Well, the whole point of such a scientific instrument would be to confirm or deny your assumption that "Rocks only really move on geological timescales and the only thing that would ever move on the surface near the rover is a dust devil or other wind activity (the rover would want to be far away from regions where landslides are possibilities)". But I do of course agree that such a mission would be neither economical nor particularly useful in all likelihood.
– Lightness Races in Orbit
Dec 11 '18 at 10:54






Well, the whole point of such a scientific instrument would be to confirm or deny your assumption that "Rocks only really move on geological timescales and the only thing that would ever move on the surface near the rover is a dust devil or other wind activity (the rover would want to be far away from regions where landslides are possibilities)". But I do of course agree that such a mission would be neither economical nor particularly useful in all likelihood.
– Lightness Races in Orbit
Dec 11 '18 at 10:54






2




2




Done by software on board. That's how they catch the dust devils. Otherwise it would just be incredible luck. This software was first deployed on the Mars Exploration Rovers in 2007. Also used to catch clouds.
– Mark Adler
Dec 12 '18 at 5:41






Done by software on board. That's how they catch the dust devils. Otherwise it would just be incredible luck. This software was first deployed on the Mars Exploration Rovers in 2007. Also used to catch clouds.
– Mark Adler
Dec 12 '18 at 5:41






1




1




InSight adds "seismic detector" to the mix. Once it's deployed, the seismometer will detect anything with any serious mass that does move (like a landslide, a Martian walking past or a meteorite impact ).
– Steve Linton
Dec 12 '18 at 11:19




InSight adds "seismic detector" to the mix. Once it's deployed, the seismometer will detect anything with any serious mass that does move (like a landslide, a Martian walking past or a meteorite impact ).
– Steve Linton
Dec 12 '18 at 11:19











1














So, the other answer establishes the least-disruptive motion sensor is using motion analysis software on the camera feeds.



Doing the processing on the ground is easy enough, but we don't receive enough images for this. Curiosity does not repeatedly image the same scene. If you want to do that, the amount of transmitted data goes up, and in another question we've seen there's not much room to do that.



So the question becomes, can this be done in a rover's onboard systems?



Apart from processing power, there is an electrical power issue. The rover's systems draw more power than the RTG supplies, so the rover has to hibernate much of the time to recharge its batteries. This limits motion detection to the times the rover is active anyway, and that time is spent traveling or operating the instruments. It may be possible to take some extra pictures during instrument operations and run a comparison on them.






share|improve this answer





















  • With a CCD electrical charges are converted into digital values in memory. This CCD could be in an active state all day (and night?) Could not software be designed to registrate an image in memory only if one or a few pixels from the CCD differ from the last stored image ? That could save a lot of memory and power ?
    – Conelisinspace
    Dec 12 '18 at 11:35


















1














So, the other answer establishes the least-disruptive motion sensor is using motion analysis software on the camera feeds.



Doing the processing on the ground is easy enough, but we don't receive enough images for this. Curiosity does not repeatedly image the same scene. If you want to do that, the amount of transmitted data goes up, and in another question we've seen there's not much room to do that.



So the question becomes, can this be done in a rover's onboard systems?



Apart from processing power, there is an electrical power issue. The rover's systems draw more power than the RTG supplies, so the rover has to hibernate much of the time to recharge its batteries. This limits motion detection to the times the rover is active anyway, and that time is spent traveling or operating the instruments. It may be possible to take some extra pictures during instrument operations and run a comparison on them.






share|improve this answer





















  • With a CCD electrical charges are converted into digital values in memory. This CCD could be in an active state all day (and night?) Could not software be designed to registrate an image in memory only if one or a few pixels from the CCD differ from the last stored image ? That could save a lot of memory and power ?
    – Conelisinspace
    Dec 12 '18 at 11:35
















1












1








1






So, the other answer establishes the least-disruptive motion sensor is using motion analysis software on the camera feeds.



Doing the processing on the ground is easy enough, but we don't receive enough images for this. Curiosity does not repeatedly image the same scene. If you want to do that, the amount of transmitted data goes up, and in another question we've seen there's not much room to do that.



So the question becomes, can this be done in a rover's onboard systems?



Apart from processing power, there is an electrical power issue. The rover's systems draw more power than the RTG supplies, so the rover has to hibernate much of the time to recharge its batteries. This limits motion detection to the times the rover is active anyway, and that time is spent traveling or operating the instruments. It may be possible to take some extra pictures during instrument operations and run a comparison on them.






share|improve this answer












So, the other answer establishes the least-disruptive motion sensor is using motion analysis software on the camera feeds.



Doing the processing on the ground is easy enough, but we don't receive enough images for this. Curiosity does not repeatedly image the same scene. If you want to do that, the amount of transmitted data goes up, and in another question we've seen there's not much room to do that.



So the question becomes, can this be done in a rover's onboard systems?



Apart from processing power, there is an electrical power issue. The rover's systems draw more power than the RTG supplies, so the rover has to hibernate much of the time to recharge its batteries. This limits motion detection to the times the rover is active anyway, and that time is spent traveling or operating the instruments. It may be possible to take some extra pictures during instrument operations and run a comparison on them.







share|improve this answer












share|improve this answer



share|improve this answer










answered Dec 12 '18 at 11:14









Hobbes

87k2247394




87k2247394












  • With a CCD electrical charges are converted into digital values in memory. This CCD could be in an active state all day (and night?) Could not software be designed to registrate an image in memory only if one or a few pixels from the CCD differ from the last stored image ? That could save a lot of memory and power ?
    – Conelisinspace
    Dec 12 '18 at 11:35




















  • With a CCD electrical charges are converted into digital values in memory. This CCD could be in an active state all day (and night?) Could not software be designed to registrate an image in memory only if one or a few pixels from the CCD differ from the last stored image ? That could save a lot of memory and power ?
    – Conelisinspace
    Dec 12 '18 at 11:35


















With a CCD electrical charges are converted into digital values in memory. This CCD could be in an active state all day (and night?) Could not software be designed to registrate an image in memory only if one or a few pixels from the CCD differ from the last stored image ? That could save a lot of memory and power ?
– Conelisinspace
Dec 12 '18 at 11:35






With a CCD electrical charges are converted into digital values in memory. This CCD could be in an active state all day (and night?) Could not software be designed to registrate an image in memory only if one or a few pixels from the CCD differ from the last stored image ? That could save a lot of memory and power ?
– Conelisinspace
Dec 12 '18 at 11:35




















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