Anybody know of a current or recent phone that can be developed for and which includes a 3-axis accelerometer.
I'm looking this for a project that would enable to do movement (rough) capture in 3D space. Think big hand drawn lines in the air done with glow stick in the dark, but of course now on mobile phone and capturing the data.
I know some phones have 2-axis accelerometers, but that's not enough.
Any EUR/USA models with 3-axis sensors (in theory it could be something other than an accelerometer, just that it enables motion capture).
Anyone?
Related
Hey, guys!
I am working on a project using HTC magic which requires the data from the electronic compass, including both the accelerometer and magnetic sensor. But I find that there is a significant latency between the move of the phone and the trigger of the sensorChanged event. In other word, the acceleration and magnetic data obtained from sensor are updated about half of a second after my motion. And I have several questions about the problem as follow.
1. Are the orientation data computed by the acceleration and magnetic data? Or are there a physical sensor for orientation?
2. Does the latency result from the android API (using the event) or the physical limitation of the electronic compass?
3. It is said that the model of the electronic compass is AK8976A from Asahi Kasei. Does anybody have the datasheet or know the frequency of the sampling?
4. Any idea to improve the real-time experience?
Thank you in advance!
This pertains to changing screen orientation.
Anyone else notice that the accelerometer is near unresponsive when the screen is tilted downward? (Like if you are lying down using the gtab) When vertical it is a little better, but when it is tilted with the screen facing up (even just a few degrees, like if sitting and using) the accelerometer changes screen orientation almost instantly.
I wonder if this is due to calibration or physical positioning of the sensor...
If it is calibration, then fixing the in game behavior may fix this as well, but if this is a symptom of physical placement of the sensor, this (and potentially in game) may not be fixable.
I would think that a simple remapping of the axis should fix it, though thegtab has no compass to assist in orientation sensing. The sensor test app I have does not give an option to plot orientation at all, just accel data.
I would think the closer the back or front of the tab gets parrallel to the floor, the less effective the sensor is. That's the way my phone works. If it's parrallel to the floor, the sensor doesn't work.
Hi,
Is there any difference between G-Sensor and Gyro Sensor?
HTC Sensation specifications states both sensors
Sensors
Gyro sensor
G-Sensor
Digital compass
Proximity sensor
Ambient light sensor
There is, but it's kinda subtle.
A G-sensor (accelerometer) can measure the change in acceleration of the device towards a direction. If you move the handset with a constant speed (no acceleration) then it shouldn't pick any signal. However, when moving their hand people change the speed slightly so an accelerometer picks that, but it will look sluggish.
A gyroscope can measure orientation, rotation and speed, so it can complement data collected from the accelerometer to smoothen out the reading of movement a great deal.
It's not the most important thing ever, but it's definitely a plus. Apps that use gyroscopes (mostly games and augmented reality apps) behave way more smoothly with it.
To put it more simply: The G-sensor measures the movement of the device. (By measuring acceleration). The gyro measures the tilt. They can work together to get more precise measurments of both.
Thanks for the explanations Guys...
hello everyone
I am working on a project requiring me to produce IR images from a cell phone camera. I understand that in most cell phone cameras, the IR light is filtered out to produce better pictures in the visible light. Does anyone know if this is done by putting a physical filter in of the optical path, or it is removed as an image process?
Also, I managed to open one cell phone I have and it looks to me the camera is a single CCD chip with a glass housing on top of it. Does anyone know if there is any online tutorial to show me how to dissemble the camera if a hardware modification is needed?
a third question, what are the companies that produced these CCDs for cell phones? I am particularly interested in the ones supply for iphone or newer android smartphones.
thanks
I've yet to come across a phone camera which filters out IR.
They're very handy for checking if car plips/TV remotes are working.
I've seen howto's on removing the ir filter on USB webcams. Some are simple "remove this and a little ir filter sheet will fall out" and some require grinding away at the lens and then repolishing. Good luck on your camera project, hope you find out good news like xaccers suggests.
The camera on smartphone is just a single unit with sensor and lens together, disassembling is quite a task or does it even contain the filter?
Try using a TV remote or any other infrared device in front of the smartphone camera.
No,there is no IR filter on smartphone's cameras pal.
Look at this video and see that there is a second light on that Desire HD at the place of the proximity sensor,which emits IR I think.Plain proof that there is no filter.
im am sorry to say that you are all wrong. all digit cameras including cell phone cameras have IR filters.
they are there to reduce IR light not block it. this is why you are able to see flashing IR leds on remotes. by removing the filter though the leds would be far brighter.
IR light washes out images on ccd and cmos sensors the the filters are in place to reduce this effect.
but as once mentioned it will be quite difficult to remove from a mobile sensor as the lenses sit within the autofocus chamber and would probably be damaged during removal.
yup totally correct.. the ir filter is with in the lense/autofocous chamber and will most likely ruin the sensor if you try to remove it. i tried it on the s7. had to buy replacement camera. in older smartphone cameras the ir filter was easier to remove.. lates phone cameras the ir filter is sandwich between lenses chamber an sensor.
My phone already has ACCELEROMETER and COMPASS. Why would I need GYROSCOPE? Can somebody give me example of practical applications that use Gyro sensor that the other two cant handle?
thanx
good question. Gyro is an extension to the accelerometer. It help you move with the devise in the same time. I see it being used on google street view (when u turn left/right the map is turning too) and in some shooting games.
Turn left right? Isnt that covered by the compass?
Bump!
Plus about the Atrix 4G...
Accelerometer, still no games utilises 6dof, if there is, not practical (like walking while holding the phone)
I guess the gyroscope mainly assists the GPS info + Compass...
Take it as like this:
Gyroscope assists Compass in rotation speed ( so u get real time)
Gyroscope assists accelerometer in pre-calibration proccess... (+ shaking games)
So I still argue with games like Asphalt 6 not working with accelerometers...
Both Gyroscope and Accelerometer are Fused, or Fusion proccess (combing the raw data map) so it will be enough real time...
Though 6DOF experience using a gyro is too useless for its accuracy... It comes hand when you buy a 400+ bux gyroscope Like headtracking systems...