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9

Try the uvccapture code here -> http://staticwave.ca/source/uvccapture/ It is very small yet very concrete example which makes use of all the V4l2 concepts (open,set format, allocate memory, Request Buffer, Dqbuffer and Query-buffer - all intems of ioclts). uvcgrab() function is the one to look for which makes use of Dqbuffer and Query-buffer. ioctl ...


6

Reading (cam.read()) from a VideoCapture returns a tuple (return value, image). With the first item you check wether the reading was successful, and if it was then you proceed to use the returned image. This is documented at http://docs.opencv.org/modules/highgui/doc/reading_and_writing_images_and_video.html


4

I had this exact problem, using three logitech quickcam pro 9000 cameras (using ubuntu). I could read from two, but not three. In my case, I wasn't using opencv, but was accessing the cameras through V4L2 directly, using memory-mapped IO. Simply put, there was not enough USB bandwidth to allocate three buffers. I was reading in the uncompressed frames, ...


4

According to http://comments.gmane.org/gmane.linux.drivers.video-input-infrastructure/39892 some v4l2 drivers (including the UVC one) do not use the realtime clock (wall time) but rather a monotonic clock that counts from a not specified point in time. On Linux, this is the boot time (i.e. uptime), however (and I suspect this is the cause of your mismatch) ...


3

To my understanding Canon's EDSDK is still only available upon request for the Windows and OSX platform (C and Objective-C). On linux, you might want to try and install the SDK under Wine, or resort to a more general purpose gPhoto. Now, the "LiveView" or "EvF" images are individual JPG's. Alternatively, you might want to capture this through the HDMI output ...


3

From the docs, The function cvSetCaptureProperty sets the specified property of video capturing. Currently the function supports only video files: CV_CAP_PROP_POS_MSEC, CV_CAP_PROP_POS_FRAMES, CV_CAP_PROP_POS_AVI_RATIO . NB This function currently does nothing when using the latest CVS download on linux with FFMPEG (the function contents are hidden ...


3

I have found an answer in the old V4L2loopback module's page on Google code. http://code.google.com/p/v4l2loopback/source/browse/test.c newer link: https://github.com/umlaeute/v4l2loopback/blob/master/examples/test.c This has helped me so far just to write to the device.


3

If you cannot pass the result of Memory_alloc() as first argument to your mmap() (for example, if it also uses mmap() that would make it impossible to map to that memory again), you probably should use another streaming I/O method from the given example - IO_METHOD_USERPTR variation. It uses the same ioctl as IO_METHOD_MMAP to capture frames and should ...


3

From the V4L2 side, you need to: use the VIDIOC_G_PARM ioctl and check the v4l2_streamparm.parm.capture.capability member to find out whether the driver allows V4L2_CAP_TIMEPERFRAME. if so, use the VIDIOC_ENUM_FRAMEINTERVALS ioctl to get the list of possible frame intervals (inverse of framerates), in the form of v4l2_fract structures use these values with ...


3

Is gstreamer mandatory for your needs? I also have lots of problems with the Logitech C920 in H264 mode and gstreamer. But I managed to use VLC as a RTSP server to use the C920 with H264: $ cvlc -v v4l2:///dev/video0:chroma="H264":width=1024:height=570:fps=30 \ --sout="#rtp{sdp=rtsp://:8554/live}" Then I can connect with another VLC to the URI ...


3

You have just to change the input with "v4l2-ctl" ! For example, I use Python on my raspberry to capture the video stream from S-Video with OpenCV : import cv, os print "Initializing video capture from /dev/video0 ..." capture = cv.CaptureFromCAM(0) cv.SetCaptureProperty(capture,cv.CV_CAP_PROP_FRAME_WIDTH, 720) ...


2

You will get lot of examples here for receiver(client) and sender(server) application : http://cgit.freedesktop.org/gstreamer/gst-plugins-good/tree/tests/examples/rtp


2

There is no need for three separate mmaps. Simply mmap once, then compute the base pointer for each plane relative to the base pointer of the whole map. Edit: You need something like this: unsigned char *y = mmap(...); /* map total size of all 3 planes */ unsigned char *u = y + y_height*y_bytes_per_line; unsigned char *v = u + u_height*u_bytes_per_line;


2

The specification does not mention whether V4L2 is thread-safe. However it seems that some implementations actually are thread safe. POSIX.1-2001 and POSIX.1-2008 require that all functions specified in the standard shall be thread-safe, except some specific functions. ioctl() is not one of them, so it IS thread-safe. However, ioctl() is a cancellation ...


2

You would need driver support from the camera driver. mmap gets the physical pages it maps from whatever driver it's mapping - the camera in this case. You cannot tell mmap to use some pre-allocated pages, because the underlying driver would have to be told to use these pre-allocated pages.


2

The problem is that you are not releasing the capture component using the OpenCV API. You shouldn't do del capture. The right way to do it is through: cvReleaseCapture(capture)


2

Following state machine describes a V4L2-buffer's life-cycle: The sequence is the same for both streaming as well as capture. Its just that during capture one does the Q/DQ just once to obtain one buffer (i.e. a single "frame"). Streaming does this repeatedly. Detailed info in this series of V4L2 articles... Part 1: The Video4Linux2 API Part 2: ...


2

YUV422 is an interleaved format that stores Y-information at a higher (double) resolution than the U&V (Cb&Cr) channels. each cell consists of 4 bytes, that stores Y/U/V vaLues for 2 pixels: unsigned char*cell={127, 52, 139, 170}; unsigned char pixel0[3], pixel1[3]; pixel0[0]=cell[0]; // Y0 pixel0[1]=cell[1]; // U pixel0[2]=cell[3]; // V ...


2

it looks like you are displaying the image in a completely wrong format. when working with v4l2, you should definitely check out "libv4l" (packaged in debian, so also available in ubuntu). v4l2 allows a device to output it's frames in any of a very large number of video-formats, some of those are compressed (e.g. using jpeg). core v4l2 does not provide any ...


2

You have to build OpenCV with v4l support. Take a look a this guide. And make sure after configuring build you have this line: V4L/V4L2: Using libv4l Update: after some googling I found that this is a bug. See this thread and try fix from the third post (use LD_PRELOAD or add v4l1compat.so to linker).


2

ffmpeg -f rawvideo -s 640x480 -pix_fmt yuyv422 -i frame-1.raw frame-1.jpg The options were set based on the v4l2 code linked, and the resulting image is the one you would expect to get.


2

use the VIDIOC_ENUM_FRAMESIZES ioctl: enum v4l2_buf_type type = V4L2_BUF_TYPE_VIDEO_CAPTURE; struct v4l2_fmtdesc fmt; struct v4l2_frmsizeenum frmsize; struct v4l2_frmivalenum frmival; fmt.index = 0; fmt.type = type; while (ioctl(fd, VIDIOC_ENUM_FMT, &fmt) >= 0) { frmsize.pixel_format = fmt.pixelformat; ...


2

That is what they are asking you to do. On the why, you'd have to ask the developers. If you have got the package(s) as part of your distribution, you should use what your distribution suggests. Read the documentation for what you have installed, and make sure any external recomendations are for your distribution and version.


2

In Linux, command line utility v4l2-ctl displays all of a webcam's natively supported formats -- install it with sudo apt-get install v4l-utils, run it with v4l2-ctl -dX --list-formats-ext where X is the camera index as in /dev/videoX. These formats are reported to the v4l2 kernel module via uvcvideo module and they are supported natively by the webcam ...


2

The answer to this similar question might help you. As to my experience, not all cameras (drivers) support setting the frame rate. Additionally, there is no guarantee that you will receive as many frames as the camera advertises or as you have requested. Especially in low-light situations the true frame rate may drop drastically because the camera adjusts ...


2

Well I payed a consultant and he told me to change one line in two different files. First file: /v4l-utils/utils/v4l2-compliance/Makefile Second file: /v4l-utils/utils/v4l2-ctl/Makefile This line a line that read "LDFLAGS =" to "LDFLAGS = -lrt" After that V4l2 compiled just fine on Raspberry Pi.


1

you will need a "producer" application, that writes frames to the loopback device (and which has previously acquired those frames via the canon esdk) v4l2loopback already comes with a few simple producer examples, and you could have a look at other applications that already have native v4l2loopback output support, e.g. Gem, lives, gmerlin and gstreamer


1

You can use media-ctl utility, which will enumerate all v4l2 entities in specified media controller. One thing you should pay attention to is the difference between target kernel version of media/v4l2 header file and header definitions in media-ctl utility. http://git.ideasonboard.org/media-ctl.git


1

@TheCodeArtist, the bulk of my current activities is around webcams working on Android devices. Based on personal experience using the Acer A500, you do NOT need any modification to any of your sources to get a UVC compliant webcam to work with it!- especially the video portion. . The Android implementation on the Acer A500 already has the video4linux2 ...



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