Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I am trying to Stitch an image from a live video camera (more like a panorama) using OpenCv. The stitching is working fine. My problem is, i want the stitching to be done in real time say around 30 mph but the processing of the stitching is slow.

I want to use Threads to improve the speed but in order to use them do i need to store my live video stream or is there any way to directly use threads for the live stream.

Here is a sample code:

  SapAcqDevice *pAcq=new SapAcqDevice("Genie_HM1400_1", false);
  SapBuffer *pBuffer = new SapBuffer(20,pAcq);
  SapView *pView=new SapView(pBuffer,(HWND)-1);
  SapAcqDeviceToBuf *pTransfer= new SapAcqDeviceToB(pAcq,pBuffer,XferCallback,pView);



  pAcq->Create();
  pBuffer->Create();
  pView->Create();

  pTransfer->Create();  
  pTransfer->Grab();

  printf("Press any key to stop grab\n");
  getch();

  pTransfer->Freeze();  
  pTransfer->Wait(5000);

  printf("Press any key to terminate\n");
  getch();

This above code is used to capture the live stream. The XferCallback function is used to do the processing of the frames. In this function i call my stitch engine. Since the processing of the engine is slow i want to use threads.

Here is a sample code of the callback function:

SapView *pView = (SapView *) pInfo->GetContext();
SapBuffer *pBuffer;
pBuffer = pView->GetBuffer();

void *pData=NULL;
pBuffer->GetAddress(&pData);

int width=pBuffer->GetWidth();
int height=pBuffer->GetHeight();
int depth=pBuffer->GetPixelDepth();

IplImage *fram;
fram = cvCreateImage(cvSize(width,height),depth,1);
cvSetImageData(fram,pData,width);

stitching(frame_num , fram);

cvWaitKey(1);

frame_num++;

I want many threads working on the stitch engine.

share|improve this question

1 Answer 1

up vote 0 down vote accepted

If you think you can get the stitching fast enough using threads, then go for it.

do i need to store my live video stream or is there any way to directly use threads for the live stream.

You might benefit from setting up a ring buffer with preallocated frames. You know the image size isn't going to change. So your Sapera acquisition callback simply pushes a frame into the buffer.

You then have another thread that sits there stitching as fast as it can and maintaining state information to help optimize the next stitch. You have not given much information about the stitching process, but presumably you can make it parallel with OpenMP. If that is fast enough to keep up with frame acquisition then you'll be fine. If not, then you will start dropping frames because your ring buffer is full.

As hinted above, you can probably predict where the stitching for the next frame ought to begin. This is on the basis that movement between one frame and the next should be reasonably small and/or smooth. This way you narrow your search and greatly improve the speed.

share|improve this answer
    
I want to use multi threads to do the processing at a faster rate. In fact i am planning to switch to CUDA. Like u said the stitching process just adds the frames in a sequential manner and the result image is a stitched image of all the frames captured. Can you please give me a sample code to do this. i am new and helpless. –  Vinshi Oct 10 '12 at 0:26
    
You haven't even shown your existing code for stitching, and you are asking me to write a parallel one for you. I really can't afford the time investment to do that. I merely wanted to offer some advice that might be of use. –  paddy Oct 10 '12 at 0:59
    
The stitching funtion takes in frames and the frame number as argument : stitching(frame_num , frame). The result image is stacked depending on the frame number. The code is really long for me to type it here. Please excuse me. For this function i want to use threads. So i wanted to know if i needed to store the videos rather than calling the stitching function directly in the callback function. –  Vinshi Oct 10 '12 at 13:35
    
It's good practice to store the frames in a buffer as I have suggested, and return from the camera callback. This way you don't push your delays into the capture driver and potentially clog it up. Instead, you simply drop frames if your processing can't keep up. Because you have control over the frame buffer in the processing thread, you can keep a frame in memory for as long as you require. You would probably stitch one frame at a time. It's a pretty open-ended thing you are trying to achieve, and it can't be answered. Perhaps you need to post more specific optimization questions. –  paddy Oct 10 '12 at 21:16
    
Thank you. i will try using a ring buffer. –  Vinshi Oct 11 '12 at 13:56

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.