# Tag Info

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The error your receiving is not solely down to cvextern this dll actually points to almost all of the other opencv dlls and all are required. With this error you will require the following dll in your project. Note that the "220" is the version number this will change according to updates. cudart64_32_16.dll cufft64_32_16.dll cvextern.dll ...

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Set the ROI (Region of Interest) of the image you are working with this will mean any calculation is only done over this area. image.ROI = new Rectangle(x,Y,Width,Height); Calculate the Average of the ROI where "TYPE" is image dependant Bgr for colour Gray for Grayscale TYPE average = image.GetAverage(image); When youve finished reset your image ROI so ...

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Thought the question is a little bit old, I'd like to contribute an alternative solution to the problem. You can obtain the same result as Chris' without memory problem if you use the following: private Image<Gray,byte> FillHoles(Image<Gray,byte> image) { var resultImage = image.CopyBlank(); Gray gray = new Gray(255); ...

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It's not that difficult to understand if you have a grasp of matrix multiplication. Assume you point x is /a\ \b/, and you want to rotate the coordinate system by A: /3 4\ \5 6/ and and "move it" it by t /2\ \2/. The latter matrices are the components of the affine transformation to get the new point y: y = A*x + t = <a'; b'>T //(T means ...

7

To test that it works here's an image and here's the expected result after applying DFT. And without further ado here's the code: // Load image Image<Gray, float> image = new Image<Gray, float>(@"C:\Users\me\Desktop\lines.png"); // Transform 1 channel grayscale image into 2 channel image IntPtr complexImage = ...

7

Displaimer: This post isn't supposed to fully describe an answer, but instead give some hints on why the artifact is being shown. A quick analysis show that the the actifact is, in fact, a partial, vertically mirrored snippet of a frame. I copied it, mirrored, and placed it back over the image, and added an awful marker to show its placement: Two things ...

6

Since I don't know Emgu CV, I would recommend OpenCV. I'd suggest you use the Lucas Kanade tracking (optical flow). You track objects by doing the following: Read an image from source (webcam/video file etc.) Preprocess it (optional, but can be proven useful) Extract from a region (e.g. from the head of a person) points to track. You can do this ...

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If you call a people counting system a system that counts people that are in a room then I reccomend you implement the hardware with a microcontroller with 2 lazers(normal lazer toys work) and 2 photoresistors.For the microcontroller I recomen you use Arduino.And then make an C# application that has a SerialPort object and reads the data that the arduino ...

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The Application.Idle handle is called when no other function is being called by you program and you computer has free resources. It is not designed to be called at set periods. Instead set a timer up and use it's tick function to set the playback speed. Timer My_Time = new Timer(); int FPS = 30; public Form1() { InitializeComponent(); //Frame Rate ...

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Yes there is a method but it's a bit messy as its based on cvFloodFill operation. Now all this algorithm is designed to do is fill an area with a colour until it reaches an edge similar to a region growing algorithm. To use this effectively you need to use a little inventive coding but I warn you this code is only to get you started it may require ...

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Here is a possible solution using OpenCV C++: #include <opencv2/core/core.hpp> #include <opencv2/highgui/highgui.hpp> #include <opencv2/imgproc/imgproc.hpp> #include <iostream> #include <vector> using namespace std; using namespace cv; std::vector<cv::Point> getPixelsWithColor(const cv::Mat& src, cv::Scalar ...

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There is no exact confidence value however there is a variable scale that can be used and roughly interpreted as such which is the Eigen Distance. The value that classifies as a good match changes according to the amount of data you have and the training parameters so you will have to test the values with different faces to work out your threshold. You ...

5

The problem here is that not every color pixel will have a depth assigned to it because of the way the cameras and IR emitter are positioned. If you're facing the Kinect and holding up your left hand in front of your chest, there's a section of your chest that won't have depth data because your hand blocks the IR emitter. Since the IR camera is closer to the ...

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The cause of this error (should anyone else run into the same problem) is that the program cannot access opencv_imgproc231.dll or opencv_core231.dll even though they are present in the output "bin" directory. There are two solutions: Add them to the project and set their properties to copy always as they are EMGU's two key files. If step 1 doesn't work, ...

4

Well what your looking at is in simple terms a Pythagorean theorem problem a^2 + b^2 = c^2. However when it comes to camera based applications things are not very easy to accurately determine. You have found half of the detail you need for "a" however finding "b" or "c" is much harder. The Short Answer Basically it can't be done with a single camera. But ...

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Blob tracking means detecting a blob over incoming frames. It will involve motion if the blob moves. Motion tracking is quite general, and involves detecting motion over incoming frames. Motion tracking will involve blob tracking if you use a blob for detection, but there are other techniques like tracking like finding descriptors which don't involve blob. ...

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Your example doesn't keep a reference to the result image from Image.SmoothBilatral. The input images are rooted in a static array so are fine. An Emgu.CV Image's data array is pinned to a GCHandle inside the actual image, this is no different from the fact that image contains the array and doesn't prevent collection while the GCHandle's pointer is in use ...

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Your code looks questionable take a look at the Cameracapture example provided with EMGU I do not now where you get CaptureType.ANY from but your code should be Capture capture = new Capture(); viewer.Image = capture.QueryFrame(); While the link is valid it's old and outdated (2009). Here is the slightly edited code from the example that you will need: ...

3

Using a timer to acquire images from a web camera is not suggested as it does result in a slow performance. It is much better to acquire a frame when you're program is doing very little i.e. not processing the frame. Look at the code example CameraCaptue for reference but your code should look something like this. Capture cap; private void Form1_Load(object ...

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If you choose to get your feet wet with digit recognition, here's the dataset that both courses I took used for the first assignment in Neural Networks.

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Your task is beyond the current state of the art in image classification. Practice with something much, much simpler, like digit recognition. Also, check the ASIRRA project for the cat/dog classification problem.

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Check out nQuant at http://nquant.codeplex.com. This yields much higher quality than the code in the MSDN article that Magnus references. It also takes the Alpha layer into consideration while the msdn article only evaluates RGB. Source code is available and there is an accompanying blog post that discusses the code and algorithm in detail.

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This would help you to count moving things including people: Motion Detection project on CodeProject

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Check out the HOG pedestrian detector that comes with recent versions of OpenCV (>= 2.2). See modules/objdetect/src/hog.cpp and samples/cpp/peopledetect.cpp in the OpenCV sources. Unfortunately there is no official documentation about it yet.

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For starters the basic Hough blob tracking method EMGU forums have an example here : (2nd Comment) http://www.emgu.com/forum/viewtopic.php?f=7&t=225 Here is the declaration sytax http://www.emgu.com/wiki/files/1.5.0.0/Help/html/04e0b6a7-3d11-eec8-6c22-44e5bf3023b2.htm An alternative which is a c# only contribution from AlbertG can be found here ...

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There is an article on msdn called Optimizing Color Quantization for ASP.NET Images that might help you, it has good example code.

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Invoke cvAbsDiff on successive frames (may be on each n-th and (n - gap)-th frame) to detect changes and use thresholding in order to get a changes mask For each frame call cvUpdateMotionHistory and pass obtained mask as an argument To get motion segments (objects) and their orientation: call cvCalcMotionGradient passing motion history accumulated by ...

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Well there are two avenues of thought here but first there are a few things that must be sorted out. Unless you are using 3D imaging there is no way you can achieve accurate size and even then it depends on resolution, you may want to look at the use of a Xbox Kinect for 3D data. If you are using one camera you need to know the specification and lens type ...

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