Difference between revisions of "Tutorial Videos and Webcams"
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BoofCV focuses on image processing and computer vision algorithms and for the most part relies on other libraries for input and output. For example, BoofCV does not define GUI widgets but uses Swing instead. The same philosophy applies to capturing images from videos and webcams. Unfortunately the built in support in Java for reading videos and webcams is very limited. Fortunately there are several 3rd party libraries that do provide support for reading in videos and webcams! | |||
= Reading Videos = | |||
This section describes different approaches that can be used to read in video files. | |||
== Loading Image Files == | |||
The most straight forward way to read video is to convert it into an image sequence. How you do that is dependent on what OS your using and is left as an exercise for the reader. Typically the way images are handled on the desktop is to first read them in as a BufferedImage and then convert that image into a BoofCV image format. Here's an example for where a sequence of images is loaded from a directory. | |||
== | <syntaxhighlight lang="java"> | ||
List<BufferedImage> images = UtilImageIO.loadImages("path/to/images","jpg"); | |||
GrayU8 gray = new GrayU8(1,1); | |||
for( BufferedImage image : images ) { | |||
ConvertBufferedImage.convertFrom(image,gray,true); | |||
} | |||
</syntaxhighlight> | |||
To read a video and not mess with third party libraries | Individual images are also loaded easily using UtilImageIO. | ||
== Reading MJPEG == | |||
The only video format which BoofCV natively supports is MJPEG and image sequence. MJPEG is a very simple video format that is for the most part a series of JPEG images concatenated together. MJPEG's inclusion in BoofCV was primarily to provide video support in Applets. To read a video and not mess with third party libraries your options are to convert it into an image sequence (previous section) or into an MJPEG. In Linux ffmpeg can be used to convert videos and image sequences into MJPEG. An example is shown below: | |||
<pre> | <pre> | ||
ffmpeg -i FILENAME -sameq example.mjpeg | ffmpeg -i FILENAME -sameq example.mjpeg | ||
Line 15: | Line 27: | ||
Other flags can be added to resize the image or adjust image quality. There are a few videos where ffmpeg will produce an MJPEG which BoofCV cannot read, but this is not common. | Other flags can be added to resize the image or adjust image quality. There are a few videos where ffmpeg will produce an MJPEG which BoofCV cannot read, but this is not common. | ||
== | == Other Video Formats == | ||
The easiest way to use Video in BoofCV is to use the default MediaManager. It checks your class path to see what you have installed and will use the best option available. SimpleImageSequence is an interface that provides an easy to use and common interface for different image streams. Make sure you add the BoofCV module [https://github.com/lessthanoptimal/BoofCV/tree/master/integration/javacv JavaCV] to your project! JavaCV provides a wrapper around [https://ffmpeg.org/ FFMPEG]. If you don't include this package you will be stuck with just MJPEG files. | |||
<syntaxhighlight lang="java"> | |||
< | MediaManager media = DefaultMediaManager.INSTANCE; | ||
SimpleImageSequence< | SimpleImageSequence<Planar<GrayU8>> video = media.openVideo(fileName, ImageType.pl(3,GrayU8.class); | ||
while( video.hasNext() ) { | |||
Planar<GrayU8> input = video.next(); | |||
... process ... | |||
} | |||
</syntaxhighlight> | |||
The following is a list of alternatives. Note that a built in MediaManager is not provided for these options. | |||
* [http:// | * [http://www.xuggle.com/xuggler/ Xuggler] used supported but after a long protracted death is no longer available | ||
* Java Media Framework (JMF) | |||
** http://www.oracle.com/technetwork/java/javase/tech/index-jsp-140239.html | |||
** Provided by Oracle and supports a few formats. Known for being old and poorly supported. | |||
= Webcams = | |||
The recommended way to use webcams with BoofCV is with [http://webcam-capture.sarxos.pl/ Webcam Capture]. Webcam Capture is very easy to use and works out of the box on Linux, Windows, and MacOS. The BoofCV integration package only provides a single function for opening up a camera at a resolution as close to the one you requested as possible. You need to be sure that the BoofCV [https://github.com/lessthanoptimal/BoofCV/tree/master/integration/WebcamCapture WebcamCapture] module is included with your project. | |||
[[Example Webcam Capture|Webcam Capture Example]] | |||
Other Options: | |||
* [http://code.google.com/p/v4l4j/ Video for Linux for Java (V4L4J)] used to be supported and can still be used but you will need to write your own code to extract the images. | |||
= BufferedImage = | |||
As previously mentioned BufferedImages can be converted into a BoofCV image using ConvertBufferedImage. Thus any library which can read a file into BufferedImages can be used with BoofCV. | |||
= Android = | |||
See [[Android_support|Android Support]] for how to convert Android images into a BoofCV image. |
Latest revision as of 17:41, 3 January 2017
BoofCV focuses on image processing and computer vision algorithms and for the most part relies on other libraries for input and output. For example, BoofCV does not define GUI widgets but uses Swing instead. The same philosophy applies to capturing images from videos and webcams. Unfortunately the built in support in Java for reading videos and webcams is very limited. Fortunately there are several 3rd party libraries that do provide support for reading in videos and webcams!
Reading Videos
This section describes different approaches that can be used to read in video files.
Loading Image Files
The most straight forward way to read video is to convert it into an image sequence. How you do that is dependent on what OS your using and is left as an exercise for the reader. Typically the way images are handled on the desktop is to first read them in as a BufferedImage and then convert that image into a BoofCV image format. Here's an example for where a sequence of images is loaded from a directory.
List<BufferedImage> images = UtilImageIO.loadImages("path/to/images","jpg");
GrayU8 gray = new GrayU8(1,1);
for( BufferedImage image : images ) {
ConvertBufferedImage.convertFrom(image,gray,true);
}
Individual images are also loaded easily using UtilImageIO.
Reading MJPEG
The only video format which BoofCV natively supports is MJPEG and image sequence. MJPEG is a very simple video format that is for the most part a series of JPEG images concatenated together. MJPEG's inclusion in BoofCV was primarily to provide video support in Applets. To read a video and not mess with third party libraries your options are to convert it into an image sequence (previous section) or into an MJPEG. In Linux ffmpeg can be used to convert videos and image sequences into MJPEG. An example is shown below:
ffmpeg -i FILENAME -sameq example.mjpeg
Other flags can be added to resize the image or adjust image quality. There are a few videos where ffmpeg will produce an MJPEG which BoofCV cannot read, but this is not common.
Other Video Formats
The easiest way to use Video in BoofCV is to use the default MediaManager. It checks your class path to see what you have installed and will use the best option available. SimpleImageSequence is an interface that provides an easy to use and common interface for different image streams. Make sure you add the BoofCV module JavaCV to your project! JavaCV provides a wrapper around FFMPEG. If you don't include this package you will be stuck with just MJPEG files.
MediaManager media = DefaultMediaManager.INSTANCE;
SimpleImageSequence<Planar<GrayU8>> video = media.openVideo(fileName, ImageType.pl(3,GrayU8.class);
while( video.hasNext() ) {
Planar<GrayU8> input = video.next();
... process ...
}
The following is a list of alternatives. Note that a built in MediaManager is not provided for these options.
- Xuggler used supported but after a long protracted death is no longer available
- Java Media Framework (JMF)
- http://www.oracle.com/technetwork/java/javase/tech/index-jsp-140239.html
- Provided by Oracle and supports a few formats. Known for being old and poorly supported.
Webcams
The recommended way to use webcams with BoofCV is with Webcam Capture. Webcam Capture is very easy to use and works out of the box on Linux, Windows, and MacOS. The BoofCV integration package only provides a single function for opening up a camera at a resolution as close to the one you requested as possible. You need to be sure that the BoofCV WebcamCapture module is included with your project.
Other Options:
- Video for Linux for Java (V4L4J) used to be supported and can still be used but you will need to write your own code to extract the images.
BufferedImage
As previously mentioned BufferedImages can be converted into a BoofCV image using ConvertBufferedImage. Thus any library which can read a file into BufferedImages can be used with BoofCV.
Android
See Android Support for how to convert Android images into a BoofCV image.