网络摄像头 api:最大化 720p 捕获
Webcam api : Maximizing the 720p capture
我正在尝试通过外部摄像头 Logitec C922 捕捉视频记录。使用 java,我可以通过网络摄像头 api 实现这一点。
<dependency>
<groupId>com.github.sarxos</groupId>
<artifactId>webcam-capture</artifactId>
<version>0.3.10</version>
</dependency>
<dependency>
<groupId>xuggle</groupId>
<artifactId>xuggle-xuggler</artifactId>
<version>5.4</version>
</dependency>
然而,对于我来说,我无法以 60FPS 的速度进行录制。视频存起来突然卡顿,一点都不流畅
我可以使用以下详细信息连接到相机。
final List<Webcam> webcams = Webcam.getWebcams();
for (final Webcam cam : webcams) {
if (cam.getName().contains("C922")) {
System.out.println("### Logitec C922 cam found");
webcam = cam;
break;
}
}
我将凸轮的大小设置如下:
final Dimension[] nonStandardResolutions = new Dimension[] { WebcamResolution.HD720.getSize(), };
webcam.setCustomViewSizes(nonStandardResolutions);
webcam.setViewSize(WebcamResolution.HD720.getSize());
webcam.open(true);
然后我捕捉图像:
while (continueRecording) {
// capture the webcam image
final BufferedImage webcamImage = ConverterFactory.convertToType(webcam.getImage(),
BufferedImage.TYPE_3BYTE_BGR);
final Date timeOfCapture = new Date();
// convert the image and store
final IConverter converter = ConverterFactory.createConverter(webcamImage, IPixelFormat.Type.YUV420P);
final IVideoPicture frame = converter.toPicture(webcamImage,
(System.currentTimeMillis() - start) * 1000);
frame.setKeyFrame(false);
frame.setQuality(0);
writer.encodeVideo(0, frame);
}
我的writer定义如下:
final Dimension size = WebcamResolution.HD720.getSize();
final IMediaWriter writer = ToolFactory.makeWriter(videoFile.getName());
writer.addVideoStream(0, 0, ICodec.ID.CODEC_ID_H264, size.width, size.height);
老实说,我不确定我的代码中是什么导致了这个问题。鉴于我降低了分辨率,我没有遇到任何问题。 ( 480p ) 问题可能出在我使用的代码上吗?
正如一些评论提到的,引入队列确实解决了问题。以下是执行所需步骤的一般逻辑。请注意,我已将我的代码设置为较低的分辨率,因为它允许我每秒捕获 100FPS。根据需要进行调整。
Class 到 link image/video 捕获并 class 编辑它:
public class WebcamRecorder {
final Dimension size = WebcamResolution.QVGA.getSize();
final Stopper stopper = new Stopper();
public void startRecording() throws Exception {
final Webcam webcam = Webcam.getDefault();
webcam.setViewSize(size);
webcam.open(true);
final BlockingQueue<CapturedFrame> queue = new LinkedBlockingQueue<CapturedFrame>();
final Thread recordingThread = new Thread(new RecordingThread(queue, webcam, stopper));
final Thread imageProcessingThread = new Thread(new ImageProcessingThread(queue, size));
recordingThread.start();
imageProcessingThread.start();
}
public void stopRecording() {
stopper.setStop(true);
}
}
录音线程:
public void run() {
try {
System.out.println("## capturing images began");
while (true) {
final BufferedImage webcamImage = ConverterFactory.convertToType(webcam.getImage(),
BufferedImage.TYPE_3BYTE_BGR);
final Date timeOfCapture = new Date();
queue.put(new CapturedFrame(webcamImage, timeOfCapture, false));
if (stopper.isStop()) {
System.out.println("### signal to stop capturing images received");
queue.put(new CapturedFrame(null, null, true));
break;
}
}
} catch (InterruptedException e) {
System.out.println("### threading issues during recording:: " + e.getMessage());
} finally {
System.out.println("## capturing images end");
if (webcam.isOpen()) {
webcam.close();
}
}
}
ImageProcessingThread:
public void run() {
writer.addVideoStream(0, 0, ICodec.ID.CODEC_ID_H264, size.width, size.height);
try {
int frameIdx = 0;
final long start = System.currentTimeMillis();
while (true) {
final CapturedFrame capturedFrame = queue.take();
if (capturedFrame.isEnd()) {
break;
}
final BufferedImage webcamImage = capturedFrame.getImage();
size.height);
// convert the image and store
final IConverter converter = ConverterFactory.createConverter(webcamImage, IPixelFormat.Type.YUV420P);
final long end = System.currentTimeMillis();
final IVideoPicture frame = converter.toPicture(webcamImage, (end - start) * 1000);
frame.setKeyFrame((frameIdx++ == 0));
frame.setQuality(0);
writer.encodeVideo(0, frame);
}
} catch (final InterruptedException e) {
System.out.println("### threading issues during image processing:: " + e.getMessage());
} finally {
if (writer != null) {
writer.close();
}
}
它的工作方式非常简单。 WebcamRecord class 创建一个在视频捕获和图像处理之间共享的队列实例。 RecordingThread 将 bufferedImages 发送到队列(在我的例子中,它是一个 pojo,称为 CapturedFrame(其中有一个 BufferedImage))。 ImageProcessingThread 将监听并从队列中拉取数据。如果它没有收到写入应该结束的信号,则循环永远不会结束。
我正在尝试通过外部摄像头 Logitec C922 捕捉视频记录。使用 java,我可以通过网络摄像头 api 实现这一点。
<dependency>
<groupId>com.github.sarxos</groupId>
<artifactId>webcam-capture</artifactId>
<version>0.3.10</version>
</dependency>
<dependency>
<groupId>xuggle</groupId>
<artifactId>xuggle-xuggler</artifactId>
<version>5.4</version>
</dependency>
然而,对于我来说,我无法以 60FPS 的速度进行录制。视频存起来突然卡顿,一点都不流畅
我可以使用以下详细信息连接到相机。
final List<Webcam> webcams = Webcam.getWebcams();
for (final Webcam cam : webcams) {
if (cam.getName().contains("C922")) {
System.out.println("### Logitec C922 cam found");
webcam = cam;
break;
}
}
我将凸轮的大小设置如下:
final Dimension[] nonStandardResolutions = new Dimension[] { WebcamResolution.HD720.getSize(), };
webcam.setCustomViewSizes(nonStandardResolutions);
webcam.setViewSize(WebcamResolution.HD720.getSize());
webcam.open(true);
然后我捕捉图像:
while (continueRecording) {
// capture the webcam image
final BufferedImage webcamImage = ConverterFactory.convertToType(webcam.getImage(),
BufferedImage.TYPE_3BYTE_BGR);
final Date timeOfCapture = new Date();
// convert the image and store
final IConverter converter = ConverterFactory.createConverter(webcamImage, IPixelFormat.Type.YUV420P);
final IVideoPicture frame = converter.toPicture(webcamImage,
(System.currentTimeMillis() - start) * 1000);
frame.setKeyFrame(false);
frame.setQuality(0);
writer.encodeVideo(0, frame);
}
我的writer定义如下:
final Dimension size = WebcamResolution.HD720.getSize();
final IMediaWriter writer = ToolFactory.makeWriter(videoFile.getName());
writer.addVideoStream(0, 0, ICodec.ID.CODEC_ID_H264, size.width, size.height);
老实说,我不确定我的代码中是什么导致了这个问题。鉴于我降低了分辨率,我没有遇到任何问题。 ( 480p ) 问题可能出在我使用的代码上吗?
正如一些评论提到的,引入队列确实解决了问题。以下是执行所需步骤的一般逻辑。请注意,我已将我的代码设置为较低的分辨率,因为它允许我每秒捕获 100FPS。根据需要进行调整。
Class 到 link image/video 捕获并 class 编辑它:
public class WebcamRecorder {
final Dimension size = WebcamResolution.QVGA.getSize();
final Stopper stopper = new Stopper();
public void startRecording() throws Exception {
final Webcam webcam = Webcam.getDefault();
webcam.setViewSize(size);
webcam.open(true);
final BlockingQueue<CapturedFrame> queue = new LinkedBlockingQueue<CapturedFrame>();
final Thread recordingThread = new Thread(new RecordingThread(queue, webcam, stopper));
final Thread imageProcessingThread = new Thread(new ImageProcessingThread(queue, size));
recordingThread.start();
imageProcessingThread.start();
}
public void stopRecording() {
stopper.setStop(true);
}
}
录音线程:
public void run() {
try {
System.out.println("## capturing images began");
while (true) {
final BufferedImage webcamImage = ConverterFactory.convertToType(webcam.getImage(),
BufferedImage.TYPE_3BYTE_BGR);
final Date timeOfCapture = new Date();
queue.put(new CapturedFrame(webcamImage, timeOfCapture, false));
if (stopper.isStop()) {
System.out.println("### signal to stop capturing images received");
queue.put(new CapturedFrame(null, null, true));
break;
}
}
} catch (InterruptedException e) {
System.out.println("### threading issues during recording:: " + e.getMessage());
} finally {
System.out.println("## capturing images end");
if (webcam.isOpen()) {
webcam.close();
}
}
}
ImageProcessingThread:
public void run() {
writer.addVideoStream(0, 0, ICodec.ID.CODEC_ID_H264, size.width, size.height);
try {
int frameIdx = 0;
final long start = System.currentTimeMillis();
while (true) {
final CapturedFrame capturedFrame = queue.take();
if (capturedFrame.isEnd()) {
break;
}
final BufferedImage webcamImage = capturedFrame.getImage();
size.height);
// convert the image and store
final IConverter converter = ConverterFactory.createConverter(webcamImage, IPixelFormat.Type.YUV420P);
final long end = System.currentTimeMillis();
final IVideoPicture frame = converter.toPicture(webcamImage, (end - start) * 1000);
frame.setKeyFrame((frameIdx++ == 0));
frame.setQuality(0);
writer.encodeVideo(0, frame);
}
} catch (final InterruptedException e) {
System.out.println("### threading issues during image processing:: " + e.getMessage());
} finally {
if (writer != null) {
writer.close();
}
}
它的工作方式非常简单。 WebcamRecord class 创建一个在视频捕获和图像处理之间共享的队列实例。 RecordingThread 将 bufferedImages 发送到队列(在我的例子中,它是一个 pojo,称为 CapturedFrame(其中有一个 BufferedImage))。 ImageProcessingThread 将监听并从队列中拉取数据。如果它没有收到写入应该结束的信号,则循环永远不会结束。