It supports elementary video and audio frame transformations.
它支持初步视频和伴音帧转换。
Contributing to the file size, in order of importance, are the parameters that set the video bit rate, audio sample frequency, audio bit rate, then frame size.
对文件大小的贡献,按重要性的顺序,依次是视频比特率、音频采样频率、音频比特率,然后是帧速。
Further it mainly aims at the segment of shot, selection of key frame, classify of audio characteristic and detection of caption-region in video and presents corresponding improved approach.
在此基础上主要就镜头分割、关键帧选取、音频特征分类以及视频中文字区域的检测和分割提出了相应改进的算法。
Experiments show a 55.0% reduction in the frame error rate and a 98.5% reduction in sentence breaking error rate with the multimodal VAD as compared to the frame energy-based audio VAD.
实验表明:同时利用音频和视觉信息的多模式VAD比基于帧能量的听觉VAD在帧错误率上有55.0%的相对下降,在断句错误率上有98.5%的相对下降。
The frame rate is not directly related. The bit rate is just a measure of how many bits are being used to encode one second of audio or video.
帧速率是没有直接关系。比特率是多少位的测量被用来编码一个第二音频或视频。
In this paper, we put forward a Multipoint audio Processor Unit frame, aiming at handling multi-RTP audio stream mixing. We mainly researched the core function of Multipoint au...
本文提出了针对多路rtp流混音的多点音频处理器单元结构,重点讨论了多点音频处理器单元的核心功能-混音算法。
Because of the technique advantage based on the embedded system frame that I adopted, the audio system could be extended functions easily, and has a bright future.
由于采用嵌入式系统构架的技术优势,系统可以很方便的进行功能扩充,有着广阔的发展前景。
The paper analyses briefly the frame and object for knowledge representation, advances an audio-visual model of knowledge, and discusses the node types and link types used in know...
本文简要分析了知识的框架表示和对象表示,提出了知识的直观模型,论述了运用超文本技术表示知识时所使用的节点类型和结类型。
The paper analyses briefly the frame and object for knowledge representation, advances an audio-visual model of knowledge, and discusses the node types and…
本文简要分析了知识的框架表示和对象表示,提出了知识的直观模型,论述了运用超文本技术表示知识时所使用的节点类型和结类型。
The sender tracks the packet loss status according to the algorithm-loss rate estimation based on variable frame size and switches two audio sample files in accordance with packet loss status.
传送端根据以变动框架长度为基础之 遗失率估算法,来估算目前网路上封包遗失的状况,并以此作为切换高低音质档案的依据。
The sender tracks the packet loss status according to the algorithm-loss rate estimation based on variable frame size and switches two audio sample files in accordance with packet loss status.
传送端根据以变动框架长度为基础之 遗失率估算法,来估算目前网路上封包遗失的状况,并以此作为切换高低音质档案的依据。
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