使用特殊音效修改音频数据。
音频数据的编码是一项cpu密集型任务。
演示如何将音频数据保存到剪贴板。
音频数据将始终与原始文件一致!
This guarantees a bit identical reproduction of the whole wave file, including the non-audio data.
音频数据指定为字节数组。
将音频数据写入剪贴板。
音频数据既可以是字节数组,也可以是流。
将100MB的音频数据存储在内存中可能使存储量过大。
Keeping 100 MB of audio data in memory might be too storage intensive.
音乐必须在音频数据启动后,经过几秒无声的前奏开始。
The music should commence at the beginning of the audio source, after a silent leader of a few seconds.
针对音频数据库中存在的问题,提出了一种基于索引的变换。
A transformation based on index was developed for the audio database.
接口至音频流播放通过音频数据来自指定缓冲器的音频硬件。
The interface to an audio stream player passing audio data from specified buffers to the audio hardware.
从RTP会话中接收音频数据,解码,发送给播放设备进行播放。
This second graph shows the filters needed to receive data from an RTP session decode it and send it to the playback device.
在回放或录音过程中,您可以配置将用于缓冲音频数据的内存容量。
You may configure the amount of memory that will be used for buffering audio data during playback or record.
噪声消除用于有效地去除音频数据中的噪声,而对音质的影响很小。
The noise reduction function can be used to effectively remove annoying noise material from the audio with very little or almost no discoloration of the original audio.
我们研究过这两个幅度和时间错误的腐蚀音频数据传输的接口上的可能性。
We have examined the possibilities of both amplitude and timing errors corrupting audio data transmitted across an interface.
接收端采用数据缓冲机制,避免了由于网络延时等待音频数据而产生的话音停顿。
The receiving point adopts data buffer mechanism to avoid the pause caused by delay of network.
本文通过获取视音频数据和卫星定位数据,实现了对事发现场信息的采集和管理。
The scene information collection and management can be achieved through access to video and audio data and satellite positioning data in this paper.
如果您试图连接一系列的视频或音频数据到一个单一的剪辑,这也可能是有问题的。
If you are trying to concatenate a series of clips or audio data into a single clip, that could also be problematic.
音乐是一类重要的音频数据,传统的音乐信息检索都是基于元数据的检索,使用受限。
The traditional music information retrieval system is almost based on metadata, and the use is limited.
音乐是一类重要的音频数据,传统的音乐信息检索都是基于元数据的检索,使用受限。
Music timbre analysis and similarity computation are two of the most important research directions in Music Information Retrieval field.
随着数字化音像制品和音乐制品的大量制作和发行,音频数据的版权保护显得越来越重要。
With digital audio and video recordings and music products of mass production and distribution of audio data copyright protection has become more important than ever.
音频数据的存在形式有静态与动态之分,在检索层次上也有表示级检索和语义级检索之分。
Audio data can be static or dynamic, and the audio retrieval can be at expression level or semantic level.
利用本发明可以在所有音频数据流皆为静音的状态下,关闭扬声器,停止播放音频数据流。
The invention can close the speaker and stop playing the audio data streams when all the audio data streams are in the mute state.
多媒体应用程序,比如因特网电话,需要实时播放音频,于是就要处理内存中的音频数据。
Multimedia application, such as an Internet phone, requires playing sound in real time. Thus we are going to deal with in-memery audio data.
介绍了在地下漏水探测仪中用CPLD实现高速音频数据采集控制及与单片机的接口逻辑设计。
The gathering and controlling of high speed data of audio frequency by CPLD and the logic design of interface are introduced for underground water leakage detecting instrument.
IEEE1394接口具有良好的物理特性和高速数据传输能力,非常适合数字视音频数据传输。
The IEEE1394 interface has the good physical property and the high speed data transmission capacity, extremely suits the numeral regards the audio frequency data transmission.
原本的研究内容是呵斥。通过参与者自愿提供的记录父母居家生活的音频数据——如准备餐饭、洗澡、熄灯后。
He originally set out to study yelling, via voluntary audio recordings of parents conducting life at home - the pedestrian stuff of parenting like meal prep, bath time and lights out.
该文介绍了一种实时传输协议rtp,并给出了采用该协议进行音频数据实时传输的实现过程及方法。
In this article, real-time transport protocol (RTP) is introduced, mechanism and method of audio-data transmission based on RTP is demonstrated.
那么,如何保证用户在巨量的视音频数据中快速方便地找到合适的数据,如何对这些数据进行有效的管理?。
Then, there arises the problem of how to guarantee the users to quickly find suitable data among the mass of audio-video resources, and how to effectively manage these data?
LinuxBluetooth设备上使用BlueZSCOAPI的应用程序现在可以发送音频数据到耳机上。
An application on the Linux Bluetooth device that USES BlueZ SCO APIs can now send audio data to the headset.
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