1.
FLAC Free Lossless Audio Codec
自由无损音频解编码
2.
Research on Lossless Audio Decoder Based on ARM Embedded System
基于ARM嵌入式的无损音频解码器研究
3.
Integer Coefficient Predictive Technique and Its Application in Lossless Audio Compression;
整系数预测技术在无损音频压缩中的应用
4.
Research and Implementation of Scalable to Lossless Audio Compression Based on AAZ;
基于AAZ的可分级无损音频编码研究与实现
5.
The Analysis and Simulation on Lossless Audio Coding of Mpeg-4 Standards;
无损音频编码(MPEG-4 ALS)的原理分析与仿真
6.
An Improved Lossless Compression in Digital Audio Coder
一种改进的无损压缩数字音频编码器
7.
Optimize and Design of Automatic Tracing System of Audio Non-Destructive Testing Signal;
音频无损检测信号自动跟踪系统优化与设计
8.
Research of Non-destructive for Watermelon Maturity Based on Its Acoustic Properties
基于音频特性的西瓜成熟度无损检测技术研究
9.
Subjective Assessment of Sound Quality Impairment by Two Kinds of Mainstream Audio Encoding
两种主流音频编码方式的音质损伤主观评价
10.
Unable to create or play an FMOD sound stream. You will not be able nto hear any sound effects or music while playing.
无法创建或播放一个FMOD音频流。您将无法听到游戏中的音效或音乐。
11.
While high-frequency sounds tend to be more hazardous5 and more annoying to hearing than low-frequency sounds, most noise pollution damage is related to the intensity of the sound.
虽然高频声音比低频声音更加危险且恼人,大多数的噪音污染损害却与声音强度有关。
12.
While high frequency sounds tend to be more hazardous and more annoying to hearing than low frequency sounds, most noise pollution damage is related to the intensity of the sound.
虽然高频 声音比低频声音更加危险且恼人,大多数的噪音污染损害却与声音强度有关。
13.
An audio narration cannot be added at this current position.
在此当前位置无法添加音频解说。
14.
Your battery is running low, so further audio playback is not possible.
电池电量不足,因此无法继续播放音频。
15.
Corrected the problem that very short audio clips were not played at all.
修正过短的音频无法播放的问题。
16.
Error: The audio device you selected could not be opened
错误: 无法打开您选择的音频设备
17.
audio-modulated radiosonde
音频调制的无线电探空仪
18.
The Design of Digital Audio Transmission System with Wireless Ethernet;
无线以太网数字音频传输系统的设计