搜索资源列表
audiostegano
- audio steganography using LSB
STM32F10Xspeexvocodervoicecode
- 主要介绍了基于STM32F10X单片机在音频方面speex编解码的C源码-Introduces microcontroller based STM32F10X in audio speex codec C source
c
- 对语音音频进行压缩编码 对语音音频进行压缩编码-Audio compression encoding of voice
DE2_synthesizer
- for development of an audio project. this will prove very helpful for de nios ii media code. thanks.
proj_code01210
- c language program code and etc for audio wtaremark
PB2_audio
- stm32f103c8t6 controller? audio test
labrosa-coversongid
- Beat Tracking and Music Matching - an easy-to-use beat tracker in Matlab, plus code for describing music audio as per-beat chroma features, which is an effective representation for matching songs that have the same melodic/harmonic content despite ch
prac09
- Beat Tracking by Dynamic Programming This page illustrates the use of the beat_* functions to implement a simple music audio beat tracker based on dynamic programming, as described in: D. Ellis Beat Tracking by Dynamic Programming J. New Music R
chroma-ansyn
- Chroma Feature Analysis and Synthesis Chroma features are an interesting and powerful representation for music audio in which the entire spectrum is projected onto 12 bins representing the 12 distinct semitones (or chroma) of the musical octave.
LBG
- lbg matlab code for image/audio processing
Audio-Shiel
- sOUNDCODE FOR ALARM IN PROTEUS
chengxu1
- 音频信号的分帧,fft,相关性分析。自己编的,可生成图像。其中也加了注释- Sub-frame of the audio signal, fft, correlation analysis
Myabsd5
- matlab音频分析,能够画出元时域图和fft后的图,以及滤波后的fft和倒谱图-Figure matlab audio analysis, time-domain diagram element can be drawn and after fft, fft and filtered and inverted spectrum
HM-10.0rc1_init
- H.265是ITU-T VCEG 继H.264之后所制定的新的视频编码标准。H.265标准围绕着现有的视频编码标准H.264,保留原来的某些技术,同时对一些相关的技术加以改进。新技术使用先进的技术用以改善码流、编码质量、延时和算法复杂度之间的关系,达到最优化设置。具体的研究内容包括:提高压缩效率、提高鲁棒性和错误恢复能力、减少实时的时延、减少信道获取时间和随机接入时延、降低复杂度等。H264由于算法优化,可以低于1Mbps的速度实现标清数字图像传送;H265则可以实现利用1~2Mbps的传输速度
h.265
- H.265是ITU-T VCEG 继H.264之后所制定的新的视频编码标准。H.265标准围绕着现有的视频编码标准H.264,保留原来的某些技术,同时对一些相关的技术加以改进。新技术使用先进的技术用以改善码流、编码质量、延时和算法复杂度之间的关系,达到最优化设置。具体的研究内容包括:提高压缩效率、提高鲁棒性和错误恢复能力、减少实时的时延、减少信道获取时间和随机接入时延、降低复杂度等。H264由于算法优化,可以低于1Mbps的速度实现标清数字图像传送;H265则可以实现利用1~2Mbps的传输速度