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远程视频会议系统
- 本程序在Windows XP、Visual C++6.0版本环境下编译通过。需要rtcdll.dll文件(此文件一般在Windows安装目录下的system32文件夹中)。 另外,MMSYSTEM.H头文件一般在“C:\\Program Files\\Microsoft Visual Studio\\VC98 \\Include”目录下 运行程序需要摄像头和麦克风等设备。 -this program in Windows XP, Visual C Version 6.0 enviro
AVChat1
- AVChat: 音视频聊天演示程序。聊天双方一个作为服务器,一个作为客户机。客户机呼叫服务器建立连接之后,即可进行音视频聊天——双方都可以看到对方的图像,可以听到对方的声音。 要求的系统配置:USB摄像头或数码摄像机,声卡,麦克风等。-AVChat : audio and video chat Demonstration Program. Chat both as a server, as a client. Clients call server to connect, can hold au
meetingsystem
- 本程序在Windows XP、Visual C++6.0版本环境下编译通过。需要rtcdll.dll文件(此文件一般在Windows设备安装目录下的system32文件夹中)。本程序运行需要摄像头和麦克风等。-this program in Windows XP, Visual C Version 6.0 environment compile. Need rtcdll.dll document (file general equipment installed in the Windows d
shipinhuiyi
- 视频会议:本程序在 Windows XP、Visual C++ 6.0 环境下编译通过,但需要rtcdll.dll文件(一般在Windows系统安装目录下的system32文件夹中)。另外,需要摄像头和麦克风等设备。-video conferencing : this program in Windows XP, Visual C Compiler 6.0 environment, but the need rtcdll.dll paper (usually in the Windows sys
VedioMeeting
- 本程序在 Windows XP、Visual C++ 6.0 环境下编译通过,但需要rtcdll.dll文件(一般在Windows系统安装目录下的system32文件夹中)。另外,需要摄像头和麦克风等设备。-this program in Windows XP, Visual C Compiler 6.0 environment, but the need rtcdll.dll paper (usually in the Windows system directory to install t
BA1404
- 利用BA1404 芯片来制作的无线话筒哦,大家快来看看哦,特别是作课程设计的-BA1404 use of the chips to produce wireless microphones Oh, we Come see flash open her cloak, especially for course design
sound_location
- 实现声源定位功能,利用两个麦克风的语音数据获得原始声源的位置!-Achieve sound localization function, using two microphones for voice access to the original source data location!
DE2_i2sound
- 利用de2实现卡拉OK机(麦克风)的设计 用verilog语言编写-Achieved using de2 Kara OK machine (microphones) are designed using verilog language
kdvp16
- KDVoicePhone Toolkit开发工具可以使你的应用程序获得声音和电话方面的特性,如:a.. 打电话或回电话;b.. 如果对话已经在进行,可以中途接听;c.. 在电话线或声卡中回放和记录音频;d.. 从电话线中检测音频信号和脉冲信号;e.. 捕获呼叫方ID;f.. 可控制本机听筒,外部的麦克风和MODEM的外部喇叭;g.. 定时事件来跟踪回放和录音的过程;h.. 录音时可检测静音;-KDVoicePhone Toolkit development tools can make your
Anapplicationsystemofprobabilisticsoundsourcelocal
- 结合马尔可夫过程,提出一种概率论的声源定位算法,并给出了基于DSP的机器人实现。其中声源定位部分采用三个麦克风呈三角形放置,为减小由于噪声等引起的TDOA估计误差,采用马尔可夫过程计算时延,这样计算的时延会更可靠。该方案中的声源定位也属于一维定位,即只需知道声源的方向角-Combination of Markov process, a probability theory of sound source location algorithm, and give the robot based o
Micro_Localization
- This function localizes a single source from a frame of data received at the microphones. It uses the Steered Response Power with the PHAse Transform (SRP-PHAT) as the functional.
delest3mic
- 2D Acoustic source location. This simulates an acoustic source traveling in a semi-circle around 3 microphones. You can see the semi-circle and the estimate. You can change various parameters.
srplems
- This function uses SRP-PHAT with Stochastic Region Contraction (SRC) global-optimization algorithm to locate a single source using a frame of data and M microphones.
SimuMicros3D_MultiSo_MultiMic
- This code permit to simulate the sound received on microphones given their positions, the positions of the sound source(s), the frequency sampling of acquisition and the speed of sound. Assuming anechoical conditions.
vmeeting
- 使用本系统,您可以利用普通的PC机、标准的视频采集设备、耳机和麦克风就能进行基于Internet的虚拟会议。与传统的基于硬件的解决方案相比,本视频会议系统是纯软件的解决方案。您无需投入高昂的成本,就能够实现高质量、高可靠性的音视频通讯、文字交流、文档共享、电子白板等多种会议功能,有效地节约时间和经费,提高企业的工作效率-Use of this system, you can use an ordinary PC, a standard video capture devices, headpho
pattern
- beamfoming pattern for microphones using delay and sum beamformer
srplems
- This function uses SRP-PHAT with Stochastic Region Contraction (SRC) global-optimization algorithm to locate a single source using a frame of data and M microphones. Hoang Do - LEMS, Division of Engineering, Brown University.
MICBTN
- wince下的一个手咪按键的驱动,按下手咪的按键给应用发送键码,实现语音通话-Under the hand of a wince mi buttons drive, according to lay their hands on the keys to the microphones used FaSongJian code, realize voice calls
24l01
- 基于nRF24l01的短距离无线传声器的设计-Based on nRF24l01 short-range wireless microphones design
DEMO_BSS
- The technique for estimation of individual components source from their mixtures at multiple sensors is known as blind source separation (BSS). In a real room environment, one well known BSS application is the separation of audio sources which have b