Motion Estimation plays a very important part in video encoder, which accounted for more than 50% of the amount of coding.
运动估计是视频编码器的重要组成部分,占整个压缩编码50%以上的计算量。
These common motion parameters are used for generating a default temporal prediction without the need to transmit related motion vectors from the encoder to the decoder.
这些公共运动参数用于在不需要将相关的运动参数从编码器传输至解码器的情况下,生成默认时间预测。
Axial motion and misalignment (radial and angular offset) between the encoder shaft and the drive shaft are compensated by the coupling.
轴向运动和编码器之间的轴和驱动轴偏差(径向和角向偏移)进行补偿的耦合。
Microprocessor, dedicated motion controller and driver, optical electronic encoder were used to realize servo closed-loop motion control.
采用微处理器、专用的运动控制和驱动芯片以及光电编码器实现了机器人关节的伺服闭环运动控制;
The new features increase the complexity and computation load of motion estimation greatly in H. 264 encoder.
然而这些新技术的使用大大增加了H . 264编码器运动估计的复杂度和计算负载。
Based on evolution strategies (ESs) a novel adaptive motion estimation search algorithm is presented in order to improve the encoder quality.
为了进一步提高编码质量并能快速编码,提出了一种新的基于进化策略的自适应运动估计算法。
Incremental motion encoder (IME) is a new type of transducer for shaft center trace measurement with resolution up to sub-micro.
运动增量编码器(IME)是一种新型的轴心轨迹测量传感器,其测量灵敏度可以达到亚微米级。
This paper research the MPEG-4 standard and realize the software prototype of the MPEG-4 video codec. The paper emphasize two key techniques in MPEG-4 encoder: Motion Estimation and Bit Rate Control.
本论文研究了MPEG - 4标准,在实现MPEG - 4视频编解码器软件原型的基础上,重点研究了编码过程中的两项关键技术:运动估计和码率控制。
The microprocessor, dedicated motion controlling and driving chip, optical encoder are adopted to realize the joints 'closed-loop servo motion control.
它采用了微处理器、专用的运动控制和驱动芯片以及光电编码器,实现了机器人关节的伺服闭环运动控制。
You can use external triggers from a motion sensor, such as an encoder, or National Instruments IMAQ boards to trigger line scan cameras.
你也可以使用移动元件的终端启动器,例如编码仪,或国家仪器IMAQ委员会指定的启动式线性扫描相机。
Motion estimation and compensation costs the most resource in MPEG-4 encoder and decoder, and people are always seeking the emulative algorithm of motion estimation and compensation.
运动估计和补偿在MPEG - 4编码器和解码器中占用资源最多,人们直寻求较有竞争力的运动估计和补偿的算法。
For bit rate video application, a rational profile is selected according to analysis of main encoder tools. Fast motion search method and integer transform are implemented by using SIMD technique.
针对低码率应用,分析各编码工具的性能并选取合理编码框架,同时利用单指令多数据(SIMD)技术并行实现快速搜索及整数变换。
Conventional video encoder needs large amount of extra memory and circuit to implement the motion-detection function, and has a large computational complexity on rate-control function.
传统视频编码器需要增加大量额外的存储器和电路完成以运动检测功能,且码率控制算法也比较复杂。
Conventional video encoder needs large amount of extra memory and circuit to implement the motion-detection function, and has a large computational complexity on rate-control function.
传统视频编码器需要增加大量额外的存储器和电路完成以运动检测功能,且码率控制算法也比较复杂。
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