本文研究增强人体关节动画中运动细节描述的关键帧调整和插值方法。
This paper researches method of key frame editing and interpolation for human animation motion detail enhancement.
信息传输需要在同步环境下进行,码速调整技术和帧调整技术是创造同步环境经常采用的两种技术。
Information is transported through a synchronized path, so the pulse justification and the frame justification are the mostly adopted methods.
实际上这也促使佳能在5d MkII上做了一些改变,比如增加了帧速调整功能。
In fact, this occurrence led to Canon making a number of changes to the D5 Mk II, adding frame speed adjustment, for example.
mwarn-framesize=framesize和 -mwarn-dynamicstack:这些选项会引起在编译时检查函数是否超过给定的堆栈帧(stack frame)大小或使用动态调整的堆栈帧。
mwarn-framesize=framesize and -mwarn-dynamicstack: These options cause a compile-time check whether a function exceeds a given stack frame size or uses dynamically sized stack frames.
在10帧每秒模式下,相机将连续不断地对迎面跑来的人调整焦距。
In this ten-shots-a-second mode, someone running directly at the camera remains in focus continuously.
在10帧每秒模式下,相机将连续不断地对迎面跑来的人调整焦距。(下图里的每帧图片是在这种特定触发模式下拍摄的三分之一。10帧每秒看来足够了。)
In this ten-shots-a-second mode, someone running directly at the camera remains in focus continuously. You're actually seeing only about a third of the photos from this particular burst.
这些关键帧,然后在时间线调整,以便在箱子边折叠起来顺序。
These keyframes are then adjusted in the timeline so that the sides of the box fold up sequentially.
这个问题产生的根源在于,按照每秒24帧的速度拍摄的胶片,需要被调整到与电视机每秒60帧,120帧甚至240帧的刷新频率相适应。
The source of the problem is the way film shot at 24 frames a second has to adjust to the television's much higher refresh rate of 60, 120 or even 240 frames a second.
在时间线工作,添加额外的关键帧和f曲线的调整,以便创造一个更有趣和充满活力的动画。
Working in the timeline, additional keyframes are added and f curves adjusted in order to create a more interesting and dynamic animation.
同时,通过动态调整系统每帧的规划时间,可同时达到非线性函数局部线性化和限时求解的双重目的。
Then by changing the programming time of every frame, local linearization of the nonlinear function and time-critical computing can be achieved simultaneously.
四帧大小调整方法提供裁切,拉伸,保留长宽比和定制。
Four ways of frame size adjustment are provided-Crop, Stretch, Preserve aspect ratio and Customize.
本发明利用视频画面帧间的相关度来动态调整信道带宽,能够减少预测误差,使信道分配更准确。
The invention utilizes the relevancy among the video picture frames to dynamically adjust the channel bandwidth and can reduce prediction error and allocate channel more correctly.
为了改进此缺点,基于GOP的整体情况自适应调整I帧的量化参数,从而避免缓冲区溢位与跳帧的问题。
To modify this, we regulate adaptively the quantization parameter of each I-frame according to GOP complexion to avoid the buffer overflow and frame-skipping.
该算法思想是,统计每一帧中发生碰撞的时隙数,根据碰撞时隙数、帧长度与标签数的关系估计出标签数,然后根据标签数动态调整帧长度的大小。
The algorithm counts the number of collision slots in a frame, then estimates the number of tags according to collision slots and frame length, dynamically adjusts the frame length according to tags.
本算法通过比较最近播放的多媒体帧的播放时间标记,调整各连续帧的播放持续时间来取得较好的时间控制。
This timing control algorithm is designed by comparing the time stamp of multimedia frame recently flipped and adjusting the playing time of last frame.
首先,建立图像每一像素点的高斯分布模型,并根据序列中的当前帧及历史帧信息自适应地调整模型的参数。
First, a Gaussian distribution model for image pixel is proposed. The parameters contained in the model are adaptively updated based on the information from the current and historical frames.
同时,论文提出的码率控制算法还对宏块层的率失真优化过程做了改进,根据每个宏块的预测目标比特数来调整率失真优化的拉格朗日系数,使帧层码率控制效果更优。
At the same time, this paper also improves the process of RDO in the macroblock layer. Based on the prediction bits of the macroblock, the Lagrange coefficient has been modified adaptively.
同时,论文提出的码率控制算法还对宏块层的率失真优化过程做了改进,根据每个宏块的预测目标比特数来调整率失真优化的拉格朗日系数,使帧层码率控制效果更优。
At the same time, this paper also improves the process of RDO in the macroblock layer. Based on the prediction bits of the macroblock, the Lagrange coefficient has been modified adaptively.
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