| 1. | Raid - specific , time - limited error recovery tler
Raid专用的限时差错恢复tler功能 |
| 2. | The error resilient methods to protect human face region is studied
研究了针对人脸特征的差错恢复方法。 |
| 3. | An error recoverable structure based on complementary logic and alternating - retry
基于互补逻辑和交替重试的差错恢复结构 |
| 4. | Modeling for action of recovering from erroneous driving condition based on revised decision tree
基于决策树的驾驶差错恢复行为的建模 |
| 5. | This thesis first narrate h . 263 + encode / decode structure , then briefly teli of the progress of error resilience
263 +编解码系统结构。其次,总体上描述了差错恢复技术。 |
| 6. | H . 26l has such advantages as high compression rate , strong error resilience capacity , high adaptability and so on
该标准具有压缩率高、差错恢复能力强、适用范围广等优点。 |
| 7. | In error recovery , the passing of control from a recovery routine to a higher - level recovery routine along a preestablished path
在差错恢复技术中,控制权沿预定路线从某个恢复例行程序传递给高一级的恢复例行程序的过程或处理方法。 |
| 8. | As the latest standard in video codec field , h . 264 has such advantage as high compression rate , strong erroe resilience capacity , highly adaptability and so on
作为视频编解码领域的最新标准, h . 264具有压缩率高、差错恢复能力强、适用范围广等优点。 |
| 9. | As the solution to this serious problem , video error recovery and concealment techniques thus play a key role and attract more and more attentions in current video compression and communication
解决这一问题的视频差错恢复和掩盖技术因而正成为当前视频压缩及通信领域中十分关键、活跃的前沿技术。 |
| 10. | At the end of the thesis , the author gave the simulation results of several reliable multicast protocols that did some improvement on scalability . we can conclude that hrms makes a better tradeoff between the packet delivery latency and the traffic load
文中最后通过模拟的方法比较了几个改进的可扩展的可靠组播协议,表明可扩展性可靠组播协议hrms具有较短的差错恢复延时与较高的带宽利用率。 |
