bitstream

简明释义

英[ˈbɪtstriːm]美[ˈbɪtstriːm]

n. 数码流；比特流

英英释义

单词用法

同义词

反义词

例句

1.The TCPIPClient Receive node takes data (of the dynamically configured length) from the bitstream and propagates it to the following node as a BLOB domain message.

TCPIPClient Receive节点从比特流中获取数据(动态配置的长度)，并将其作为blob域消息传播到后面的节点。

2.The techniques can be applied in two modes: (1) bitstream or (2) pixel mode.

所述技术可以两种模式来应用：(1)位流模式或(2)像素模式。

3.This does not mean that the message must be in one of the XML domains, but the bitstream must contain well-formed XML.

这并不意味着消息必须属于某个xml域，但是位流必须包含格式正确的XML。

4.The basic idea is to change the enhancement bitstream transmitted to improve the performance while the base layer remains the same.

基本思想是保持基本层码流不变的情况下，根据带宽的变化动态地改变传输中的码流来提高视频质量。

5.You then build a final, shippable bitstream which gets burned onto your platform flash, or whatever method your design USES to configure the FPGA.

然后可以构建烧制到平台闪存的最终可发行的比特流，或者构建设计用来配置FPGA的任何方法。

6.We address the scalable video bitstream protection and adaptation problem by a set of joint source network coding techniques for robust streaming video to heterogeneous users simultaneously.

论文通过相关的信源网络联合编码技术解决了可分级码流的保护和自适应问题，将其用于同时面向异构用户的流媒体鲁棒传输。

7.Specification: one kind of bitstream in which each slice only contains one line of Macroblock, but does not contain skipped Macroblock.

说明：一种编码比特流，其每个条带只包含一行宏块，而且不包含跳过宏块。

8.Digital televisions decode the bitstream to display high-definition content.

数字电视解码比特流以显示高清内容。

9.The bitstream format used in this application allows for real-time data processing.

此应用程序中使用的比特流格式允许实时数据处理。

10.To transmit video over the internet, the bitstream must be compressed to save bandwidth.

为了通过互联网传输视频，必须压缩比特流以节省带宽。

11.In data transmission, errors can occur if the bitstream is not properly synchronized.

在数据传输中，如果比特流没有正确同步，可能会发生错误。

12.The audio quality of the recording depends on the clarity of the bitstream.

录音的音质取决于比特流的清晰度。

作文

In the modern world, the way we communicate and share information has drastically changed. One of the key components of this transformation is the concept of a bitstream, which refers to a continuous flow of bits that represent digital data. Understanding bitstream is essential for grasping how data is transmitted over networks, particularly in the realms of audio, video, and internet communications.A bitstream can be visualized as a sequence of binary digits (0s and 1s) that are sent over various mediums, such as cables, fiber optics, or even wirelessly. This stream of bits is the foundation of all digital communication. For instance, when you watch a movie online, the video file is broken down into a bitstream that is transmitted to your device in real-time. Your device then decodes this bitstream to display the movie on your screen.The efficiency of a bitstream is crucial for ensuring smooth playback and minimal buffering. If the bitstream is interrupted or slowed down, viewers may experience delays or interruptions, which can be frustrating. This is why internet service providers invest heavily in infrastructure to ensure that they can deliver high-quality bitstream services to their customers.Moreover, bitstream technology is not limited to entertainment. It plays a vital role in various applications, including teleconferencing, online gaming, and cloud computing. In these scenarios, the quality of the bitstream can significantly impact user experience. For example, during a video call, a stable and fast bitstream is necessary to maintain clear audio and video quality. Any disruption can lead to choppy audio or pixelated video, hindering effective communication.Additionally, the concept of bitstream extends beyond simple data transmission. It also encompasses aspects of data compression and encoding. Different formats of bitstream can be used to optimize the size of files while maintaining quality. This is particularly important in an era where storage space and bandwidth are often limited. Technologies like MP3 for audio and H.264 for video are examples of how bitstream encoding can reduce file sizes without significant loss of quality.As technology continues to evolve, so does the significance of bitstream. The rise of 5G networks promises to enhance the speed and capacity of bitstream transmission, enabling even more advanced applications like virtual reality and augmented reality. These technologies rely heavily on fast and reliable bitstream delivery to function effectively, opening up new possibilities for entertainment, education, and professional collaboration.In conclusion, the term bitstream encapsulates a fundamental aspect of our digital lives. From streaming movies to engaging in online meetings, understanding bitstream helps us appreciate the complexities of digital communication. As we move forward in this ever-connected world, the importance of efficient bitstream transmission will only continue to grow, shaping the future of how we interact with technology and each other.

在现代世界中，我们交流和分享信息的方式发生了巨大的变化。这个转变的关键组成部分之一是“bitstream”的概念，它指的是表示数字数据的比特的连续流。理解bitstream对于掌握数据如何通过网络传输至关重要，特别是在音频、视频和互联网通信领域。可以将bitstream视为一系列二进制数字（0和1），这些数字通过各种媒介（如电缆、光纤甚至无线）发送。这种比特流是所有数字通信的基础。例如，当您在线观看电影时，视频文件被分解成一个bitstream，实时传输到您的设备。然后，您的设备解码这个bitstream，在屏幕上显示电影。bitstream的效率对于确保流畅播放和最小缓冲至关重要。如果bitstream被中断或减慢，观众可能会经历延迟或中断，这可能令人沮丧。这就是为什么互联网服务提供商在基础设施上投入巨资，以确保他们能够向客户提供高质量的bitstream服务。此外，bitstream技术不仅限于娱乐。它在各种应用中发挥着重要作用，包括视频会议、在线游戏和云计算。在这些场景中，bitstream的质量可以显著影响用户体验。例如，在视频通话期间，稳定和快速的bitstream是维持清晰音频和视频质量所必需的。任何中断都可能导致音频不清晰或视频像素化，从而妨碍有效沟通。此外，bitstream的概念超越了简单的数据传输。它还包括数据压缩和编码的各个方面。可以使用不同格式的bitstream来优化文件的大小，同时保持质量。在存储空间和带宽通常有限的时代，这一点尤为重要。像MP3音频和H.264视频这样的技术就是bitstream编码如何在不显著损失质量的情况下减少文件大小的例子。随着技术的不断发展，bitstream的重要性也在不断增加。5G网络的兴起有望增强bitstream传输的速度和容量，从而使虚拟现实和增强现实等更先进的应用成为可能。这些技术在有效运作中严重依赖快速和可靠的bitstream传递，为娱乐、教育和专业协作开辟了新的可能性。总之，bitstream这个术语概括了我们数字生活的一个基本方面。从观看电影到参与在线会议，理解bitstream帮助我们欣赏数字通信的复杂性。随着我们在这个日益互联的世界中前进，高效的bitstream传输的重要性只会继续增长，塑造我们与技术和彼此互动的未来。