unidirectional transmission

简明释义

单向传输

英英释义

例句

1.In a standard audio system, the microphone uses unidirectional transmission to capture sound from one direction only.

在标准音频系统中，麦克风使用单向传输仅捕捉来自一个方向的声音。

2.Many wireless communication systems rely on unidirectional transmission to maintain a clear signal.

许多无线通信系统依赖于单向传输以保持清晰的信号。

3.In robotics, unidirectional transmission is often used to control the movement of robotic arms.

在机器人技术中，单向传输通常用于控制机器人手臂的运动。

4.The design of the laser used in this experiment allows for unidirectional transmission of light.

本实验中使用的激光设计允许光的单向传输。

5.The unidirectional transmission of data in this network ensures that information flows in one direction, reducing the risk of interference.

该网络中的单向传输确保信息以单一方向流动，从而减少干扰的风险。

作文

In today's rapidly evolving technological landscape, communication systems play a pivotal role in connecting individuals and facilitating the exchange of information. One critical concept that often arises in discussions about these systems is unidirectional transmission. This term refers to a mode of communication where data flows in one direction only, from the sender to the receiver, without any feedback or response from the latter. Understanding unidirectional transmission is essential for grasping how various technologies function, especially in contexts where efficiency and clarity are paramount.To illustrate the significance of unidirectional transmission, consider the example of television broadcasting. When a television station transmits a program, the signal travels from the broadcaster to the viewers' televisions. In this scenario, the communication is strictly one-way; viewers receive the content but cannot send any information back to the broadcaster during the transmission. This type of communication allows for the efficient dissemination of information to a large audience simultaneously, which is particularly beneficial for news broadcasts, entertainment shows, and educational programs.Another area where unidirectional transmission is prevalent is in the field of data logging and monitoring. For instance, sensors placed in remote locations can collect data on environmental conditions, such as temperature, humidity, or air quality. These sensors transmit their findings to a central server or database without expecting any input or instructions in return. This process exemplifies how unidirectional transmission can facilitate real-time monitoring and data collection, enabling organizations to make informed decisions based on the information received.However, while unidirectional transmission offers numerous advantages, it also has its limitations. The lack of feedback means that the sender cannot gauge the effectiveness of the communication or understand the receiver's perspective. This can be particularly problematic in situations where interaction is necessary for success, such as in educational settings or customer service scenarios. For example, if a teacher delivers a lecture using a unidirectional transmission approach, students may struggle to engage with the material or ask questions, potentially hindering their learning experience.To overcome the challenges associated with unidirectional transmission, many communication systems have evolved to incorporate bidirectional or interactive elements. In contrast to unidirectional systems, bidirectional communication allows for a two-way exchange of information, fostering engagement and collaboration. This is evident in modern communication platforms, such as video conferencing tools, where participants can share ideas, ask questions, and provide feedback in real time.In conclusion, unidirectional transmission is a fundamental concept in communication systems that describes one-way data flow from sender to receiver. While it is effective for broadcasting information to a wide audience and collecting data from sensors, it is essential to recognize its limitations in contexts requiring interaction and feedback. As technology continues to advance, the integration of bidirectional communication methods will likely enhance the effectiveness of information exchange, allowing for more dynamic and engaging interactions. Understanding the nuances of unidirectional transmission enables us to appreciate the diverse ways in which we communicate and the implications of different communication modes in our daily lives.

在当今快速发展的技术环境中，通信系统在连接个人和促进信息交流方面发挥着关键作用。一个常常出现在关于这些系统的讨论中的重要概念是单向传输。这个术语指的是一种通信模式，其中数据仅以一个方向流动，从发送者到接收者，没有来自后者的任何反馈或响应。理解单向传输对于掌握各种技术的功能至关重要，尤其是在效率和清晰度至关重要的情况下。为了说明单向传输的重要性，可以考虑电视广播的例子。当一个电视台传送节目时，信号从广播者传输到观众的电视。在这种情况下，通信是严格单向的；观众接收内容，但在传输过程中无法向广播者发送任何信息。这种类型的通信允许有效地将信息同时传播给大量观众，这对新闻广播、娱乐节目和教育节目尤其有利。另一个单向传输普遍存在的领域是数据记录和监测。例如，放置在偏远地点的传感器可以收集环境条件的数据，如温度、湿度或空气质量。这些传感器将其发现传输到中央服务器或数据库，而不期待任何输入或指令。这一过程例证了单向传输如何促进实时监测和数据收集，使组织能够根据收到的信息做出明智的决策。然而，尽管单向传输提供了许多优点，但它也有其局限性。缺乏反馈意味着发送者无法评估通信的有效性或理解接收者的观点。这在需要互动才能取得成功的情况下可能特别成问题，例如在教育环境或客户服务场景中。例如，如果教师采用单向传输的方法进行讲座，学生可能会难以参与材料或提出问题，可能会阻碍他们的学习体验。为了克服与单向传输相关的挑战，许多通信系统已经发展出结合双向或互动元素的方式。与单向系统相反，双向通信允许信息的双向交流，促进参与和合作。这在现代通信平台中显而易见，例如视频会议工具，参与者可以实时分享想法、提问并提供反馈。总之，单向传输是通信系统中的一个基本概念，描述了从发送者到接收者的一维数据流。虽然它在向广泛受众广播信息和从传感器收集数据方面有效，但必须认识到在需要互动和反馈的上下文中的局限性。随着技术的不断进步，双向通信方法的整合可能会增强信息交换的有效性，使互动更加动态和引人入胜。理解单向传输的细微差别使我们能够欣赏我们沟通的多样方式以及不同通信模式在日常生活中的影响。