signal length
简明释义
信号长度
英英释义
The duration or extent of a signal, often measured in time or distance, that indicates the period over which the signal is active or relevant. | 信号的持续时间或范围,通常以时间或距离来测量,指示信号有效或相关的时间段。 |
例句
1.Longer signal lengths 信号长度 can lead to increased latency in network communications.
更长的信号长度 信号长度可能导致网络通信中的延迟增加。
2.In wireless communication, optimizing the signal length 信号长度 can enhance the quality of the connection.
在无线通信中,优化信号长度 信号长度可以提高连接质量。
3.The engineer adjusted the signal length 信号长度 to improve the performance of the antenna.
工程师调整了信号长度 信号长度以提高天线的性能。
4.The signal length 信号长度 must be measured accurately to ensure proper calibration of the equipment.
必须准确测量信号长度 信号长度以确保设备的正确校准。
5.The data transmission rate is affected by the signal length 信号长度 of the cable used.
数据传输速率受到所用电缆的信号长度 信号长度的影响。
作文
In the realm of telecommunications and data transmission, the concept of signal length plays a crucial role in determining the quality and reliability of communication. Signal length refers to the duration or extent of a transmitted signal, which can significantly impact how data is received and interpreted by the receiving end. Understanding signal length is essential for engineers and technicians who design and maintain communication systems, as it directly influences factors such as bandwidth, latency, and overall system performance.One of the primary aspects of signal length is its relationship with bandwidth. Bandwidth is the range of frequencies within a given band that can be used for transmitting a signal. A longer signal length can lead to a wider bandwidth, allowing more data to be transmitted simultaneously. This is particularly important in high-speed internet connections, where users expect fast download and upload speeds. Conversely, if the signal length is too short, it may limit the amount of data that can be sent, causing delays and interruptions in service.Moreover, signal length also affects latency, which is the time it takes for data to travel from the sender to the receiver. In applications where real-time communication is critical, such as online gaming or video conferencing, minimizing latency is paramount. A longer signal length can introduce additional delays, especially in wireless communications where signals must traverse various obstacles. Therefore, engineers must carefully consider the optimal signal length to ensure minimal latency while maintaining signal integrity.In addition to bandwidth and latency, the concept of signal length is also significant when it comes to signal degradation. As a signal travels over distances, it can lose strength and clarity due to various factors, including interference from other signals, physical barriers, and atmospheric conditions. By optimizing signal length, engineers can enhance the robustness of the signal, ensuring that it maintains its quality over longer distances. This is particularly relevant in satellite communications, where signals must travel vast distances to reach their destinations.Furthermore, understanding signal length is essential in the context of digital signal processing. In this field, the manipulation and analysis of signals are performed using algorithms that rely on the precise measurement of signal length. For instance, in audio processing, the signal length determines the sampling rate and the fidelity of sound reproduction. A longer signal length allows for more detailed audio representation, making it vital for applications like music production and broadcasting.In conclusion, the importance of signal length in telecommunications cannot be overstated. It affects bandwidth, latency, signal degradation, and digital signal processing, all of which are critical components of effective communication systems. As technology continues to advance, a deeper understanding of signal length will enable engineers to develop more efficient and reliable communication networks, ultimately enhancing the user experience in our increasingly connected world.
在电信和数据传输领域,信号长度的概念在确定通信的质量和可靠性方面起着至关重要的作用。信号长度指的是传输信号的持续时间或范围,这会显著影响数据在接收端的接收和解释。理解信号长度对设计和维护通信系统的工程师和技术人员至关重要,因为它直接影响带宽、延迟和整体系统性能等因素。信号长度的一个主要方面是其与带宽之间的关系。带宽是指可以用于传输信号的频率范围。较长的信号长度可以导致更宽的带宽,允许更多的数据同时传输。这在高速互联网连接中尤为重要,用户期望快速的下载和上传速度。相反,如果信号长度过短,可能会限制可以发送的数据量,导致服务的延迟和中断。此外,信号长度还会影响延迟,即数据从发送方到接收方所需的时间。在实时通信至关重要的应用中,例如在线游戏或视频会议,最小化延迟是至关重要的。较长的信号长度可能会引入额外的延迟,特别是在无线通信中,信号必须穿越各种障碍。因此,工程师必须仔细考虑最佳的信号长度,以确保在保持信号完整性的同时实现最小延迟。除了带宽和延迟,信号长度的概念在信号衰减的上下文中也很重要。当信号在距离上传播时,由于各种因素,包括来自其他信号的干扰、物理障碍和大气条件,信号的强度和清晰度可能会降低。通过优化信号长度,工程师可以增强信号的鲁棒性,确保其在较长距离上保持质量。这在卫星通信中特别相关,因为信号必须在广阔的距离上传播以到达目的地。此外,了解信号长度在数字信号处理的背景下也至关重要。在这一领域,使用依赖于精确测量信号长度的算法来进行信号的操纵和分析。例如,在音频处理过程中,信号长度决定了采样率和声音再现的保真度。较长的信号长度允许更详细的音频表示,这对于音乐制作和广播等应用至关重要。总之,信号长度在电信中的重要性不容小觑。它影响带宽、延迟、信号衰减和数字信号处理,所有这些都是有效通信系统的关键组成部分。随着技术的不断进步,对信号长度的更深入理解将使工程师能够开发出更高效、更可靠的通信网络,最终提升我们日益互联的世界中的用户体验。
相关单词
