burst error
简明释义
突发错误
英英释义
例句
1.The network experienced a burst error that affected the integrity of the received data.
网络经历了一次突发错误,影响了接收数据的完整性。
2.During data transmission, a burst error occurred, causing several packets to be lost.
在数据传输过程中,发生了一个突发错误,导致多个数据包丢失。
3.A burst error can occur due to interference from nearby electronic devices.
由于附近电子设备的干扰,可能会发生突发错误。
4.To mitigate burst errors, we implemented error correction codes in our system.
为了减轻突发错误,我们在系统中实施了错误纠正编码。
5.In digital communications, a burst error refers to a sequence of erroneous bits.
在数字通信中,突发错误指的是一系列错误位。
作文
In the realm of digital communication, data integrity is paramount. One of the significant challenges faced by network engineers and data analysts is the occurrence of errors during data transmission. Among these, a particularly troublesome phenomenon is known as burst error, which refers to a situation where multiple bits of data are corrupted in a short period. This can happen due to various reasons, including electromagnetic interference, signal degradation, or hardware malfunctions. Understanding burst error is crucial for developing effective error detection and correction mechanisms in digital communication systems.To illustrate, consider a scenario where a large file is being transferred over a network. During this transfer, if a sudden spike in electromagnetic interference occurs, it may result in a burst error. Instead of just one bit being affected, several consecutive bits might be corrupted, leading to a larger segment of the data being compromised. This can significantly impact the overall quality of the data received, making it essential for systems to be equipped with robust error-correcting codes that can detect and rectify such occurrences.There are various methods employed to handle burst error. One common approach is the use of cyclic redundancy checks (CRC), which help in identifying errors in the received data. If a burst error is detected, the system can request a retransmission of the affected data packet. Another technique is the implementation of interleaving, which spreads out the bits of data across different packets. By doing so, even if a burst error occurs, only a small portion of the data may be lost, rather than an entire segment.The implications of burst error extend beyond just data integrity. In critical applications, such as medical devices or aviation systems, the consequences of undetected errors can be severe. Therefore, engineers must prioritize the design of systems that can withstand such errors effectively. This not only involves choosing appropriate error correction algorithms but also ensuring that the hardware used in data transmission is resilient against potential sources of interference.Moreover, the rise of wireless communication has introduced additional complexities in dealing with burst error. Unlike wired connections, wireless signals are more susceptible to environmental factors, leading to an increased likelihood of burst error occurrences. As technology advances, researchers are continuously exploring new ways to mitigate these errors, including adaptive coding techniques that adjust based on the current signal quality.In conclusion, understanding burst error is vital for anyone involved in the field of digital communication. It highlights the importance of data integrity and the need for effective error management strategies. As we continue to rely on digital systems for everyday communication, being aware of potential pitfalls like burst error will enable us to create more reliable and efficient networks. Ultimately, addressing these challenges not only enhances user experience but also safeguards critical information in an increasingly digital world.
在数字通信领域,数据完整性至关重要。网络工程师和数据分析师面临的一个重大挑战是数据传输过程中出现的错误。其中,一个特别麻烦的现象被称为突发错误,它指的是在短时间内多个数据位被损坏的情况。这可能由于各种原因引起,包括电磁干扰、信号衰减或硬件故障。理解突发错误对于开发有效的错误检测和纠正机制在数字通信系统中至关重要。例如,考虑一个大型文件通过网络传输的场景。在此传输过程中,如果突然发生电磁干扰的峰值,可能导致突发错误。而不是仅仅一个比特受到影响,几个连续的比特可能会被损坏,导致接收的数据的大部分段落受到损害。这可能会显著影响接收到的数据的整体质量,因此系统必须配备强大的错误校正代码,以便能够检测和纠正这种情况。处理突发错误的方法有多种。一种常用的方法是使用循环冗余检查(CRC),它有助于识别接收数据中的错误。如果检测到突发错误,系统可以请求重新传输受影响的数据包。另一种技术是实施交错,这将数据位分散到不同的数据包中。通过这样做,即使发生突发错误,也可能只丢失一小部分数据,而不是整个段落。突发错误的影响不仅限于数据完整性。在关键应用中,例如医疗设备或航空系统,未检测到的错误可能会产生严重后果。因此,工程师必须优先设计能够有效抵御这些错误的系统。这不仅涉及选择适当的错误校正算法,还确保用于数据传输的硬件能够抵抗潜在干扰源。此外,无线通信的兴起在处理突发错误方面引入了额外的复杂性。与有线连接不同,无线信号更容易受到环境因素的影响,从而增加了突发错误发生的可能性。随着技术的发展,研究人员不断探索减轻这些错误的新方法,包括基于当前信号质量调整的自适应编码技术。总之,理解突发错误对任何参与数字通信领域的人来说都是至关重要的。它突出了数据完整性的重要性以及有效的错误管理策略的必要性。随着我们继续依赖数字系统进行日常通信,意识到像突发错误这样的潜在陷阱将使我们能够创建更可靠和高效的网络。最终,解决这些挑战不仅提升用户体验,还能在日益数字化的世界中保护关键信息。
