transmission error
简明释义
传输误差
英英释义
例句
1.The data was corrupted due to a transmission error.
由于传输错误,数据被损坏。
2.The technician identified a transmission error in the network settings.
技术人员在网络设置中发现了一个传输错误。
3.We need to check the logs for any transmission errors that occurred during the upload.
我们需要检查上传过程中是否发生了任何传输错误的日志。
4.A transmission error caused the video stream to freeze unexpectedly.
一个传输错误导致视频流意外冻结。
5.To avoid transmission errors, we should use a more reliable connection.
为了避免传输错误,我们应该使用更可靠的连接。
作文
In the age of digital communication, ensuring the accuracy of data transfer has become increasingly vital. One of the common issues that can arise during this process is a transmission error, which refers to the failure to accurately transmit data from one point to another. This can occur in various forms, such as corrupted files, lost packets, or incorrect signals. Understanding the implications of a transmission error is crucial for both individuals and organizations, as it can lead to significant consequences if not addressed properly.To illustrate the importance of recognizing a transmission error, consider a scenario in which a company is relying on real-time data for decision-making. If the data being sent from their servers to their analytics platform encounters a transmission error, the decisions made based on that erroneous data could lead to financial losses or operational inefficiencies. For example, if sales figures are transmitted incorrectly due to a transmission error, the management may mistakenly believe that a particular product is underperforming and decide to cut back on its production, when in reality, the product is selling well.Moreover, in sectors such as healthcare, the stakes are even higher. A transmission error in patient data, such as test results or medication dosages, can have serious repercussions on patient care. If a doctor receives incorrect information due to a transmission error, it could lead to misdiagnosis or inappropriate treatment, potentially endangering a patient's life. Therefore, implementing robust systems to detect and correct transmission errors is essential in these high-stakes environments.To mitigate the risks associated with transmission errors, various strategies can be employed. Error detection and correction algorithms play a critical role in identifying discrepancies in data transmission. Techniques such as checksums, parity bits, and more advanced methods like cyclic redundancy checks (CRC) can help ensure that the data received matches the data sent. When a transmission error is detected, these systems can either request the data to be resent or automatically correct the error if possible.Furthermore, redundancy can also be an effective strategy. By sending multiple copies of the same data through different channels, the likelihood of encountering a transmission error decreases significantly. In addition, using secure and reliable communication protocols can help minimize the chances of errors occurring during data transmission.In conclusion, a transmission error can have far-reaching implications across various fields, from business to healthcare. Understanding what a transmission error is and how it can impact operations is crucial for anyone involved in data handling. By employing effective error detection and correction techniques, as well as implementing redundancy measures, we can significantly reduce the risks associated with transmission errors. As technology continues to advance, maintaining the integrity of data transmission will remain a top priority for ensuring accurate communication and effective decision-making.
在数字通信的时代,确保数据传输的准确性变得越来越重要。在这个过程中可能出现的一个常见问题是传输错误,它指的是数据从一个点到另一个点的传输失败。这可能以各种形式出现,例如文件损坏、丢失的数据包或不正确的信号。理解传输错误的影响对个人和组织都至关重要,因为如果不妥善处理,可能会导致严重的后果。为了说明识别传输错误的重要性,考虑一个公司依赖实时数据进行决策的场景。如果从服务器发送到分析平台的数据因传输错误而受到影响,那么基于该错误数据做出的决策可能会导致财务损失或运营效率低下。例如,如果由于传输错误而传输的销售数据不正确,管理层可能错误地认为某个产品表现不佳,从而决定减少生产,而实际上该产品的销售情况良好。此外,在医疗等领域,风险甚至更高。患者数据中的传输错误,例如测试结果或药物剂量,可能对患者护理产生严重影响。如果医生由于传输错误收到不正确的信息,可能会导致误诊或不当治疗,潜在地危及患者生命。因此,在这些高风险环境中,实施强大的系统以检测和纠正传输错误至关重要。为了减轻与传输错误相关的风险,可以采用各种策略。错误检测和纠正算法在识别数据传输中的差异方面发挥着关键作用。诸如校验和、奇偶校验位以及更高级的方法,如循环冗余检查(CRC),可以帮助确保接收到的数据与发送的数据匹配。当检测到传输错误时,这些系统可以请求重新发送数据,或者在可能的情况下自动纠正错误。此外,冗余也是一种有效的策略。通过通过不同通道发送相同数据的多个副本,可以显著降低遇到传输错误的可能性。此外,使用安全可靠的通信协议可以帮助最小化在数据传输过程中发生错误的机会。总之,传输错误在各个领域可能产生深远的影响,从商业到医疗。了解传输错误是什么以及它如何影响操作对任何参与数据处理的人员来说都是至关重要的。通过采用有效的错误检测和纠正技术,以及实施冗余措施,我们可以显著降低与传输错误相关的风险。随着技术的不断进步,维护数据传输的完整性将始终是确保准确通信和有效决策的首要任务。
