actual digitizing delay

简明释义

实际取数延迟;

英英释义

例句

1.We need to account for the actual digitizing delay when analyzing the performance metrics.

在分析性能指标时，我们需要考虑实际数字化延迟。

2.The software update aims to reduce the actual digitizing delay experienced by users.

软件更新旨在减少用户体验到的实际数字化延迟。

3.The system reported an actual digitizing delay of 10 seconds during the data transfer process.

系统在数据传输过程中报告了10秒的实际数字化延迟。

4.The actual digitizing delay can affect the overall efficiency of our operations.

这实际数字化延迟可能会影响我们操作的整体效率。

5.During the meeting, we discussed how to minimize the actual digitizing delay in our processes.

在会议中，我们讨论了如何最小化我们流程中的实际数字化延迟。

作文

In today's fast-paced digital world, the efficiency of data processing and transmission plays a crucial role in various industries. One term that often arises in discussions about data handling is actual digitizing delay, which refers to the time it takes for an analog signal to be converted into a digital format. This delay can significantly impact the performance of systems that rely on real-time data processing, such as telecommunications, broadcasting, and even medical imaging. Understanding the implications of actual digitizing delay is essential for professionals in these fields to optimize their operations.The actual digitizing delay can be influenced by various factors, including the quality of the hardware used for digitization, the complexity of the data being processed, and the algorithms employed to convert the signals. For instance, high-quality analog-to-digital converters (ADCs) can minimize this delay, allowing for quicker and more accurate data representation. Conversely, outdated or low-quality equipment may introduce significant latency, resulting in slower response times and potential data loss.In telecommunications, for example, the actual digitizing delay can affect voice and video calls. If there is too much delay in digitizing the audio or video signals, users may experience lag, echo, or poor quality, which can hinder effective communication. This is particularly critical in emergency situations where every second counts. Therefore, telecom companies invest heavily in advanced technologies to reduce the actual digitizing delay and enhance user experience.Similarly, in the field of broadcasting, the actual digitizing delay can impact live events. Broadcasters need to ensure that the transition from analog to digital occurs seamlessly to maintain the flow of the broadcast. Any delays can lead to synchronization issues between audio and video, which can be distracting for viewers. To mitigate these risks, broadcasters often use sophisticated equipment and software designed to minimize actual digitizing delay during live transmissions.In the medical field, the implications of actual digitizing delay can be even more pronounced. Medical imaging technologies, such as MRI or ultrasound, rely on the rapid conversion of analog signals to digital images for diagnosis. A delay in this process could result in delayed treatment for patients or misinterpretation of critical data. Therefore, healthcare providers must prioritize minimizing actual digitizing delay to ensure timely and accurate patient care.Moreover, understanding the actual digitizing delay can also provide insights into system performance and user experience. By analyzing the sources of delay, organizations can implement strategies to enhance their processes. For instance, they might upgrade their hardware, optimize their algorithms, or provide training for staff to handle data more efficiently. These improvements not only boost productivity but also contribute to customer satisfaction.In conclusion, the actual digitizing delay is a vital concept in the realm of data processing that affects various industries. By recognizing its significance and actively working to reduce it, professionals can enhance the efficiency and reliability of their systems. Whether in telecommunications, broadcasting, or healthcare, understanding and managing actual digitizing delay is essential for delivering high-quality services and maintaining competitive advantage in an increasingly digital landscape.

在当今快速发展的数字世界中，数据处理和传输的效率在各个行业中发挥着至关重要的作用。一个常常在数据处理讨论中出现的术语是实际数字化延迟，它指的是将模拟信号转换为数字格式所需的时间。这种延迟可能会显著影响依赖实时数据处理的系统的性能，例如电信、广播甚至医学成像。理解实际数字化延迟的影响对于这些领域的专业人士优化其操作至关重要。实际数字化延迟可能受到多种因素的影响，包括用于数字化的硬件质量、被处理数据的复杂性以及用于转换信号的算法。例如，高质量的模数转换器（ADC）可以最小化这种延迟，从而允许更快速、更准确的数据表示。相反，过时或低质量的设备可能会引入显著的延迟，导致响应时间变慢和潜在的数据丢失。例如，在电信中，实际数字化延迟可能会影响语音和视频通话。如果在数字化音频或视频信号时存在过多的延迟，用户可能会经历延迟、回声或质量差的问题，这可能会妨碍有效的沟通。这在紧急情况下尤其关键，因为每一秒都很重要。因此，电信公司大量投资于先进技术，以减少实际数字化延迟并增强用户体验。同样，在广播领域，实际数字化延迟可能会影响现场直播。广播公司需要确保从模拟到数字的转换发生得无缝，以维持广播的流畅性。任何延迟都可能导致音频和视频之间的同步问题，这对观众来说可能是分散注意力的。因此，广播公司通常使用复杂的设备和软件，旨在最小化现场直播中的实际数字化延迟。在医疗领域，实际数字化延迟的影响可能更加明显。医学成像技术，如MRI或超声波，依赖于快速将模拟信号转换为数字图像以进行诊断。这个过程中的延迟可能导致患者治疗延误或关键数据的误解。因此，医疗服务提供者必须优先考虑最小化实际数字化延迟，以确保及时和准确的患者护理。此外，理解实际数字化延迟还可以提供有关系统性能和用户体验的见解。通过分析延迟的来源，组织可以实施策略来增强其流程。例如，他们可能会升级硬件、优化算法或为员工提供培训，以更高效地处理数据。这些改进不仅提高了生产力，还促进了客户满意度。总之，实际数字化延迟是数据处理领域中的一个重要概念，影响着各个行业。通过认识到其重要性并积极努力减少它，专业人士可以提高其系统的效率和可靠性。无论是在电信、广播还是医疗保健领域，理解和管理实际数字化延迟对于在日益数字化的环境中提供高质量服务和保持竞争优势至关重要。