internal band block

简明释义

内带滑车

英英释义

Internal band block refers to a type of electrical conduction disturbance in the heart, specifically involving the pathways that transmit signals within the heart's conduction system.

内部带阻滞是指心脏中一种电传导障碍,特别涉及心脏传导系统内信号传递的通路。

例句

1.The patient was diagnosed with an internal band block which is known as 内部带阻滞 in Chinese.

患者被诊断为患有内部带阻滞,这在中文中被称为内部带阻滞

2.During the ECG, we observed signs of an internal band block, indicating a possible issue with the heart's electrical conduction system, or 内部带阻滞

在心电图检查中,我们观察到了内部带阻滞的迹象,这表明心脏的电传导系统可能存在问题。

3.Treatment options for an internal band block vary depending on the severity and symptoms, or 内部带阻滞的治疗选择因严重程度和症状而异。

针对内部带阻滞的治疗选择因严重程度和症状而异。

4.In some cases, an internal band block can be asymptomatic, meaning the patient may not experience any symptoms, or 内部带阻滞可以是无症状的。

在某些情况下,内部带阻滞可以是无症状的,意味着患者可能不会出现任何症状。

5.The cardiologist explained that an internal band block could lead to arrhythmias, or 内部带阻滞可能导致心律失常。

心脏病专家解释说,内部带阻滞可能导致心律失常。

作文

In the world of telecommunications and networking, various technical terms are frequently used to describe complex phenomena. One such term is internal band block, which refers to a specific type of signal interference or disruption that occurs within a defined frequency range. Understanding this concept is crucial for engineers and technicians who work with wireless communication systems, as it can significantly affect the performance and reliability of these systems.The internal band block phenomenon typically arises from multiple sources, including hardware limitations, environmental factors, and even user behavior. For instance, when numerous devices operate within the same frequency band, they can create overlapping signals that interfere with one another. This interference can lead to reduced data transmission rates and increased latency, ultimately degrading the user experience.To illustrate the impact of internal band block, consider a scenario in a crowded urban area where many individuals rely on their smartphones for internet access. If several users are streaming videos simultaneously, the network may struggle to allocate sufficient bandwidth to each device. As a result, some users may experience buffering or slower download speeds due to the internal band block caused by the high demand for the same frequency spectrum.Moreover, the internal band block can also be influenced by physical obstacles such as buildings, trees, or other structures that can absorb or reflect signals, further complicating the situation. Engineers must carefully analyze these factors when designing networks to ensure optimal performance and minimize disruptions.To mitigate the effects of internal band block, various strategies can be employed. One common approach is to implement frequency hopping or channel switching techniques, which allow devices to move between different frequency bands to avoid congested channels. Additionally, network operators can invest in advanced technologies such as MIMO (Multiple Input Multiple Output) systems, which utilize multiple antennas to improve signal quality and reduce interference.In conclusion, the term internal band block highlights the challenges faced in modern telecommunications, particularly in densely populated areas where multiple devices compete for limited bandwidth. By understanding this concept and implementing effective solutions, engineers can enhance the performance of wireless networks, ensuring that users enjoy a seamless and efficient online experience. The ongoing evolution of technology will likely continue to address these challenges, paving the way for more robust and reliable communication systems in the future.

在电信和网络的世界中,各种技术术语常常被用来描述复杂的现象。其中一个术语是内部带阻塞,它指的是在特定频率范围内发生的一种信号干扰或中断。理解这个概念对于从事无线通信系统工作的工程师和技术人员至关重要,因为它会显著影响这些系统的性能和可靠性。内部带阻塞现象通常由多种来源引起,包括硬件限制、环境因素甚至用户行为。例如,当许多设备在同一频率带内操作时,它们可能会产生重叠的信号,从而相互干扰。这种干扰可能导致数据传输速率降低和延迟增加,最终降低用户体验。为了说明内部带阻塞的影响,考虑一个场景:在一个拥挤的城市区域,许多人依赖智能手机进行互联网访问。如果多个用户同时流媒体视频,网络可能难以为每个设备分配足够的带宽。因此,由于对同一频谱的高需求而造成的内部带阻塞,一些用户可能会经历缓冲或下载速度变慢。此外,内部带阻塞还可能受到物理障碍的影响,例如建筑物、树木或其他结构,这些结构可以吸收或反射信号,进一步复杂化情况。工程师在设计网络时必须仔细分析这些因素,以确保最佳性能并最小化干扰。为了减轻内部带阻塞的影响,可以采用各种策略。一种常见的方法是实施频率跳跃或频道切换技术,这允许设备在不同的频率带之间移动,以避免拥挤的频道。此外,网络运营商可以投资先进技术,如MIMO(多输入多输出)系统,利用多个天线来提高信号质量并减少干扰。总之,术语内部带阻塞突显了现代电信面临的挑战,特别是在设备竞争有限带宽的密集人口区域。通过理解这一概念并实施有效的解决方案,工程师可以增强无线网络的性能,确保用户享受无缝高效的在线体验。技术的持续发展将可能继续应对这些挑战,为未来更强大和可靠的通信系统铺平道路。