transmission rate

简明释义

传输率

英英释义

The transmission rate refers to the speed at which data or information is transferred from one point to another in a communication system.

传输速率是指在通信系统中,数据或信息从一个点传输到另一个点的速度。

In the context of infectious diseases, the transmission rate indicates how quickly a disease spreads among individuals in a population.

在传染病的背景下,传播速率表示疾病在群体中个体之间传播的速度。

例句

1.The transmission rate of data over wireless networks can be affected by various environmental factors.

无线网络的数据传输速率可能会受到各种环境因素的影响。

2.To improve video quality, we need to enhance the transmission rate of our streaming service.

为了改善视频质量,我们需要提高流媒体服务的传输速率

3.The new fiber optic cables have significantly increased the transmission rate of internet data.

新的光纤电缆显著提高了互联网数据的传输速率

4.Researchers are studying the transmission rate of viruses to understand how quickly they spread.

研究人员正在研究病毒的传播速率以了解它们传播的速度。

5.The study showed a direct correlation between the transmission rate of information and user satisfaction.

研究显示信息的传输速率与用户满意度之间存在直接关系。

作文

The concept of transmission rate is crucial in various fields, especially in telecommunications and infectious disease studies. In telecommunications, the transmission rate refers to the speed at which data is transmitted over a network. This rate is typically measured in bits per second (bps) and can significantly impact the quality of service experienced by users. For instance, a higher transmission rate allows for quicker downloads, smoother video streaming, and more efficient online gaming experiences. In contrast, a lower transmission rate can lead to buffering, delays, and overall dissatisfaction among users. Therefore, understanding and optimizing the transmission rate is essential for service providers aiming to enhance user experience and maintain competitive advantage.In the context of infectious diseases, the term transmission rate takes on a different meaning. It refers to how quickly a disease spreads within a population. This rate is often quantified using the basic reproduction number, R0, which indicates the average number of secondary infections produced by one infected individual in a fully susceptible population. A high transmission rate signifies that an infectious disease can spread rapidly, leading to outbreaks and epidemics if not controlled effectively. Public health officials closely monitor the transmission rate of various diseases to implement timely interventions such as vaccination campaigns, social distancing measures, and public awareness programs.Understanding the factors that influence the transmission rate in both telecommunications and health contexts is vital. In telecommunications, factors such as bandwidth, network congestion, and the technology used (e.g., fiber optics vs. copper wires) can all affect the transmission rate. Network engineers continually seek ways to improve infrastructure and optimize data flow to achieve higher transmission rates, ultimately benefiting end-users.On the other hand, the transmission rate of infectious diseases can be influenced by factors such as population density, social behavior, and environmental conditions. For example, crowded urban areas may experience higher transmission rates for respiratory diseases due to close contact among individuals. Similarly, seasonal changes can affect the transmission rate of certain illnesses, like influenza, which tends to peak during colder months when people are more likely to gather indoors.In conclusion, the term transmission rate is a multifaceted concept that plays a significant role in both technology and public health. Whether it is about improving data transfer speeds or controlling the spread of diseases, understanding the transmission rate is essential for making informed decisions and implementing effective strategies. As we continue to advance technologically and face new health challenges, the importance of monitoring and optimizing the transmission rate will only grow. By doing so, we can enhance our communication systems and safeguard public health, ultimately contributing to a better quality of life for individuals and communities alike.

“传播速率”这一概念在多个领域中至关重要,尤其是在电信和传染病研究中。在电信领域,“传播速率”指的是数据在网络上传输的速度。这个速率通常以每秒比特(bps)为单位进行测量,能够显著影响用户的服务质量。例如,更高的“传播速率”可以让下载更快、视频流更流畅、在线游戏体验更高效。相反,较低的“传播速率”可能导致缓冲、延迟以及用户整体的不满。因此,理解和优化“传播速率”对服务提供商提升用户体验和维持竞争优势至关重要。在传染病的背景下,“传播速率”的含义则有所不同。它指的是一种疾病在一个人群中传播的速度。这个速率通常通过基本繁殖数R0来量化,R0表示在一个完全易感的人群中,一个感染者平均会产生的二次感染数量。高“传播速率”意味着一种传染病可以迅速传播,如果没有有效控制,可能导致疫情爆发。公共卫生官员密切监测各种疾病的“传播速率”,以便及时实施干预措施,例如疫苗接种活动、社交距离措施和公众意识宣传。了解影响电信和健康领域“传播速率”的因素至关重要。在电信领域,带宽、网络拥塞和所使用的技术(例如光纤与铜线)等因素都可能影响“传播速率”。网络工程师不断寻求改进基础设施和优化数据流,以实现更高的“传播速率”,最终使终端用户受益。另一方面,传染病的“传播速率”可能受到人口密度、社会行为和环境条件等因素的影响。例如,拥挤的城市地区由于个体之间的密切接触,可能经历更高的呼吸道疾病“传播速率”。类似地,季节变化也可能影响某些疾病的“传播速率”,如流感,在寒冷的月份更容易达到高峰,因为人们更可能在室内聚集。总之,“传播速率”这一术语是一个多方面的概念,在技术和公共卫生领域都扮演着重要角色。无论是改善数据传输速度还是控制疾病传播,理解“传播速率”对于做出明智的决策和实施有效的策略至关重要。随着我们在技术上不断进步并面临新的健康挑战,监测和优化“传播速率”的重要性只会增加。通过这样做,我们可以增强通信系统,保护公共健康,最终为个人和社区的生活质量做出贡献。