transmission capacity

简明释义

传递能力

英英释义

例句

1.To accommodate more users, the telecom company is upgrading its transmission capacity.

为了容纳更多用户，电信公司正在升级其传输能力。

2.The new fiber optic cables have significantly increased the transmission capacity of our internet service.

新的光纤电缆显著提高了我们互联网服务的传输能力。

3.Engineers are evaluating the transmission capacity of the current network infrastructure.

工程师正在评估当前网络基础设施的传输能力。

4.Increased transmission capacity can lead to faster data transfer rates for businesses.

增加的传输能力可以为企业带来更快的数据传输速率。

5.The transmission capacity of the power grid must be expanded to meet rising energy demands.

电网的传输能力必须扩大，以满足日益增长的能源需求。

作文

In the modern world, where technology is advancing at an unprecedented rate, the concept of transmission capacity (传输能力) has become increasingly significant. This term refers to the maximum amount of data that can be transmitted over a network or communication channel in a given period. As we rely more on digital communication, understanding transmission capacity (传输能力) is crucial for both individuals and organizations alike.One of the most common examples of transmission capacity (传输能力) can be found in internet connections. Different types of internet services offer varying levels of transmission capacity (传输能力). For instance, fiber-optic connections typically provide much higher transmission capacity (传输能力) compared to traditional DSL or cable connections. This difference is vital for activities that require high bandwidth, such as streaming high-definition videos, online gaming, or conducting video conferences. When the transmission capacity (传输能力) is insufficient, users may experience buffering, lag, or poor-quality video, which can be incredibly frustrating.Moreover, businesses must pay close attention to their own transmission capacity (传输能力) to maintain efficiency and competitiveness. Companies that rely heavily on cloud computing and online collaboration tools need to ensure that their networks can handle the required transmission capacity (传输能力). A low transmission capacity (传输能力) can lead to delays in accessing critical data, which can hinder productivity and impact decision-making processes.The growing demand for data and the increasing number of devices connected to the internet have led to a greater focus on enhancing transmission capacity (传输能力). Technologies such as 5G networks are being developed to provide faster and more reliable connections, thus improving transmission capacity (传输能力). With 5G, users can expect significantly higher speeds and lower latency, which will revolutionize how we communicate and access information.In addition to technological advancements, understanding the limitations of transmission capacity (传输能力) is also essential. Factors such as network congestion, hardware capabilities, and geographical distance can all affect the available transmission capacity (传输能力). For example, during peak usage times, many users sharing the same network can lead to reduced speeds and overall transmission capacity (传输能力). Therefore, it is crucial for both service providers and users to be aware of these factors when evaluating their connectivity needs.Furthermore, the implications of transmission capacity (传输能力) extend beyond individual users and businesses. Governments and policymakers must also consider transmission capacity (传输能力) when planning infrastructure development. Ensuring that cities and rural areas have adequate transmission capacity (传输能力) is vital for economic growth and social inclusion. Access to high-speed internet is becoming a fundamental right, and disparities in transmission capacity (传输能力) can exacerbate existing inequalities.In conclusion, the concept of transmission capacity (传输能力) plays a pivotal role in our increasingly interconnected world. From personal use to business operations and government policies, understanding and optimizing transmission capacity (传输能力) is essential for ensuring smooth communication and efficient data transfer. As technology continues to evolve, so too will the demands for transmission capacity (传输能力), making it a topic of ongoing relevance and importance.

在现代世界，科技以空前的速度发展，‘transmission capacity’（传输能力）的概念变得越来越重要。这个术语指的是在特定时间内通过网络或通信通道可以传输的最大数据量。随着我们对数字通信的依赖增加，理解‘transmission capacity’（传输能力）对个人和组织来说至关重要。‘transmission capacity’（传输能力）的一个常见例子可以在互联网连接中找到。不同类型的互联网服务提供不同水平的‘transmission capacity’（传输能力）。例如，光纤连接通常提供比传统的DSL或电缆连接高得多的‘transmission capacity’（传输能力）。这种差异对于需要高带宽的活动至关重要，例如流媒体高清视频、在线游戏或进行视频会议。当‘transmission capacity’（传输能力）不足时，用户可能会经历缓冲、延迟或视频质量差，这可能非常令人沮丧。此外，企业必须密切关注自身的‘transmission capacity’（传输能力），以保持效率和竞争力。依赖于云计算和在线协作工具的公司需要确保其网络能够处理所需的‘transmission capacity’（传输能力）。较低的‘transmission capacity’（传输能力）可能导致访问关键数据的延迟，这会妨碍生产力并影响决策过程。对数据需求的不断增长以及连接到互联网的设备数量的增加，使得增强‘transmission capacity’（传输能力）成为更大的关注点。5G网络等技术正在开发中，以提供更快、更可靠的连接，从而改善‘transmission capacity’（传输能力）。通过5G，用户可以期待显著更高的速度和更低的延迟，这将彻底改变我们沟通和获取信息的方式。除了技术进步，理解‘transmission capacity’（传输能力）的局限性也至关重要。网络拥塞、硬件能力和地理距离等因素都可能影响可用的‘transmission capacity’（传输能力）。例如，在高峰使用时，许多共享同一网络的用户可能会导致速度降低和整体‘transmission capacity’（传输能力）下降。因此，服务提供商和用户在评估其连接需求时，了解这些因素至关重要。此外，‘transmission capacity’（传输能力）的影响超出了个人用户和企业。政府和政策制定者在规划基础设施发展时，也必须考虑‘transmission capacity’（传输能力）。确保城市和农村地区拥有足够的‘transmission capacity’（传输能力）对于经济增长和社会包容至关重要。获得高速互联网正成为一项基本权利，而‘transmission capacity’（传输能力）的差距可能会加剧现有的不平等。总之，‘transmission capacity’（传输能力）的概念在我们日益互联的世界中发挥着关键作用。从个人使用到商业运营，再到政府政策，理解和优化‘transmission capacity’（传输能力）对于确保顺畅的通信和高效的数据传输至关重要。随着技术的不断发展，对‘transmission capacity’（传输能力）的需求也将不断增长，使其成为一个持续相关和重要的话题。