wide band

简明释义

宽波段

英英释义

例句

1.In telecommunications, a wide band 宽带 signal can carry more data than a narrow band signal.

在电信中，宽带信号可以传输比窄带信号更多的数据。

2.The audio system was designed to operate over a wide band 宽带 spectrum for better sound quality.

音频系统设计为在宽带频谱上运行，以获得更好的音质。

3.The new wireless router supports a wide band 宽带 frequency range, allowing for faster internet speeds.

新的无线路由器支持宽带频率范围，允许更快的互联网速度。

4.Using a wide band 宽带 antenna improves reception of various radio frequencies.

使用宽带天线改善了对各种无线电频率的接收。

5.The research focuses on wide band 宽带 radar systems for enhanced detection capabilities.

该研究集中在宽带雷达系统上，以增强探测能力。

作文

In today's rapidly advancing technological landscape, the term wide band (宽带) has become increasingly significant. The concept of wide band refers to a communication channel that has a broad frequency range, allowing for the transmission of large amounts of data simultaneously. This is particularly important in various fields such as telecommunications, broadcasting, and networking. As we delve deeper into the implications of wide band technology, it becomes clear that it plays a crucial role in enhancing our connectivity and overall digital experience.One of the most notable applications of wide band technology is in the realm of internet services. With the advent of high-speed internet, consumers are now able to enjoy seamless streaming of videos, online gaming, and quick downloads. Traditional narrowband connections often struggled to support these activities, leading to buffering, lagging, and other frustrating experiences. By contrast, wide band connections provide the necessary bandwidth to accommodate multiple devices and users without sacrificing performance.Moreover, wide band technology has revolutionized wireless communication. Modern smartphones and devices utilize wide band signals to ensure that users can connect to the internet and communicate with others without interruption. This has made it possible for people to work remotely, attend virtual meetings, and stay connected with friends and family across the globe. The efficiency and reliability of wide band technology have transformed how we interact with one another and access information.In addition to its applications in internet and wireless communication, wide band technology is also making strides in the field of medical diagnostics. For example, medical imaging techniques such as MRI (Magnetic Resonance Imaging) rely on wide band signals to produce high-resolution images of the human body. This allows healthcare professionals to diagnose conditions more accurately and develop better treatment plans. The impact of wide band technology in medicine cannot be overstated, as it contributes to improved patient outcomes and advancements in medical research.Furthermore, the development of wide band technology has led to innovations in various industries, including automotive and aerospace. For instance, vehicles equipped with wide band communication systems can exchange data with each other and with traffic management systems, leading to safer and more efficient transportation. Similarly, in aerospace, wide band technology enables real-time data transmission between aircraft and ground control, enhancing safety and operational efficiency.Despite the numerous advantages of wide band technology, there are challenges that need to be addressed. One major concern is the issue of spectrum allocation. As demand for wide band services continues to grow, regulatory bodies must ensure that enough spectrum is available to meet this demand. Additionally, the infrastructure required to support wide band connections can be costly and time-consuming to implement, particularly in rural or underserved areas.In conclusion, the significance of wide band technology in our lives cannot be overlooked. From enhancing internet connectivity to improving medical diagnostics and enabling innovations across various industries, wide band plays a pivotal role in shaping the future of communication and technology. As we continue to embrace advancements in this field, it is essential to address the challenges associated with wide band technology to ensure that its benefits can be enjoyed by everyone, regardless of location or circumstance.

在当今快速发展的技术环境中，术语宽带变得越来越重要。宽带的概念是指具有广泛频率范围的通信通道，允许同时传输大量数据。这在电信、广播和网络等多个领域尤为重要。当我们深入探讨宽带技术的影响时，可以清楚地看出，它在增强我们的连接性和整体数字体验方面发挥着至关重要的作用。宽带技术最显著的应用之一是在互联网服务领域。随着高速互联网的出现，消费者现在能够享受无缝的视频流播放、在线游戏和快速下载。传统的窄带连接通常难以支持这些活动，导致缓冲、延迟和其他令人沮丧的体验。相比之下，宽带连接提供了必要的带宽，以适应多个设备和用户，而不会牺牲性能。此外，宽带技术彻底改变了无线通信。现代智能手机和设备利用宽带信号，确保用户可以不间断地连接互联网和与他人沟通。这使得人们能够远程工作、参加虚拟会议，并与全球的朋友和家人保持联系。宽带技术的高效性和可靠性改变了我们彼此互动和获取信息的方式。除了在互联网和无线通信中的应用外，宽带技术还在医学诊断领域取得了进展。例如，医学成像技术如MRI（磁共振成像）依赖于宽带信号来产生高分辨率的人体图像。这使医疗专业人员能够更准确地诊断病症并制定更好的治疗方案。宽带技术在医学中的影响不可小觑，因为它有助于改善患者结果和医学研究的进展。此外，宽带技术的发展还在汽车和航空航天等各个行业带来了创新。例如，配备宽带通信系统的车辆可以相互交换数据以及与交通管理系统进行通信，从而实现更安全和高效的运输。同样，在航空航天领域，宽带技术使得飞机与地面控制之间能够实时传输数据，增强了安全性和操作效率。尽管宽带技术有许多优点，但仍然需要解决一些挑战。其中一个主要问题是频谱分配。随着对宽带服务需求的不断增长，监管机构必须确保有足够的频谱可供满足这种需求。此外，支持宽带连接所需的基础设施可能成本高昂且实施耗时，特别是在农村或服务不足的地区。总之，宽带技术在我们生活中的重要性不容忽视。从增强互联网连接到改善医学诊断，再到推动各行业的创新，宽带在塑造通信和技术的未来方面发挥着关键作用。随着我们继续接受这一领域的进步，解决与宽带技术相关的挑战至关重要，以确保每个人都能享受其带来的好处，无论其位置或情况如何。