low data-rate input

简明释义

低数据率输入

英英释义

例句

1.The sensor transmits a low data-rate input 低数据速率输入 to conserve battery life.

传感器发送一个低数据速率输入 low data-rate input来节省电池寿命。

2.Our new IoT device is designed to handle low data-rate input 低数据速率输入 efficiently.

我们的新物联网设备旨在高效处理低数据速率输入 low data-rate input。

3.The application can receive low data-rate input 低数据速率输入 from multiple devices simultaneously.

该应用程序可以同时接收来自多个设备的低数据速率输入 low data-rate input。

4.For telemetry, low data-rate input 低数据速率输入 is often preferred to reduce bandwidth usage.

对于遥测，通常更喜欢使用低数据速率输入 low data-rate input以减少带宽使用。

5.In remote areas, low data-rate input 低数据速率输入 is essential for reliable communication.

在偏远地区，低数据速率输入 low data-rate input对可靠通信至关重要。

作文

In today's rapidly advancing technological landscape, the concept of data transmission plays a crucial role in various applications, from telecommunications to internet services. One important aspect of this transmission is the idea of low data-rate input, which refers to the process of sending or receiving data at a slower rate compared to standard communication speeds. This can be particularly relevant in scenarios where bandwidth is limited or when devices are designed to operate with minimal data requirements. Understanding low data-rate input is essential for optimizing systems that rely on efficient data handling.To illustrate the significance of low data-rate input, consider the case of remote sensors used in environmental monitoring. These sensors often gather data on temperature, humidity, and other atmospheric conditions. Since they operate in remote locations with limited connectivity, they transmit data at a low data-rate input. This means that instead of sending continuous streams of high-resolution data, they relay essential information periodically, ensuring that even with low bandwidth, critical updates are sent to central systems without overwhelming the network.Another area where low data-rate input is vital is in the realm of Internet of Things (IoT) devices. Many IoT applications involve numerous devices communicating over a shared network. If each device were to send large amounts of data continuously, it could lead to congestion and potential failure of the network. By utilizing low data-rate input, these devices can transmit small packets of data at intervals, allowing for effective communication while conserving energy and reducing the load on the network.Moreover, low data-rate input is not only beneficial for conserving bandwidth but also for extending the battery life of devices. Many portable devices, such as wearables and smart home gadgets, rely on batteries for power. By implementing a low data-rate input strategy, these devices can minimize their energy consumption, enabling them to function longer between charges. This is especially crucial for devices deployed in hard-to-reach locations where frequent charging is impractical.In addition to its applications in devices and sensors, the concept of low data-rate input can also be observed in various communication protocols. For instance, technologies like LoRaWAN (Long Range Wide Area Network) are designed specifically for low-power, low-data-rate communication. These protocols allow for long-range transmission of small data packets, making them ideal for applications such as smart agriculture, where sensors need to communicate infrequently but reliably over considerable distances.Understanding the implications of low data-rate input extends beyond technical applications; it also influences design considerations for engineers and developers. When creating systems that incorporate low data-rate input, it’s essential to balance the need for timely data transmission with the constraints of available bandwidth and energy consumption. This requires careful planning and innovation to ensure that systems remain robust and efficient.In conclusion, the concept of low data-rate input is integral to modern technology, particularly in contexts where bandwidth is limited and efficiency is paramount. Whether through remote sensors, IoT devices, or specialized communication protocols, the ability to transmit data at lower rates opens up a world of possibilities for innovation and sustainability. As we continue to advance into an era increasingly reliant on data, grasping the significance of low data-rate input will be essential for developing solutions that meet the demands of our interconnected world.

在当今快速发展的技术环境中，数据传输的概念在各种应用中发挥着至关重要的作用，从电信到互联网服务。其中一个重要方面是低数据速率输入的概念，它指的是以比标准通信速度更慢的速度发送或接收数据的过程。这在带宽有限或设备设计为以最小数据需求运行的情况下尤为相关。理解低数据速率输入对于优化依赖高效数据处理的系统至关重要。为了说明低数据速率输入的重要性，可以考虑用于环境监测的远程传感器的案例。这些传感器通常收集温度、湿度和其他大气条件的数据。由于它们在连接有限的偏远地区工作，因此它们以低数据速率输入的方式传输数据。这意味着它们不是连续发送高分辨率数据流，而是定期传递必要的信息，确保即使在低带宽下，也能向中央系统发送关键更新，而不会使网络不堪重负。另一个低数据速率输入至关重要的领域是物联网（IoT）设备的领域。许多物联网应用涉及多个设备在共享网络上进行通信。如果每个设备都持续发送大量数据，可能会导致拥堵和网络故障。通过利用低数据速率输入，这些设备可以在间隔时间内传输小数据包，从而在节省能源和减少网络负载的同时实现有效通信。此外，低数据速率输入不仅有助于节省带宽，还有助于延长设备的电池寿命。许多便携式设备，如可穿戴设备和智能家居小工具，依赖电池供电。通过实施低数据速率输入策略，这些设备可以最小化能量消耗，使它们在充电之间能够更长时间地运行。这对于在难以到达的位置部署的设备尤其重要，因为频繁充电是不切实际的。除了在设备和传感器中的应用外，低数据速率输入的概念也可以在各种通信协议中观察到。例如，LoRaWAN（长距离广域网）等技术专门设计用于低功耗、低数据速率的通信。这些协议允许小数据包的长距离传输，使其非常适合智能农业等应用，在这些应用中，传感器需要不频繁但可靠地进行远距离通信。理解低数据速率输入的影响不仅限于技术应用；它还影响工程师和开发人员的设计考虑。在创建包含低数据速率输入的系统时，平衡及时数据传输的需求与可用带宽和能耗的限制至关重要。这需要仔细规划和创新，以确保系统保持稳健和高效。总之，低数据速率输入的概念对于现代技术至关重要，特别是在带宽有限和效率至关重要的背景下。无论是通过远程传感器、物联网设备还是专门的通信协议，以较低的速度传输数据的能力为创新和可持续性打开了一个新的可能性世界。随着我们继续进入一个日益依赖数据的时代，掌握低数据速率输入的重要性将对开发满足我们互联世界需求的解决方案至关重要。