weather information telemetry system
简明释义
气象资料遥测系统
英英释义
A weather information telemetry system is a network of devices and technologies designed to collect, transmit, and analyze meteorological data remotely. | 天气信息遥测系统是一种设备和技术的网络,旨在远程收集、传输和分析气象数据。 |
例句
1.The new weather information telemetry system 气象信息遥测系统 installed on the mountain helps climbers stay informed about sudden weather changes.
新安装的气象信息遥测系统 weather information telemetry system 帮助登山者及时了解突发天气变化。
2.During severe storms, the weather information telemetry system 气象信息遥测系统 provides real-time updates that help emergency services respond quickly.
在严重风暴期间,气象信息遥测系统 weather information telemetry system 提供实时更新,帮助紧急服务快速响应。
3.Researchers use data from the weather information telemetry system 气象信息遥测系统 to study climate change effects in various regions.
研究人员使用来自气象信息遥测系统 weather information telemetry system的数据来研究气候变化对各个地区的影响。
4.The city implemented a weather information telemetry system 气象信息遥测系统 to monitor air quality alongside temperature and humidity.
该城市实施了一个气象信息遥测系统 weather information telemetry system,以监测空气质量以及温度和湿度。
5.Farmers rely on the weather information telemetry system 气象信息遥测系统 to optimize irrigation schedules during the growing season.
农民依靠气象信息遥测系统 weather information telemetry system 来优化生长季节的灌溉计划。
作文
In our modern world, the significance of accurate weather forecasting cannot be overstated. With climate change and extreme weather events becoming more frequent, having reliable data is essential for both individuals and organizations. One of the critical components that contribute to this reliability is the weather information telemetry system. This system plays a vital role in collecting, transmitting, and analyzing meteorological data, which helps in predicting weather patterns and informing the public about potential hazards.A weather information telemetry system is designed to gather data from various sources, including weather stations, satellites, and buoys. These systems utilize advanced sensors to measure temperature, humidity, wind speed, and atmospheric pressure. The data collected is then transmitted in real-time to centralized databases where it is processed and analyzed. This continuous flow of information allows meteorologists to create accurate weather forecasts and issue timely warnings for severe weather conditions.The importance of a weather information telemetry system becomes particularly evident during natural disasters. For instance, when hurricanes or tornadoes approach, having access to real-time data can make a significant difference in emergency preparedness. Communities can evacuate if necessary, and resources can be allocated efficiently to mitigate the impact of these disasters. Furthermore, agriculture relies heavily on accurate weather data; farmers use forecasts to plan planting and harvesting schedules, ensuring food security.Moreover, the advancements in technology have significantly improved the capabilities of weather information telemetry systems. With the integration of artificial intelligence and machine learning, these systems can analyze vast amounts of data quickly and identify patterns that may not be immediately apparent to human forecasters. This leads to more precise predictions and better understanding of complex weather phenomena.In addition to their practical applications, weather information telemetry systems also contribute to scientific research. Meteorologists and climate scientists rely on the data collected to study long-term climate trends and changes. By understanding how weather patterns evolve, researchers can develop models that predict future climate scenarios, which is crucial for planning and adaptation strategies.Despite the advantages, there are challenges associated with weather information telemetry systems. Data accuracy can be affected by equipment malfunctions, environmental factors, and even human error. Therefore, ongoing maintenance and calibration of instruments are necessary to ensure the reliability of the data collected. Additionally, the infrastructure required to support these systems can be costly, particularly in remote areas where access to technology is limited.In conclusion, the weather information telemetry system is an indispensable tool in our efforts to understand and respond to the ever-changing weather patterns. As technology continues to evolve, we can expect these systems to become even more sophisticated, providing us with invaluable insights into our atmosphere. By investing in and improving these systems, we can enhance our preparedness for weather-related challenges and ultimately safeguard lives and property.
在我们现代社会中,准确天气预报的重要性不容忽视。随着气候变化和极端天气事件的频繁发生,拥有可靠的数据对个人和组织来说都至关重要。而其中一个关键组成部分就是天气信息遥测系统。该系统在收集、传输和分析气象数据方面发挥着重要作用,有助于预测天气模式并告知公众潜在的危险。天气信息遥测系统旨在从多个来源收集数据,包括气象站、卫星和浮标。这些系统利用先进的传感器来测量温度、湿度、风速和大气压力。收集到的数据会实时传输到集中数据库,在那里进行处理和分析。这种持续的信息流使气象学家能够创建准确的天气预报,并及时发布有关恶劣天气条件的警报。天气信息遥测系统的重要性在自然灾害期间尤为明显。例如,当飓风或龙卷风逼近时,获取实时数据可以在应急准备中产生重大差异。社区可以在必要时进行疏散,资源可以高效分配,以减轻这些灾害的影响。此外,农业在很大程度上依赖于准确的天气数据;农民使用天气预报来规划种植和收获时间表,确保粮食安全。此外,技术的进步显著提高了天气信息遥测系统的能力。随着人工智能和机器学习的整合,这些系统能够快速分析大量数据,并识别出人类预报员可能无法立即察觉的模式。这导致了更精确的预测以及对复杂天气现象的更好理解。除了实际应用外,天气信息遥测系统也为科学研究做出了贡献。气象学家和气候科学家依赖收集的数据来研究长期气候趋势和变化。通过了解天气模式如何演变,研究人员可以开发预测未来气候场景的模型,这对于规划和适应策略至关重要。尽管有许多优势,但与天气信息遥测系统相关的挑战也不少。数据的准确性可能受到设备故障、环境因素甚至人为错误的影响。因此,持续的维护和校准仪器是确保收集数据可靠性的必要措施。此外,支持这些系统所需的基础设施可能成本高昂,特别是在偏远地区,技术接入受限。总之,天气信息遥测系统是我们理解和应对日益变化的天气模式的不可或缺的工具。随着技术的不断发展,我们可以期待这些系统变得更加复杂,为我们提供对大气的宝贵洞察。通过投资和改进这些系统,我们可以增强对天气相关挑战的准备,从而最终保护生命和财产。
相关单词
