remote measurement

简明释义

遥测

英英释义

例句

1.The engineers used remote measurement to monitor the temperature of the reactor from a safe distance.

工程师们使用远程测量来安全地监控反应堆的温度。

2.The scientist employed remote measurement techniques to gather data from the Arctic region.

科学家采用远程测量技术从北极地区收集数据。

3.The new app allows users to perform remote measurement of air quality in their homes.

这个新应用程序允许用户在家中进行远程测量空气质量。

4.With remote measurement, we can easily track the performance of our solar panels without being on-site.

通过远程测量，我们可以轻松跟踪太阳能电池板的性能，而无需在现场。

5.Using remote measurement, the team was able to assess the structural integrity of the bridge without physical inspections.

利用远程测量，团队能够在没有实地检查的情况下评估桥梁的结构完整性。

作文

In the modern world, technology has advanced to a point where we can gather data from places that are far away and often inaccessible. This capability is known as remote measurement, which refers to the process of collecting information about an object or environment without being in direct contact with it. The significance of remote measurement cannot be overstated, as it plays a crucial role in various fields such as environmental monitoring, disaster management, and even healthcare.One of the most prominent applications of remote measurement is in the field of environmental science. Scientists use satellites equipped with sensors to monitor climate changes, track deforestation, and assess water quality in remote areas. For instance, NASA's Landsat program has been instrumental in providing detailed images of the Earth's surface over the decades, allowing researchers to study changes in land use and vegetation cover. By employing remote measurement, scientists can gather data across vast regions without the need for physical presence, making it a cost-effective solution for large-scale environmental studies.Another area where remote measurement is vital is in disaster management. During natural disasters such as hurricanes, earthquakes, or floods, it is often dangerous or impossible for rescue teams to access affected areas immediately. In such cases, remote measurement technologies, like drones and aerial imagery, can provide real-time information about the situation on the ground. This data can help authorities make informed decisions about resource allocation, evacuation plans, and safety measures. For example, after a hurricane, aerial surveys can reveal the extent of damage to infrastructure, enabling quicker response times and more efficient recovery efforts.Furthermore, remote measurement has found its way into the healthcare sector, particularly in monitoring patients' health from a distance. With the rise of telemedicine, healthcare providers can utilize wearable devices that measure vital signs such as heart rate, blood pressure, and oxygen levels remotely. This innovation not only enhances patient care but also allows doctors to keep track of chronic conditions without requiring patients to visit the clinic frequently. The convenience of remote measurement in healthcare has proven especially beneficial during the COVID-19 pandemic, where minimizing in-person visits became crucial.Despite its numerous advantages, remote measurement does come with challenges. One major issue is the accuracy of the data collected. Factors such as atmospheric conditions, sensor calibration, and geographical limitations can affect the reliability of measurements. Therefore, it is essential to validate remote measurement data through ground-truthing, which involves comparing it with data collected directly from the site. Additionally, privacy concerns arise when using remote measurement technologies, especially in urban areas where surveillance capabilities may infringe on individuals' rights.In conclusion, remote measurement is an invaluable tool that has transformed the way we gather information across various domains. Its applications in environmental monitoring, disaster management, and healthcare demonstrate its versatility and importance in today's society. As technology continues to evolve, we can expect remote measurement to become even more sophisticated and integral to our understanding of the world around us. However, it is crucial to address the challenges associated with accuracy and privacy to fully harness the potential of this remarkable technology.

在现代世界中，科技已经发展到一个可以从遥远且通常难以接触的地方收集数据的程度。这种能力被称为远程测量，指的是在不直接接触物体或环境的情况下收集信息的过程。远程测量的重要性不容小觑，因为它在环境监测、灾害管理甚至医疗保健等多个领域发挥着至关重要的作用。远程测量最显著的应用之一是在环境科学领域。科学家们使用配备传感器的卫星来监测气候变化、追踪森林砍伐和评估偏远地区的水质。例如，NASA的Landsat计划在提供数十年来地球表面详细图像方面发挥了重要作用，使研究人员能够研究土地利用和植被覆盖的变化。通过采用远程测量，科学家可以在没有实际存在的情况下跨越广阔区域收集数据，使其成为大规模环境研究的一种具有成本效益的解决方案。远程测量在灾害管理中的重要性也不容忽视。在飓风、地震或洪水等自然灾害期间，救援队伍往往很难或根本无法立即进入受影响地区。在这种情况下，像无人机和航空影像这样的远程测量技术可以提供关于现场情况的实时信息。这些数据可以帮助当局做出关于资源分配、撤离计划和安全措施的明智决定。例如，在飓风过后，航空调查可以揭示基础设施损坏的程度，从而加快响应时间并提高恢复工作的效率。此外，远程测量已在医疗保健领域找到了应用，特别是在远程监测患者健康方面。随着远程医疗的兴起，医疗服务提供者可以利用可穿戴设备远程测量生命体征，如心率、血压和氧气水平。这项创新不仅增强了患者护理，还允许医生在不需要患者频繁访问诊所的情况下跟踪慢性病。远程测量在医疗保健中的便利性在COVID-19大流行期间尤为重要，因为减少面对面访问变得至关重要。尽管有许多优点，远程测量也面临挑战。一个主要问题是收集数据的准确性。大气条件、传感器校准和地理限制等因素可能会影响测量的可靠性。因此，通过地面实测（ground-truthing）验证远程测量数据至关重要，这涉及将其与从现场直接收集的数据进行比较。此外，当在城市地区使用远程测量技术时，隐私问题也会出现，尤其是监控能力可能侵犯个人权利。总之，远程测量是一种无价的工具，改变了我们在各个领域收集信息的方式。它在环境监测、灾害管理和医疗保健中的应用展示了其多样性和在当今社会中的重要性。随着技术的不断发展，我们可以期待远程测量变得更加复杂，并成为我们理解周围世界的不可或缺的部分。然而，解决与准确性和隐私相关的挑战对于充分利用这一卓越技术的潜力至关重要。