remote measuring

简明释义

遥测

英英释义

例句

1.The environmental agency employed remote measuring to track air quality across the city.

环境机构利用远程测量跟踪城市的空气质量。

2.Farmers are increasingly relying on remote measuring technologies to assess soil moisture levels.

农民越来越依赖远程测量技术来评估土壤湿度水平。

3.The engineer explained how remote measuring can improve efficiency in construction projects.

工程师解释了远程测量如何提高建筑项目的效率。

4.The scientists used remote measuring to gather data from the volcano without putting themselves in danger.

科学家们使用远程测量从火山收集数据，而不必将自己置于危险之中。

5.With remote measuring, we can monitor the temperature of the ocean from a satellite.

通过远程测量，我们可以通过卫星监测海洋的温度。

作文

In recent years, technology has advanced at an unprecedented pace, leading to the emergence of various innovative solutions across different fields. One such advancement is remote measuring, which refers to the ability to collect data from a distance without needing to be physically present at the measurement site. This technique has transformed industries such as environmental monitoring, healthcare, and engineering, enabling professionals to gather vital information efficiently and accurately.

One of the most significant applications of remote measuring is in environmental science. Researchers can monitor air quality, temperature, and humidity using sensors installed in various locations. These sensors transmit data in real-time, allowing scientists to analyze trends and make informed decisions regarding climate change and pollution control. For instance, during natural disasters like wildfires or hurricanes, remote measuring technologies can provide crucial information about the affected areas, helping emergency responders allocate resources effectively and save lives.

In the healthcare sector, remote measuring has revolutionized patient monitoring. Wearable devices, such as fitness trackers and smartwatches, can continuously collect data on heart rate, activity levels, and sleep patterns. This information can be transmitted to healthcare providers, enabling them to monitor patients' health remotely. Such advancements are particularly beneficial for individuals with chronic conditions who require constant supervision. By utilizing remote measuring, doctors can detect potential health issues early and intervene before they escalate, ultimately improving patient outcomes.

Engineering and construction also benefit significantly from remote measuring. Advanced technologies like drones and satellite imagery allow engineers to assess large construction sites and monitor structural integrity without being physically present. This not only saves time and resources but also enhances safety by minimizing the need for personnel to work in potentially hazardous environments. For example, when inspecting bridges or tall buildings, engineers can use remote measuring tools to capture high-resolution images and gather data that would otherwise be challenging to obtain.

Despite the numerous advantages of remote measuring, there are also challenges that need to be addressed. Data privacy and security are significant concerns, as sensitive information collected through these methods could be vulnerable to cyberattacks. Additionally, the reliance on technology raises questions about accessibility, particularly in remote or underdeveloped areas where infrastructure may be lacking. Ensuring that remote measuring technologies are accessible and secure will be critical for their continued success and widespread adoption.

In conclusion, remote measuring has emerged as a powerful tool across various sectors, offering numerous benefits such as increased efficiency, improved safety, and enhanced data collection capabilities. As technology continues to evolve, it is essential to address the challenges associated with remote measuring to maximize its potential. By doing so, we can harness the power of innovation to create a safer, healthier, and more sustainable world.

近年来，科技以空前的速度发展，导致各个领域出现了各种创新解决方案。其中一个重要的进展是远程测量，指的是在不需要亲自到达测量现场的情况下，从远处收集数据的能力。这项技术已经改变了环境监测、医疗保健和工程等行业，使专业人士能够高效准确地收集重要信息。

在环境科学中，远程测量的应用最为显著。研究人员可以通过在不同地点安装传感器来监测空气质量、温度和湿度。这些传感器实时传输数据，使科学家能够分析趋势并就气候变化和污染控制做出明智决策。例如，在野火或飓风等自然灾害期间，远程测量技术可以提供关于受影响地区的重要信息，帮助应急响应人员有效分配资源，拯救生命。

在医疗保健领域，远程测量彻底改变了患者监测。可穿戴设备，如健身追踪器和智能手表，可以持续收集心率、活动水平和睡眠模式的数据。这些信息可以传输给医疗提供者，使他们能够远程监测患者的健康。这种进步对于需要持续监督的慢性病患者特别有益。通过利用远程测量，医生可以及早发现潜在的健康问题，并在问题升级之前进行干预，从而最终改善患者的治疗效果。

工程和建筑也从远程测量中受益匪浅。先进的技术如无人机和卫星影像使工程师能够评估大型建筑工地并监测结构完整性，而无需亲自到场。这不仅节省了时间和资源，还通过减少人员在潜在危险环境中工作的需要，提高了安全性。例如，在检查桥梁或高层建筑时，工程师可以使用远程测量工具捕捉高分辨率图像并收集原本难以获取的数据。

尽管远程测量有许多优点，但也存在需要解决的挑战。数据隐私和安全是重要问题，因为通过这些方法收集的敏感信息可能会受到网络攻击。此外，对技术的依赖引发了关于可及性的问题，特别是在基础设施可能缺乏的偏远或欠发达地区。确保远程测量技术的可及性和安全性将对其持续成功和广泛采用至关重要。

总之，远程测量作为一种强大的工具，已在各个领域中崭露头角，提供了诸多好处，如提高效率、改善安全性和增强数据收集能力。随着技术的不断发展，解决与远程测量相关的挑战以最大化其潜力至关重要。通过这样做，我们可以利用创新的力量创造一个更安全、更健康和更可持续的世界。