itinerant monitoring

简明释义

巡回预察

英英释义

例句

1.With itinerant monitoring, wildlife researchers can gather data on animal movements in various habitats.

通过流动监测，野生动物研究人员可以收集不同栖息地中动物迁徙的数据。

2.The environmental agency implemented itinerant monitoring to assess air quality in various neighborhoods.

环境机构实施了流动监测以评估各个社区的空气质量。

3.The city deployed itinerant monitoring units to quickly respond to traffic conditions and congestion.

该市部署了流动监测单元，以快速响应交通状况和拥堵问题。

4.Farmers benefit from itinerant monitoring that helps them track soil moisture levels across different fields.

农民受益于流动监测，这帮助他们跟踪不同田地的土壤湿度水平。

5.The healthcare team used itinerant monitoring to provide health check-ups for patients in remote areas.

医疗团队使用流动监测为偏远地区的患者提供健康检查。

作文

In today's rapidly evolving world, the concept of monitoring has taken on new dimensions, particularly in the context of technology and environmental management. One term that has emerged in recent years is itinerant monitoring, which refers to a system of observation that is not fixed in one location but rather moves between various sites to gather data and insights. This approach can be particularly beneficial in fields such as wildlife conservation, urban planning, and disaster response. By employing itinerant monitoring, researchers and professionals can gain a more comprehensive understanding of dynamic environments, allowing for timely interventions and informed decision-making.One of the primary advantages of itinerant monitoring is its flexibility. Traditional monitoring systems often rely on stationary sensors or observers, which can limit the scope of data collection. In contrast, itinerant monitoring allows for the exploration of diverse areas, capturing variations in conditions that may not be evident from a single point of view. For example, in wildlife conservation, mobile teams can track animal movements across different habitats, providing insights into their behaviors and interactions with the environment. This information is crucial for developing effective conservation strategies and ensuring the survival of endangered species.Moreover, itinerant monitoring can enhance the efficiency of resource management. In urban settings, city planners can utilize mobile monitoring units to assess traffic patterns, air quality, and noise levels across various neighborhoods. This approach enables them to identify problem areas that require immediate attention, such as congested roadways or high pollution zones. By addressing these issues promptly, cities can improve the quality of life for their residents and create healthier living environments.In the context of disaster response, itinerant monitoring plays a critical role in assessing damage and coordinating relief efforts. After a natural disaster, such as an earthquake or hurricane, responders can deploy mobile units to affected areas to gather real-time data on infrastructure damage and the needs of displaced populations. This information is invaluable for prioritizing aid distribution and ensuring that resources are allocated effectively. The ability to adapt and move quickly in response to changing conditions is a hallmark of itinerant monitoring, making it an essential tool for emergency management.However, implementing itinerant monitoring systems also comes with challenges. The need for mobile equipment and trained personnel can increase costs, and logistical issues may arise when accessing remote or hazardous locations. Additionally, ensuring the accuracy and reliability of data collected through mobile methods requires careful planning and execution. Despite these challenges, the benefits of itinerant monitoring far outweigh the drawbacks, making it a valuable asset in various fields.In conclusion, itinerant monitoring represents a significant advancement in our ability to observe and respond to complex environmental and societal dynamics. Its flexibility, efficiency, and adaptability make it an indispensable tool for researchers, urban planners, and disaster responders alike. As we continue to face global challenges, the implementation of itinerant monitoring will undoubtedly play a pivotal role in shaping our understanding and management of the world around us.

在当今快速发展的世界中，监测的概念已呈现出新的维度，尤其是在技术和环境管理的背景下。近年来出现的一个术语是流动监测，它指的是一种观察系统，该系统并不固定在一个地点，而是移动于多个地点以收集数据和洞察。这种方法在野生动物保护、城市规划和灾后响应等领域特别有益。通过采用流动监测，研究人员和专业人员可以更全面地理解动态环境，从而实现及时干预和明智决策。流动监测的主要优势之一是其灵活性。传统的监测系统通常依赖于固定的传感器或观察者，这可能限制数据收集的范围。相比之下，流动监测允许探索多样化的区域，捕捉从单一视角可能无法显现的条件变化。例如，在野生动物保护中，移动团队可以追踪动物在不同栖息地的运动，为其行为和与环境的互动提供洞察。这些信息对制定有效的保护策略至关重要，并确保濒危物种的生存。此外，流动监测可以提高资源管理的效率。在城市环境中，城市规划者可以利用移动监测单元评估各个社区的交通模式、空气质量和噪音水平。这种方法使他们能够识别需要立即关注的问题区域，例如拥堵的道路或高污染区。通过及时解决这些问题，城市可以改善居民的生活质量，创造更健康的生活环境。在灾后响应的背景下，流动监测在评估损害和协调救援工作中发挥着关键作用。在自然灾害（如地震或飓风）发生后，响应人员可以部署移动单元到受影响地区，实时收集基础设施损坏和流离失所人群需求的数据。这些信息对于优先分配援助和确保资源有效配置至关重要。迅速适应并快速响应变化条件的能力是流动监测的一个显著特点，使其成为应急管理的重要工具。然而，实施流动监测系统也面临挑战。移动设备和训练有素的人员的需求可能会增加成本，并且在访问偏远或危险地点时可能会出现后勤问题。此外，确保通过移动方法收集的数据的准确性和可靠性需要仔细的规划和执行。尽管存在这些挑战，流动监测的好处远远超过缺点，使其在各个领域成为宝贵的资产。总之，流动监测代表了我们观察和应对复杂环境和社会动态能力的一项重大进展。它的灵活性、效率和适应性使其成为研究人员、城市规划者和灾后响应者不可或缺的工具。随着我们继续面对全球挑战，实施流动监测无疑将在塑造我们对周围世界的理解和管理中发挥关键作用。