CAREER: Three-Dimensional Measurements of Atmospheric Water Vapor Using Miniaturized Microwave Radiometers

职业：使用小型微波辐射计对大气水蒸气进行三维测量

• 批准号: 0239722
• 负责人: Steven Reising
• 金额: $ 45.12万
• 依托单位: University of Massachusetts Amherst
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2003
• 资助国家: 美国
• 起止时间: 2003-03-01 至 2005-04-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=0239722&HistoricalAwards=false
• 关键词: CAREER; Three; Dimensional; Measurements; Atmospheric

The intellectual merit of this CAREER program is based on the design and realization of innovative sensors to improve measurement of the three-dimensional distribution of water vapor in the atmosphere. Knowledge of the temporal and spatial distribution of water vapor is fundamental for short-range prediction of precipitation and severe weather. The paucity of current observations of wind, temperature and humidity in pre-storm environments limits the improvement of forecast skill for these events. This project will address these needs through the fabrication, validation and application of a four-sensor demonstration network of miniaturized water vapor profiling radiometers. This novel sensor design is enabled by microwave monolithic integrated circuit (MMIC) technology made widely available by the wireless communications industry. Compared to conventional waveguide-based designs, MMIC technology allows these sensors to be smaller, lighter and more robust. New sensor technologies will enable larger networks of water vapor radiometers to perform higher-resolution observations. The demonstration network will be used to validate remote water vapor measurements using both radiometers and SuomiNet GPS receivers, through comparison with in-situ observations, including radiosondes launched by the National Weather Service. The automated pointing of the network's sensors will enable direct comparison of GPS slant water vapor with radiometric profiles along the same slant paths.The educational portion of this project will introduce applications in atmospheric science to significant numbers of undergraduate electrical engineering students. Novel methods of instruction will be introduced to encourage students to find the relationships between curriculum content and "real-world" applications and to participate in peer-to-peer learning. Promising undergraduate students will be involved in design and fabrication of remote sensors in the laboratory.The broader impacts of the program include the availability of miniaturized atmospheric sensors to be deployed in larger networks, enhancing observation of the atmospheric state in order to improve weather prediction and climate monitoring, clearly providing benefits to society. The research program will foster collaborations among universities, industry and government. The research goals of this program lead naturally to collaboration with small U.S. businesses that produce radiometers for research. Other broader impacts include the PI's continuing mentoring of students from underrepresented groups as part of an NSF-sponsored summer program.

该职业计划的智力优势基于创新传感器的设计和实现，以改进对大气中水蒸气三维分布的测量。了解水汽的时空分布对于降水和恶劣天气的短期预测至关重要。目前对风暴前环境中风、温度和湿度的观测很少，限制了这些事件预报技能的提高。 该项目将通过制造、验证和应用小型水蒸气分布辐射计的四传感器演示网络来满足这些需求。这种新颖的传感器设计是通过无线通信行业广泛使用的微波单片集成电路 (MMIC) 技术实现的。与传统的基于波导的设计相比，MMIC 技术使这些传感器变得更小、更轻且更坚固。新的传感器技术将使更大的水蒸气辐射计网络能够执行更高分辨率的观测。该演示网络将用于通过与现场观测（包括国家气象局发射的无线电探空仪）进行比较，验证使用辐射计和 SuomiNet GPS 接收器的远程水蒸气测量。网络传感器的自动指向将能够直接比较 GPS 倾斜水蒸气与沿相同倾斜路径的辐射剖面。该项目的教育部分将向大量电气工程本科生介绍大气科学中的应用。将引入新颖的教学方法，鼓励学生找到课程内容与“现实世界”应用之间的关系，并参与同伴学习。有前途的本科生将参与实验室中遥感器的设计和制造。该计划的更广泛影响包括可以在更大的网络中部署小型化大气传感器，加强对大气状态的观测，以改善天气预报和气候监测，明显为社会带来好处。该研究计划将促进大学、行业和政府之间的合作。该计划的研究目标自然会导致与生产用于研究的辐射计的美国小企业的合作。其他更广泛的影响包括 PI 继续指导来自代表性不足群体的学生，作为 NSF 资助的夏季项目的一部分。