CAREER: Passive Wireless Sensor Networks for Bio-inspired Sensor Skins

职业：用于仿生传感器皮肤的无源无线传感器网络

• 批准号: 0846074
• 负责人: Haiying Huang
• 金额: $ 43万
• 依托单位: University of Texas at Arlington
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2009
• 资助国家: 美国
• 起止时间: 2009-07-01 至 2014-06-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=0846074&HistoricalAwards=false
• 关键词: CAREER; Passive; Wireless; Sensor; Networks

ARRA statement: This CAREER proposal will be awarded using funds made available by the American Recovery and Reinvestment Act of 2009 (Public Law 111-5), and meets the requirements established in Section 2 of the White House Memorandum entitled, Ensuring Responsible Spending of Recovery Act Funds, dated March 20, 2009. I also affirm, as the cognizant Program Officer, that the proposal does not support projects described in Section 1604 of Division A of the Recovery Act. This CAREER project is formulated to study the multiplexing and networking of passive wireless sensors for engineered sensor skins. The proposed multi-disciplinary research is focused to resolve three major challenges of sensor skins, i.e. electrical wiring, serial sampling, and information overloading. This project strives to establish a methodology for the systematic design and effective interrogation of large scale sensor networks. Equipping man-made systems with the intelligence of detecting small irregularities over a large area could fundamentally change how they function and interact with the environment. The proposed sensor skin will enable the transition of SHM paradigm from crack detection to damage prognosis, allowing more efficient use of our national resources and infrastructures. If successful, this will transform the sensor technologies in two critical research fields, namely engineered sensor skins and structural health monitoring Successful demonstration of passive wireless sensor skins will have profound impacts on broad research areas such as mechatronics, robotics, bio/medical research, and wearable healthcare, etc. The proposed research will be integrated into an educational program that shifts the education paradigm from lecture-based single-discipline teaching to student-centric multidisciplinary learning. Learning prospective will be broadened by involving graduate students and undergraduate minority students. Workshops will be offered to inspire visiting K-12 students to pursue higher education in engineering.

ARRA 声明：本职业提案将使用 2009 年《美国复苏和再投资法案》（公法 111-5）提供的资金进行授予，并符合 2009 年 3 月 20 日题为“确保负责任地支出复苏法案资金”的白宫备忘录第 2 节中规定的要求。作为认识到的项目官员，我还确认，该提案不支持《美国复苏法案》第 1604 节中描述的项目。 《复苏法案》A 部分。该职业项目旨在研究工程传感器皮肤的无源无线传感器的复用和联网。拟议的多学科研究重点解决传感器皮肤的三大挑战，即电气布线、串行采样和信息过载。该项目致力于建立一种系统设计和有效询问大规模传感器网络的方法。为人造系统配备检测大面积微小不规则现象的智能可以从根本上改变它们的功能以及与环境的交互方式。所提出的传感器皮肤将使 SHM 范式从裂纹检测过渡到损伤预测，从而更有效地利用我们的国家资源和基础设施。 如果成功，这将改变两个关键研究领域的传感器技术，即工程传感器皮肤和结构健康监测。无源无线传感器皮肤的成功演示将对机电一体化、机器人技术、生物/医学研究和可穿戴医疗保健等广泛的研究领域产生深远影响。拟议的研究将被整合到一个教育计划中，将教育模式从基于讲座的单学科教学转变为以学生为中心 多学科学习。通过研究生和少数民族本科生的参与，将拓宽学习前景。我们将举办研讨会，以激励来访的 K-12 学生接受工程学方面的高等教育。