I-Corps: Controlled Membranes for Industrial Applications

I-Corps：工业应用的受控膜

• 批准号: 1357967
• 负责人: Cornel Sultan
• 金额: $ 5万
• 依托单位: Virginia Polytechnic Institute and State University
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2013
• 资助国家: 美国
• 起止时间: 2013-10-01 至 2015-03-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1357967&HistoricalAwards=false
• 关键词: Corps; Controlled; Membranes; Industrial; Applications

The project will take closer to implementation fundamental research results in the technology of actively controlled membranes. By leveraging structures, materials, sensing and feedback control into membrane technology the project could advance fundamental as well as applied knowledge in all these areas. Via the envisioned controlled membrane devices, which will embed very recent theoretical and technological advances, this project will bring research much faster out of University Labs into the applications area and to the market. Dedicated software tools for integrated modeling and design of controlled membrane structures enhance this technology. These tools can enable certain software developers to move away from the traditional sequential approach in which each step of the modeling and design process is rather separated from other steps. The control design step is in general particularly isolated, since control design is performed after all the previous modeling and design steps have been completed. Integrated software tools will enable the multidisciplinary design approach that is nowadays facilitated by growing computational capabilities.The project may impact the field of optics by providing lightweight, adaptive solutions to replace existing technology that uses heavy, glassy reflectors. Since reflectors are widely used, from space telescopes to light amplifiers in surgery rooms, the societal impact may also be multi-faceted, ranging from improved science data gathering (e.g. via space telescopes) which will enhance scientific understanding of the general public, defense capabilities (in aerospace applications), to health care equipment and conditions. Software for controlled membranes may also impact software developers by providing new, dedicated tools to address the emerging technology of lightweight controlled membrane structures. The project also has the potential to impact biology/medicine because researchers in these areas may use the software to analyze membrane behavior in biological contexts.

该项目将使主动控制膜技术的基础研究成果更接近于实施。通过利用膜技术中的结构、材料、传感和反馈控制，该项目可以促进所有这些领域的基础知识和应用知识的发展。通过设想的可控膜设备，该设备将嵌入最新的理论和技术进步，该项目将更快地将研究从大学实验室带入应用领域和市场。用于受控膜结构的集成建模和设计的专用软件工具增强了这项技术。这些工具可以使某些软件开发人员摆脱传统的顺序方法，在这种方法中，建模和设计过程的每个步骤都相当独立于其他步骤。控制设计步骤通常是特别隔离的，因为控制设计是在完成所有先前的建模和设计步骤之后执行的。集成的软件工具将使多学科设计方法成为可能，目前这种方法是由不断增长的计算能力推动的。该项目可能会通过提供轻量级、自适应的解决方案来取代使用重型玻璃反射器的现有技术，从而影响光学领域。由于反射器被广泛使用，从空间望远镜到手术室的光放大镜，社会影响也可能是多方面的，从改进科学数据收集(例如通过空间望远镜)，这将加强对公众的科学理解，国防能力(在航空航天应用中)，到保健设备和条件。可控膜的软件也可能通过提供新的专用工具来解决新兴的轻型可控膜结构技术，从而影响软件开发人员。该项目还有可能对生物学/医学产生影响，因为这些领域的研究人员可能会使用该软件来分析生物环境中的膜行为。