Add to ORKGEfforts to reduce viscous drag on airfoils could results in a considerable saving for the operation of flight vehicles including those of space transportation. This reduction of viscous drag effort requires measurement and active control of boundary layer flow property on an airfoil. Measurement of viscous drag of the boundary layer flow over an airfoil with minimal flow disturbance is achievable with newly developed MEMS sensor clusters. These sensor clusters provide information that can be used to actively control actuators to obtain desired flow properties or design a vehicle to satisfy particular boundary layer flow criteria. A series of MEMS sensor clusters has been developed with a data acquisition and control module for local measure...
A low profile, rapidly deployable (and redeployable), air pressure sensor for the use in aerodynamic...
By combining substrate-free structures with anodic bonding technology, we present a simple and effic...
AbstractThe purpose of this paper is to propose two types of wall shear stress sensor based on MEMS-...
Packaging for a large distributed sensing system is a challenging topic. Using flexible skin technol...
An adaptive flow separation control system is designed and implemented as an essential part of a nov...
This paper reports the successful development of the first IC-integrated flexible MEMS shear-stress ...
This research focuses on developing sensors for properties of aerodynamic interest (i.e., flow and p...
The accurate measurement of airflows is an important area of experimental aerodynamics. MEMS technol...
In this thesis we report on a new micromachined floating-element shear-stress sensor for turbulent ...
By applying the micro-electro-mechanical-system (MEMS) fabrication technology, we developed a micro-...
A new MEMS shear stress sensor imager has been developed and its capability of imaging surface shear...
We describe an analog CMOS VLSI system that can process real-time signals from integrated shear stre...
The paper describes the integration of pressure sensors into fiber composite in order to obtain flow...
The goal of this project is a first attempt to achieve active drag reduction using a large-scale int...
The accelerated development of silicon micromachined sensors and actuators has meant that many new a...
A low profile, rapidly deployable (and redeployable), air pressure sensor for the use in aerodynamic...
By combining substrate-free structures with anodic bonding technology, we present a simple and effic...
AbstractThe purpose of this paper is to propose two types of wall shear stress sensor based on MEMS-...
Packaging for a large distributed sensing system is a challenging topic. Using flexible skin technol...
An adaptive flow separation control system is designed and implemented as an essential part of a nov...
This paper reports the successful development of the first IC-integrated flexible MEMS shear-stress ...
This research focuses on developing sensors for properties of aerodynamic interest (i.e., flow and p...
The accurate measurement of airflows is an important area of experimental aerodynamics. MEMS technol...
In this thesis we report on a new micromachined floating-element shear-stress sensor for turbulent ...
By applying the micro-electro-mechanical-system (MEMS) fabrication technology, we developed a micro-...
A new MEMS shear stress sensor imager has been developed and its capability of imaging surface shear...
We describe an analog CMOS VLSI system that can process real-time signals from integrated shear stre...
The paper describes the integration of pressure sensors into fiber composite in order to obtain flow...
The goal of this project is a first attempt to achieve active drag reduction using a large-scale int...
The accelerated development of silicon micromachined sensors and actuators has meant that many new a...
A low profile, rapidly deployable (and redeployable), air pressure sensor for the use in aerodynamic...
By combining substrate-free structures with anodic bonding technology, we present a simple and effic...
AbstractThe purpose of this paper is to propose two types of wall shear stress sensor based on MEMS-...