Add to ORKGA fully packaged convective vortex gyrometer actuated by a PZT diaphragm is reported. The flow circulates at higher velocity after each actuating circle to form a vortex in the desired chamber. The vortex is characterized by hotwire anemometry. The device is initially designed based on a numerical analysis whose results are used to set up the experiment. The angular rate sensing of the device is successfully tested using a turntable. The technique is a potential solution to various applications related to inertial sensing and fluidic amplifier
A true airspeed sensor based on the precession of a vortex whistle for sensing airspeeds up to 321.9...
International audienceA prototype device for measuring the volumetric flow-rate by counting vortices...
tWe report an application of ion wind in angular rate sensing. A new design of a jet flow gyroscope ...
This paper reports for the first time a millimeter scale fully packaged device which generates a vo...
This paper develops a millimeter scale fully packaged device in which a vortex flow of high velocity...
In this paper, we report a further study of flow-network generating four jet flows which circulate i...
This paper reports for the first time a millimeter scale fully packaged device which generates a vor...
In this paper, we report on the design, simulation, and experimental analysis of a miniaturized devi...
A novel gyroscope using circulatory electro-hydrodynamics flow in a confined space is presented for ...
An analytical and experimental investigation of the angular rate sensing properties of a fluidic dev...
We present for the first time a novel gyroscope using circulatory electro-hydrodynamics flow in a co...
A new design of a jet flow gyroscope is developed by employing the advantages of a corona-discharge...
We present a multi-physics simulation associated with experimental investigation for an electrohydro...
This project which began in 1986 as part of the Worcester Polytechnic Institute (WPI) Advanced Space...
A new design of a jet flow gyroscope is developed by employing the advantages of a corona-discharge-...
A true airspeed sensor based on the precession of a vortex whistle for sensing airspeeds up to 321.9...
International audienceA prototype device for measuring the volumetric flow-rate by counting vortices...
tWe report an application of ion wind in angular rate sensing. A new design of a jet flow gyroscope ...
This paper reports for the first time a millimeter scale fully packaged device which generates a vo...
This paper develops a millimeter scale fully packaged device in which a vortex flow of high velocity...
In this paper, we report a further study of flow-network generating four jet flows which circulate i...
This paper reports for the first time a millimeter scale fully packaged device which generates a vor...
In this paper, we report on the design, simulation, and experimental analysis of a miniaturized devi...
A novel gyroscope using circulatory electro-hydrodynamics flow in a confined space is presented for ...
An analytical and experimental investigation of the angular rate sensing properties of a fluidic dev...
We present for the first time a novel gyroscope using circulatory electro-hydrodynamics flow in a co...
A new design of a jet flow gyroscope is developed by employing the advantages of a corona-discharge...
We present a multi-physics simulation associated with experimental investigation for an electrohydro...
This project which began in 1986 as part of the Worcester Polytechnic Institute (WPI) Advanced Space...
A new design of a jet flow gyroscope is developed by employing the advantages of a corona-discharge-...
A true airspeed sensor based on the precession of a vortex whistle for sensing airspeeds up to 321.9...
International audienceA prototype device for measuring the volumetric flow-rate by counting vortices...
tWe report an application of ion wind in angular rate sensing. A new design of a jet flow gyroscope ...