Add to ORKGThis presentation describes the development and use of Background Oriented Schlieren (BOS) on a full-scale supersonic jet in flight. A series of flight tests was performed in October 2014 and February 2015 using the flora of the desert floor in the Supersonic Flight Corridor on the Edwards Air Force Base as a background. Flight planning was designed based on the camera resolution, the mean size and color of the predominant plants, and the navigation and coordination of two aircraft. Software used to process the image data was improved with additional utilities. The planning proved to be effective and the vast majority of the passes of the target aircraft were successfully recorded. Results were obtained that are the most detailed schlieren ...
Background oriented schlieren (BOS) is a quantitative optical technique which exploits light deflect...
Background oriented schlieren (BOS) is a quantitative optical technique which exploits light deflect...
Background oriented schlieren (BOS) is a quantitative optical technique which exploits light deflect...
This article describes the development and use of Background Oriented Schlieren on a full-scale supe...
The Background Oriented Schlieren using Celestial Objects series of flights was undertaken in the sp...
Background Oriented Schlieren (BOS) is a derivative of the classical schlieren technology, which is ...
This is a presentation for an invited session at the 2015 SciTech Conference 53rd AIAA Aerospace Sci...
Advancing the state of the art of schlieren photography for validation of wind tunnel and CFD effort...
Background-oriented schlieren (BOS) methods suited for large-scale and in-flight testing are present...
This is a presentation to be given at an internal NASA Advanced Schlieren Working Group Meeting. The...
This paper provides an overview of recent wind tunnel tests performed at the NASA Langley Research C...
Blade-tip vortices and their interaction with the helicopter blades play an important role in the ge...
To visualize the flow in the test section of an indraft supersonic wind tunnel in the University of ...
Background Oriented Schlieren (BOS) is a widely used technique that provides density gradient inform...
Visualization of the flow field around a generic re-entry capsule in subsonic flow and shock wave vi...
Background oriented schlieren (BOS) is a quantitative optical technique which exploits light deflect...
Background oriented schlieren (BOS) is a quantitative optical technique which exploits light deflect...
Background oriented schlieren (BOS) is a quantitative optical technique which exploits light deflect...
This article describes the development and use of Background Oriented Schlieren on a full-scale supe...
The Background Oriented Schlieren using Celestial Objects series of flights was undertaken in the sp...
Background Oriented Schlieren (BOS) is a derivative of the classical schlieren technology, which is ...
This is a presentation for an invited session at the 2015 SciTech Conference 53rd AIAA Aerospace Sci...
Advancing the state of the art of schlieren photography for validation of wind tunnel and CFD effort...
Background-oriented schlieren (BOS) methods suited for large-scale and in-flight testing are present...
This is a presentation to be given at an internal NASA Advanced Schlieren Working Group Meeting. The...
This paper provides an overview of recent wind tunnel tests performed at the NASA Langley Research C...
Blade-tip vortices and their interaction with the helicopter blades play an important role in the ge...
To visualize the flow in the test section of an indraft supersonic wind tunnel in the University of ...
Background Oriented Schlieren (BOS) is a widely used technique that provides density gradient inform...
Visualization of the flow field around a generic re-entry capsule in subsonic flow and shock wave vi...
Background oriented schlieren (BOS) is a quantitative optical technique which exploits light deflect...
Background oriented schlieren (BOS) is a quantitative optical technique which exploits light deflect...
Background oriented schlieren (BOS) is a quantitative optical technique which exploits light deflect...