Scanning afocal laser velocimeter projection lens system

A method and apparatus for projecting and focusing parallel laser light beams from a laser doppler velocimeter on a target area are described. The system includes three lenses. Two lenses work together as a fixed afocal lens combination. The third lens is a movable scanning lens. Parallel laser beams travel from the velocimeter through the scanning lens and through the afocal lens combination and converge, i.e., are focused, somewhere beyond. Moving the scanning lens relative to the fixed afocal combination results in a scanning of the focus area along the afocal combination's optical axis

Optical scanner

An optical scanner that sequentially focuses optical energy (light) at selected points in space is described. The essential component is a scanning wheel including several glass windows with each window having a different thickness. Due to this difference in thickness, the displacement of the emerging light from the incident light is different for each window. The scanner transmits optical energy to a point in space while at the same time receiving any optical energy generated at that point and then moves on to the next selected point and repeats this transmit and receive operation. It fills the need for a system that permits a laser velocimeter to rapidly scan across a constantly changing flow field in an aerodynamic test facility

Flow visualization in the Langley 0.3-meter Transonic Cryogenic Tunnel and preliminary plans for the National Transonic Facility

Design problems associated with the integration of flow visualization in cryogenic facilities are discussed. The possible effects from the cryogenic environment (i.e., window distortion due to thermal contraction both in the mounts and in the window material itself and turbulence in the flow due to injected LN2) are examined. The flow visualization techniques studied are schlieren, shadowgraph, moire deflectometry, and holographic interferometry. The test beds for this work are a Langley in-house cryogenic test chamber and the 0.3-Meter Transonic Cryogenic Tunnel

Method for retarding dye fading during archival storage of developed color photographic film

Dye fading during archival storage of developed color photographic film is retarded by placing the film in a sealed, opaque vault, introducing a dry, pressurized inert gas into the vault while the latter is vented, and sealing the vault after the air within the vault has been purged and replaced by the inert gas. Preferably, the gas is nitrogen; and the vault is stored at a temperature below room temperature to preserve the color photographic emulsions on the film contained within the vault. For short-term storage, sodium thiocyanate pads charged with water are placed within the vault. For long term storage, the interior of the vault is kept at a low relative humidity

A Scanning laser-velocimeter technique for measuring two-dimensional wake-vortex velocity distributions

A rapid scanning two dimensional laser velocimeter (LV) has been used to measure simultaneously the vortex vertical and axial velocity distributions in the Langley Vortex Research Facility. This system utilized a two dimensional Bragg cell for removing flow direction ambiguity by translating the optical frequency for each velocity component, which was separated by band-pass filters. A rotational scan mechanism provided an incremental rapid scan to compensate for the large displacement of the vortex with time. The data were processed with a digital counter and an on-line minicomputer. Vaporized kerosene (0.5 micron to 5 micron particle sizes) was used for flow visualization and LV scattering centers. The overall measured mean-velocity uncertainity is less than 2 percent. These measurements were obtained from ensemble averaging of individual realizations

NASA Contributions to Development of Special-Purpose Thermocouples. A Survey

The thermocouple has been used for measuring temperatures for more than a century, but new materials, probe designs, and techniques are continually being developed. Numerous contributions have been made by the National Aeronautics and Space Administration and its contractors in the aerospace program. These contributions have been collected by Midwest Research Institute and reported in this publication to enable American industrial engineers to study them and adapt them to their own problem areas. Potential applications are suggested to stimulate ideas on how these contributions can be used

Legislating Agency Use of Unmanned Aerial Vehicles in Washington State

After years of hearing about “drone strikes” in the Middle East meant to kill terrorists that also kill and maim innocent civilians, Americans have legitimate concerns about the government’s use of unmanned aerial vehicles (UAVs) domestically. The public’s anxiety over law enforcement agency use of domestic UAVs stems from worries that UAVs will significantly invade citizens’ privacy. In an effort to allay these privacy concerns, state legislators, including those in Washington State, have introduced statutes aimed at curbing law enforcement agency use of UAVs. However, state legislators should carefully draft legislation to ensure that agencies not acting in a law enforcement capacity do not get lumped in with traditional law enforcement agencies. Agencies such as Department of Natural Resources, Department of Fish & Wildlife, and Department of Ecology have many cost-effective and beneficial uses for UAVs that would cause negligible risk to Washingtonians’ privacy rights. This Comment suggests statutory language that would allow citizens to reap the substantial benefits of UAVs for environmental and wildlife regulation while still protecting their privacy privileges from intrusion by law enforcement agencies

The Underlying Determinants and Impacts of the Substance Abuse Crisis in Knox, Whitley, and Laurel Counties

Substance use has become a growing problem on a national, statewide, and local level. While the commonwealth of Kentucky has astonishing rates of substance use and abuse, the areas of Knox, Whitley, and Laurel counties of Kentucky are observing similar results within county lines. There are many social determinants that could potentially lead an individual to substance use or abuse which can often be unique to an area as well as the adverse effects of substance abuse on a community. Interviews were conducted with individuals in professions that directly relate to the substance abuse crisis in Knox, Whitley, and Laurel counties. Participants identified depression, easy access to prescription drugs, poverty, and family values and morals as potential determinants that lead individuals to substance use or abuse in Knox, Whitley, and Laurel counties. Participants identified children and families of substance abusers as the individuals that suffer the most as a result of substance abuse. Participants also identified employment, the economy, officer safety, safety of the general public, and other aspects of the community as being directly affected by substance abuse. Findings from the study were consistent with current literature

Radiometrically Accurate Thermal Vehicle Targets for Synthetic Video Development

Collecting large scientific quality thermal infrared image and video data sets is an expensive time consuming endeavor. Thermal infrared imagers cost much more than comparable visible systems and require skilled experienced operators. Also, time and experienced personnel are required to collect quality ground truth. Often it is advantageous to perform computer simulations as an alternative to collecting image and video data with real camera systems. As long as enough physics is incorporated into the models to give accurately comparable results to real imagery, simulated data can be used interchangeably. Generating synthetic images and video has the added benefit of being flexible as the user has control over every aspect of the simulation. Simulations are not subject to restrictions such as location, weather conditions, time of day, or time of year. Ground truth is assigned instead of measured in the synthetic world so it is known a priori. This thesis illustrates a method of using the Digital Image and Remote Sensing Image Generation (DIRSIG) software to create simulated infrared images and video of validated thermal target vehicle models inside thermal infrared wide-area scenes. A finite difference heat propagation and surface temperature solver, ThermoAnalytics Multi-Service Electro-optic Signature (MuSES TM), was used to accurately model the emissive thermal target vehicles. Validation of the thermal target vehicle model was performed using images taken from a laboratory calibrated MWIR camera. Images taken with the calibrated camera of the same type of vehicle as the target model were compared to the synthetic images for the same conditions for validation. Target vehicle motion was added to the simulations through the use of Simulation of Urban Mobility (SUMO), DIRSIGs movement files, and custom python scripting. The output images from DIRSIG were then laced together into video. The resulting video was used to test three tracking algorithms illuminating each one’s strengths and weaknesses