AXIS NPS 550 RISC DRIVER DETAILS:
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AXIS NPS 550 RISC DRIVER
Neubauer, P. Rodgers, S.
Toward a Situation Model in a Cognitive Architecture. Computational and Mathematical Organization Theory. Rosenberg, B. Staff, J. Joint Publication Close Air Support.
Copyright 1997 Axis Communications, Inc. All Rights Reserved Worldwide.
Washington, DC. Taggart, B.
Defense Technical Information Center. Winner, J. Evaluating games engines for incorporation in military simulation and training.
Proceedings from GameOn North America. Troy, NY. Develop test and evaluation methodology for holographic lightfield 3D displays with an automated measurement system to support comparisons of prototypes emerging from research, to enable robust calibration, and to perform product acceptance testing.
Advanced FoLD 3D visualization systems, that enable multi-user full-parallax viewing of complex 3D data without eyewear, are being Axis NPS 550 RISC with the aim of increasing the productivity of operators and analysts in C2 Operations Centers. FoLD approaches have many potential advantages over the more common stereoscopic 3D S3D displays, including improved comfort and perception.
FoLD systems achieve these user-acceptance improvements by a correcting S3D's incongruous accommodative, vergence and motion parallax depth cues and b eliminating the need for 3D spectacles enabling eye-contact and non-verbal gesture communication. Full parallax multi-perspective lightfield 3D displays could also enhance collaborations and shared understanding of multi-layer 3D data sets in other application areas, including Axis NPS 550 RISC intelligence, medical training, molecular research, mineral geology, and similar civil big-data environments. Research towards these emerging eye-strain and nausea-free FoLD systems involves novel holographic, volumetric, multi-planar depthcube, integral imaging, and other lightfield display types which have been demonstrated as laboratory prototypes.
Further hardware and software maturation is necessary for successful technology transition and commercialization. However, progress is currently restrained by a lack of validated metrics physical and perceptual and by a lack of testing protocols based on realistic user content and scenarios. Rapid, inexpensive physical measurement methodologies are required to guide research spirals, display calibration, and product acceptance. An automated measurement approach is needed to reduce the costs associated with making the large number of measurements required to describe display depth and lateral image quality from all pupil-pair Axis NPS 550 RISC within a reasonably large 30xdeg to 90xdeg image viewing zone.
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Human visual perception needs to be convincingly addressed in all new physical instrumental measurement procedures. Completely new classes of display technology, like FoLD, have gone through a similar phase. For example, the digital pixelated flat panel displays FPD class of 2D displays went through this metrics and metrology development phase in the early s. By aboutthe main 2D display technology on the planet by units shipped and dollar sales transitioned from the analog cathode ray tube CRT class to the FPD class. The Axis NPS 550 RISC objective of this topic is to expedite a similar transition in 3D displays from the S3D class to the FoLD class.
Performance metrics for physical measurements on FoLD systems include analogues to those developed for 2D displays: Novel metrics needing to be added for the FoLD 3D class include depth acuity, depth contrast sensitivity, and full parallax commanded by head position in the lightfield. Special attention should be paid to calibration schemes and to sampling schemes to adequately describe display performance. Standards for FoLD 3D test and evaluation are incomplete; their development and vetting for inclusion in the display metrology standard maintained by the Society for Information Display SID is a secondary goal of this topic. No government facilities or equipment will be provided.
Develop test and evaluation methodology for holographic and other light field 3D displays. Design an automated procedure for measuring the quality of FoLD systems.
Deliverables shall include a review of literature and relevant technologies, a proposed strategy for optimizing the automated measurement procedure, a mature system design, and a draft handbook for FoLD test and evaluation. Axis NPS 550 RISC and deliver the display measurement system designed in Phase I.
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Verify by demonstration that the measurement system is suitable for FoLD 3D visualization research, system calibration, and product acceptance testing. AXIS NPS / RISC. Discontinued Products. This product is no longer supported, this information is for reference only. Firmware. Find many great new & used options and get the best deals for AXIS PRINT SERVER Axis NPS 550 RISC RISC at the best online prices at eBay!
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