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Boulder Imaging systems are currently used at China Lake's Propulsion Laboratory for recording all video from their rocket booster tests. |
 Multiple Boulder Imaging VisionRecorders are used to simultaneously record video from up to 16 camera sources, providing full coverage of the booster test at all critical angles of perspective.
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 Boulder Imaging designed and is currently fabricating the next generation Laser Scoring System which will be a key component for Edwards AFB's Radiometric Measurement and Analysis System.
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The custom-built Laser Scoring System features the ability to fully characterize the performance of targeting lasers from aircraft at two simultaneous spectral wavelengths and in terms of both spatial and temporal performance. The system records infrared video and measures laser pulse frequency characteristics with 2ns accuracy. |
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 Boulder Imaging developed a real-time imaging system for the Naval Surface Warfare Center to study the interaction of ocean waves with Navy vessels.
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Operating in an indoor research pool that simulates the ocean, the custom-designed 8-camera system includes two of Boulder Imaging's recording systems. Each VisionNow system controls and captures data from four cameras while synchronizing to the other system for simultaneous video recording. Each VisionNow system can capture 200 Mbytes per second of data, and each of the 8 cameras is able to run at up to 30 frames per second at a resolution if 1392 x 1040 pixels. |
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Boulder Imaging provided a digital video recording system to Lockheed Martin to test the Army’s Line-of-Sight Antitank Weapon System (LOSAT) missile. |
 The camera system, stationed on the top of a Hummer military vehicle, captures 250 megabytes of visual information per second as a LOSAT missile is launched during testing.
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 Boulder Imaging created the image capture system for Samsung SDSA's uniAMS, a commercial product used for measuring pavement conditions.
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Boulder Imaging worked with the uniAMS system to develop a cost effective real-time digital analysis for scheduling and budgeting pavement, bridge, sign, and sidewalk maintenance. |
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 Boulder Imaging created real-time medical imaging components for image capture, processing, and X-ray generator control for Medical Metrics Inc.
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Medical Metrics Inc. develops digital imaging diagnostic tools to assess musculoskeletal conditions. The company's first product, the NIMA™ (non-invasive musculoskeletal assessment) System is comprised of low-dose fluoroscopic moving x-ray, proprietary software algorithms, and a data library containing scientifically derived normals for real-time analysis of musculoskeletal images. |
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Boulder Imaging developed both the real-time image processing system and the post-processing software for SPEC’s Cloud Particle Imager, a unique instrument that takes high-resolution digital images of cloud particles. |
 SPEC Inc., designs, fabricates and installs innovative instruments on research aircraft. SPEC Inc.’s Cloud Particle Imager (CPI) is an instrument that takes high-resolution digital images of cloud particles. This instrument flew on NASA’s WB-57 platform, one of several high-altitude aircraft used in this multi-agency mission.
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Boulder Imaging created the high resolution image capture components for Agilent's 5DX X-ray PCB inspection system |
Agilent Technologies designs, develops, and markets state-of-the-art Automated Optical Inspection (AOI) solutions that are deployed across the globe. Agilent Technologies, Inc. focuses on applying measurement technologies to develop products that sense, analyze, display, and communicate data. |
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Boulder Imaging developed the original software architecture to control Advanced Imaging Technologies' prototype units for its Avera Breast Imaging System™ , with many of those components used in the commercial product. Advanced Imaging Technologies has also licensed Boulder Imaging's for its Avera system.
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Advanced Imaging Technologies, Inc. is a medical technology company committed to improving the quality of medical care through the development and marketing of a new platform imaging technology called Diffractive Ultrasound. The Avera system permits rapid assessment of breast tissue in real time and in finer detail, without the risk of radiation and the discomfort of breast compression.
"We look at Boulder Imaging more as being a part of our engineering team than just a vendor. Their commitment to a quality product and in assisting us to take our product to market is unmatched in the industry,"
said Patrick Jensen, vice president of engineering for Advance Imaging Technologies. |
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