FLIGHT OPERATIONAL QUALITY ASSURANCE EDUCATION

Brand	Owner	Address	Description
UTRS	Universal Technical Resource Services, Inc.	Suite 208 950 N. Kings Highway Cherry Hill NJ 08034	Flight operational quality assurance education and training programs; manufacturing support services, namely, training businesses in the field of manufacturing technology;Manufacturing support services, namely, maintaining and installing computer automated equipment for the government, businesses and residential;UNIVERSAL TECHNICAL RESOURCE SERVICES;Business program management services in the nature of providing integrated decision making support for public and private organizations and the government, namely, business project management and planning, strategic and long-range business planning, acquisition management, business life-cycle cost analysis, cost and schedule control, foreign military sales support, technology transfer program support, and organizational design and restructuring; logistics management in the field of technological systems and subsystems; manufacturing support services, namely, procurement, namely, purchasing of computer automated equipment for businesses, government and residential;Corrosion control, namely, scientific research concerning corrosion in the nature of field studies, and testing and tracking treatments of metal to avoid and control corrosion; website design, development and authoring for others; computer and industrial automation system engineering and integration; computer consulting and development of information systems for others; flight operational quality assurance programs; environmental consulting, namely, providing scientific research concerning pollution prevention and the technology used to prevent pollution;
	Where the owner name is not linked, that owner no longer owns the brand

Technical Examples

A mass spectrometer system comprises a flight tube having an operational length, a measurement device for measuring a variation in the longitudinal length of the flight tube, means for compensating for the measured variation in the longitudinal flight tube length, and a detector positioned near a downstream end of the flight tube. The measurement device comprises an optical interferometer, and may specifically comprise a Michelson interferometer. In a first embodiment, the mass spectrometer system includes an actuator coupled to the measurement device and the detector for moving the detector in a longitudinal direction to compensate for the measured variation in the operational flight tube length. In a second embodiment, the mass spectrometer system includes a processor coupled to the measurement device configured to calculate analyte ion mass to charge ratio. The processor is configured to modify a calculation of analyte ion mass to charge ratio using the measured variation in operational flight tube length.