Virtual Instruments (VI, also called instruments-on-a-Disk) is the next stage in the evolution of... more Virtual Instruments (VI, also called instruments-on-a-Disk) is the next stage in the evolution of ATE. VI fundamentally changes the paradigm of how ATE is designed, built, fielded, supported and procured. The core of the VI concept is the idea that most instruments can be implemented in software, supported by a bare minimum of low-cost, commercial off-the-shelf hardware. The effect of
Virtual Instruments (VI, also called instruments-on-a-Disk) is the next stage in the evolution of... more Virtual Instruments (VI, also called instruments-on-a-Disk) is the next stage in the evolution of ATE. VI fundamentally changes the paradigm of how ATE is designed, built, fielded, supported and procured. The core of the VI concept is the idea that most instruments can be implemented in software, supported by a bare minimum of low-cost, commercial off-the-shelf hardware. The effect of
The current mix of EW flightline testers depend almost exclusively on parametric and functional t... more The current mix of EW flightline testers depend almost exclusively on parametric and functional testing that are inadequate to properly test modern EW suites. They are all based on hardware-intensive architectures that inherently promote high life cycle costs. There is now an alternative: a mix of operational, functional, and parametric testing in a virtual instrument-based architecture. AlliedSignal's FAST project demonstrates
The core of the virtual instrument (VI) concept is that many instruments can be implemented compl... more The core of the virtual instrument (VI) concept is that many instruments can be implemented completely in software, supported by only a bare minimum of low-cost, commercial off-the-shelf hardware. To demonstrate the strong advantages of this approach, we demonstrated the Full Analytical Systems Tester (“FAST”), initially configured for end-to-end testing of electronic warfare (“EW”) suites. The authors added a full range of software instruments for transmission line testing, including insertion loss, return loss, and VSWR. Countering arguments that virtual instrument-based architectures are not sufficiently mature, FAST was successfully demonstrated in the field versus the US Air Force's and Navy's first line EW suites
... Stock, George, Kanal, Laveen, Kyle, MC, Structural Pattern Recognition Of Carotid Pulse Wave... more ... Stock, George, Kanal, Laveen, Kyle, MC, Structural Pattern Recognition Of Carotid Pulse Waves Using A General Waveform Parsing System, Communications of the ACM, Vol. 19, No. 12, December 1976 Tsotsos, John K., Mylopoulos, John, Covvey, H. Dominic, Zucker, Steven ...
Virtual Instruments (VI, also called instruments-on-a-Disk) is the next stage in the evolution of... more Virtual Instruments (VI, also called instruments-on-a-Disk) is the next stage in the evolution of ATE. VI fundamentally changes the paradigm of how ATE is designed, built, fielded, supported and procured. The core of the VI concept is the idea that most instruments can be implemented in software, supported by a bare minimum of low-cost, commercial off-the-shelf hardware. The effect of
Virtual Instruments (VI, also called instruments-on-a-Disk) is the next stage in the evolution of... more Virtual Instruments (VI, also called instruments-on-a-Disk) is the next stage in the evolution of ATE. VI fundamentally changes the paradigm of how ATE is designed, built, fielded, supported and procured. The core of the VI concept is the idea that most instruments can be implemented in software, supported by a bare minimum of low-cost, commercial off-the-shelf hardware. The effect of
The current mix of EW flightline testers depend almost exclusively on parametric and functional t... more The current mix of EW flightline testers depend almost exclusively on parametric and functional testing that are inadequate to properly test modern EW suites. They are all based on hardware-intensive architectures that inherently promote high life cycle costs. There is now an alternative: a mix of operational, functional, and parametric testing in a virtual instrument-based architecture. AlliedSignal's FAST project demonstrates
The core of the virtual instrument (VI) concept is that many instruments can be implemented compl... more The core of the virtual instrument (VI) concept is that many instruments can be implemented completely in software, supported by only a bare minimum of low-cost, commercial off-the-shelf hardware. To demonstrate the strong advantages of this approach, we demonstrated the Full Analytical Systems Tester (“FAST”), initially configured for end-to-end testing of electronic warfare (“EW”) suites. The authors added a full range of software instruments for transmission line testing, including insertion loss, return loss, and VSWR. Countering arguments that virtual instrument-based architectures are not sufficiently mature, FAST was successfully demonstrated in the field versus the US Air Force's and Navy's first line EW suites
... Stock, George, Kanal, Laveen, Kyle, MC, Structural Pattern Recognition Of Carotid Pulse Wave... more ... Stock, George, Kanal, Laveen, Kyle, MC, Structural Pattern Recognition Of Carotid Pulse Waves Using A General Waveform Parsing System, Communications of the ACM, Vol. 19, No. 12, December 1976 Tsotsos, John K., Mylopoulos, John, Covvey, H. Dominic, Zucker, Steven ...
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Papers by L. Moskowitz