Betekenis van:
waveform

waveform
Zelfstandig naamwoord
    • the shape of a wave illustrated graphically by plotting the values of the period quantity against time

    Synoniemen

    Hyperoniemen


    Voorbeeldzinnen

    1. waveform phase identification,
    2. waveform phase identification, OSI techniques, and
    3. Waveform digitisers and transient recorders, having all of the following:
    4. Waveform digitisers and transient recorders having all of the following:
    5. Thus, a 1 GSample/s arbitrary waveform has a direct output capability of 500 MHz.
    6. Two data fusion subprojects are anticipated for funding through contractors: for example, fusion of waveform (seismic, hydroacoustic, and infrasound) data; and fusion of waveform and radionuclide products/data to produce a Fused Event Bulletin.
    7. Note 1.:For the purpose of 3A002.d., frequency synthesised signal generators include arbitrary waveform and function generators.
    8. provide a large archive of parametric, waveform and radionuclide data to researchers working on improving the processing,
    9. Note 1:for the purpose of 3A002.d., frequency synthesised signal generators include arbitrary waveform and function generators.
    10. Waveform data fusion was a topic of a recent data mining (innovative processing techniques) technical meeting, and the ideas presented will be ready for funding by the end of 2010. Two data fusion subprojects are anticipated for funding through contractors: for example, fusion of waveform (seismic, hydroacoustic, and infrasound) data; and fusion of waveform and radionuclide products/data to produce a Fused Event Bulletin.
    11. Arbitrary waveform and function generators are normally specified by sample rate (e.g., GSample/s), which is converted to the RF domain by the Nyquist factor of two.
    12. Thus, a 1 GSample/s arbitrary waveform has a direct output capability of 500 MHz. Or, when oversampling is used, the maximum direct output capability is proportionately lower.
    13. Among the specific topics that could be pursued under Phase II of the project are: data fusion, waveform phase identification, OSI techniques, and
    14. a single continuous optical reflecting surface which is dynamically deformed by the application of individual torques or forces to compensate for distortions in the optical waveform incident upon the mirror; or b. multiple optical reflecting elements that can be individually and dynamically repositioned by the application of torques or forces to compensate for distortions in the optical waveform incident upon the mirror.
    15. A single continuous optical reflecting surface which is dynamically deformed by the application of individual torques or forces to compensate for distortions in the optical waveform incident upon the mirror; or