Sampling at irregular intervals is sometimes imposed by the nature of the phenomenon being observed as in the case of geological measurement, anemometry or radar signals.
Random sampling in chirp space
Signals recorded experimentally using hot wire anemometry look very much like the ones seen in the ﬁgure.
Navier-Stokes solver using Green's functions I: channel flow and plane Couette flow
Hotwire anemometry remains the principal technique for obtaining quantitative information about turbulent ﬂows, especially in the boundary layer.
Navier-Stokes solver using Green's functions I: channel flow and plane Couette flow
We apply our model to two real world data sets, hot(cid:12)lm anemometry data in turbulent bubbly (cid:13)ow and ECG heartbeat data.
Modeling Waveform Shapes with Random Eects Segmental Hidden Markov Models
Hot Wire Anemometry: Principles and Signal Analysis.
Modeling Waveform Shapes with Random Eects Segmental Hidden Markov Models
Edwards, “Sub-shot-noise laser Doppler anemometry with amplitude-squeezed light,” Phys.
Signal-to-Noise Ratio in Squeezed-Light Laser Radar
Wind speed was generally measured by handheld anemometry at 2 m at 20 s intervals and averaged over the life of the ﬁre.
A review of wildland fire spread modelling, 1990-present 2: Empirical and quasi-empirical models
In addition, both laser-Doppler velocimetry (LDV) and hotwire anemometry are notoriously diﬃcult to employ in regions with large temperature ﬂuctuations and a small mean-ﬂow velocity; both complications occur in the BLs.
Large scale dynamics in turbulent Rayleigh-Benard convection
***