Chemical plume tracking. 2. Multiple-frequency modulation.

@article{Kikas2001ChemicalPT,
  title={Chemical plume tracking. 2. Multiple-frequency modulation.},
  author={Timo Kikas and Petr Janata and Hiroshi Ishida and Jiri Janata},
  journal={Analytical chemistry},
  year={2001},
  volume={73 15},
  pages={
          3669-73
        }
}
The purpose of this research is to estimate the effect of turbulent mixing on the information content in a chemically encoded signal, to investigate the effect of the presence of multiple encoded frequencies, and to evaluate the information contained in the higher harmonics of the coherence spectra. The virtual plume instrument is used to mimic the flow conditions and signal patterns in a real chemical plume. Two-frequency modulation experiments are performed using solenoid valves to introduce… 
View on PubMed
atonal.ucdavis.edu
6 Citations
Background Citations
2
Methods Citations
4

Figures from this paper

6 Citations

Citation Type

Citation Type

A Multidisciplinary Study of Spatial and Temporal Scales Containing Information in Turbulent Chemical Plume Tracking
This report describes the results of a multidisciplinary study of turbulent chemical plume tracking of blue crabs and autonomous agents. The study consists of a coordinated investigation of animal
Chemical Source Localization in Unknown Turbulence Using the Cross-Correlation Method
  • G. Rosen, P. Hasler
  • Physics
    2006 IEEE International Conference on Acoustics Speech and Signal Processing Proceedings
  • 2006
TLDR
It is shown that a plume can be modeled linearly on a small-scale and that a wind measure for a stationary sensor array can indicate the direction of a chemical source with reasonable accuracy and time.
Numerical simulations of odorant detection by biologically inspired sensor arrays.
TLDR
The antennules of many marine crustaceans enable them to rapidly locate sources of odorant in turbulent environmental flows and may provide biological inspiration for engineered plume sampling systems, but these species' neural systems may not be able to resolve plume structure at the level of individual filaments via temporal properties of the odorant flux.
Odorant Detection by Biological Chemosensor Arrays
TLDR
Numerical models used to simulate the flow of odorant-laden water around arrays of chemosensory aesthetascs, and the transport of odorants to their surfaces, during a plume sampling event suggest that the return stroke and interflick pause may be critical if these animals are to detect fine-scale plume structures.
Effects of sensilla morphology on mechanosensory sensitivity in the crayfish.
TLDR
Results show that sensilla are most sensitive to fluid movement in the along-axis plane of the antennule, with a sharp drop in sensitivity perpendicular to this axis, and this sensitivity agrees well with neural responses measured directly from the paired sensory neurons associated with each sensillum.
Signal processing for biologically-inspired gradient source localization and DNA sequence analysis

References

SHOWING 1-4 OF 4 REFERENCES
Signals, Sound, and Sensation
TLDR
This paper presents a meta-analysis of the Fourier Transform that examines the relationships between power, intensity, and Loudness, and its applications to signal detection and perception.
A First Course in Turbulence
Keywords: turbulence ; transport ; contraintes ; transport ; couche : limite ; ecoulement ; tourbillon ; energie Reference Record created on 2005-11-18, modified on 2016-08-08
Random Data Analysis and Measurement Procedures
This is a new edition of a book on random data analysis which has been on the market since 1966 and which was extensively revised in 1971. The book has been a bestseller since. It has been fully
Analytical Chemistry