Robust measurements of the electron-neutral collision frequency using plasma impedance probes

Ship collisions are one of the most common types of maritime accidents. Assessing the frequency and probability of ship collisions is of great importance as it provides a cost-effective and practical way to mitigate risk. In this paper, we present a review of quantitative ship collision frequency estimation models for waterway risk assessment, accompanied by a classification of the models and a description of their main modelling characteristics. Models addressing the macroscopic perspective in the estimation of ship collision frequency on waterways are reviewed in this paper with a total of 29 models. We extend the existing classification methodology and group the collected models accordingly. Special attention is given to the criteria used to detect potential ship collision candidates, as well as to causation probability and the correlation of models with real ship collision statistics. Limitations of the existing models and future improvement possibilities are discussed. The paper can be used as a guide to understanding current achievements in this field.

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Effect of hydrogen isotope on plasma impedance and thermal pinching induced by single aerosol droplets injected into an inductively coupled plasma

Spectrochimica Acta Part B Atomic Spectroscopy ◽

10.1016/j.sab.2020.106035 ◽

2021 ◽

Vol 176 ◽

pp. 106035

Author(s):

George C.-Y. Chan ◽

Gary M. Hieftje

Keyword(s):

Inductively Coupled Plasma ◽

Hydrogen Isotope ◽

Inductively Coupled ◽

Plasma Impedance

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Automatic Measurement of Pennation Angle from Ultrasound Images using Resnets

Ultrasonic Imaging ◽

10.1177/0161734621989598 ◽

2021 ◽

Vol 43 (2) ◽

pp. 74-87

Author(s):

Weimin Zheng ◽

Shangkun Liu ◽

Qing-Wei Chai ◽

Jeng-Shyang Pan ◽

Shu-Chuan Chu

Keyword(s):

Muscle Fibers ◽

Ultrasound Image ◽

Automatic Measurement ◽

Pennation Angle ◽

Reference Line ◽

Ultrasound Images ◽

Single Image ◽

Angle Measuring ◽

Sequential Image ◽

Robust Measurements

In this study, an automatic pennation angle measuring approach based on deep learning is proposed. Firstly, the Local Radon Transform (LRT) is used to detect the superficial and deep aponeuroses on the ultrasound image. Secondly, a reference line are introduced between the deep and superficial aponeuroses to assist the detection of the orientation of muscle fibers. The Deep Residual Networks (Resnets) are used to judge the relative orientation of the reference line and muscle fibers. Then, reference line is revised until the line is parallel to the orientation of the muscle fibers. Finally, the pennation angle is obtained according to the direction of the detected aponeuroses and the muscle fibers. The angle detected by our proposed method differs by about 1° from the angle manually labeled. With a CPU, the average inference time for a single image of the muscle fibers with the proposed method is around 1.6 s, compared to 0.47 s for one of the image of a sequential image sequence. Experimental results show that the proposed method can achieve accurate and robust measurements of pennation angle.

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Collision frequency of charged particles in a weekly ionized gas in a strong magnetic field

Physical Review A ◽

10.1103/physreva.23.2644 ◽

1981 ◽

Vol 23 (5) ◽

pp. 2644-2649 ◽

Cited By ~ 10

Author(s):

Shingo Imazu

Keyword(s):

Magnetic Field ◽

Strong Magnetic Field ◽

Collision Frequency ◽

Charged Particles ◽

Ionized Gas

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Studies on the ionization produced by metallic salts in flames I. The determination of the collision frequency of electrons in coal-gas/air flames

Proceedings of the Royal Society of London Series A - Mathematical and Physical Sciences ◽

10.1098/rspa.1950.0073 ◽

1950 ◽

Vol 201 (1067) ◽

pp. 480-488 ◽

Cited By ~ 42

Keyword(s):

Conversion Factor ◽

Collision Frequency ◽

Metal Salt ◽

Alkali Metal Salt ◽

Electron Content ◽

Radio Waves ◽

Coal Gas ◽

Flame Ionization ◽

Metallic Salts

As an introduction to the study of reactions contingent on ionization in flames, an experimental measurement has been made of the collision frequency of electrons with molecules in coal-gas/air flames, containing added alkali metal salt. This quantity is an important parameter in the expression relating the electron content of a flame with the attenuation of centimetric radio waves by it. This attenuation has been chosen as a convenient method of investigating flame ionization. The form of the results obtained agree well with the predictions of theory, a uniform difference of about 20 % between measured collision frequency and that calculated on a very simple gas kinetic hypothesis being obtained. A suitable conversion factor has been evolved for proceeding from attenuation of 3 cm. waves to electron concentration/cm. 3 .

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