Numerical Modeling of Ultrawideband Propagation Along a Wind Turbine Blade

Fránek, Ondřej; Zhang, Shuai; Olesen, Kim; Eggers, Patrick Claus F.; Byskov, Claus; Pedersen, Gert Frølund

doi:10.1109/tap.2018.2874489

Cited by 5 publications

(5 citation statements)

References 19 publications

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“…In order to predict the link budget, we have simulated the propagation in our in-house finite-difference time-domain (FDTD) code. We have shown that despite the challenges the FDTD method is capable of delivering results that are in good agreement with measurements [2]. However, due to the enormous size of the blade (58.7 m) and necessary spatial resolution (5 mm), each simulation of the blade took 17 hours to finish.…”

Section: Introductionmentioning

confidence: 62%

Computational Aspects of Simulating a Wind Turbine Blade Deflection Sensing System

Pedersen

Fránek

2018

2018 International Workshop on Computing, Electromagnetics, and Machine Intelligence (CEMi)

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Recently introduced wind turbine blade deflection sensing system using ultrawideband technology is described. Challenges of simulating microwave propagation along the blade using the finite-difference time-domain method are outlined. Two straightforward techniques that have been used to speed up the FDTD simulation are presented: load balancing of parallel processes and the moving frame technique. In addition, a simple method to reduce the numerical dispersion error of the FDTD method is presented.

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Section: Introductionmentioning

confidence: 62%

Computational Aspects of Simulating a Wind Turbine Blade Deflection Sensing System

Pedersen

Fránek

2018

2018 International Workshop on Computing, Electromagnetics, and Machine Intelligence (CEMi)

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“…e wave length of the electromagnetic wave plays a key role in obtaining attractive and accurate results. Greater the size of the wavelength, the more accurate the results from an RT stimulation [47,48]. Reliant on the electrogeometrical appearances available in digital maps, a ray undergoes diffuse scattering, diffraction, penetration, reflection, or attenuation.…”

Section: Simulations With the Dominant 3d Ray Tracingmentioning

confidence: 99%

Radio Network Forensic with mmWave Using the Dominant Path Algorithm

Kamboh

Shahid

Aldabbas

et al. 2022

Security and Communication Networks

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For the last two decades, cybercrimes are growing on a daily basis. To track down cybercrimes and radio network crimes, digital forensic for radio networks provides foundations. The data transfer rate for the next-generation wireless networks would be much greater than today’s network in the coming years. The fifth-generation wireless systems are considering bands beyond 6 GHz. The network design of the next-generation wireless systems depends on propagation characteristics, frequency reuse, and bandwidth variation. This article declares the channel’s propagation characteristics of both line of sight (LoS) and non-LOS (NLoS) to construct and detect the path of rays coming from anomalies. The simulations were carried out to investigate the diffraction loss (DL) and frequency drop (FD). Indoor and outdoor measurements were taken with the omnidirectional circular dipole antenna with a transmitting frequency of 28 GHz and 60 GHz to compare the two bands of the 5th generation. Millimeter-wave communication comes with a higher constraint for implementing and deploying higher losses, low diffractions, and low signal penetrations for the mentioned two bands. For outdoor, a MATLAB built-in 3D ray tracing algorithm is used while for an indoor office environment, an in-house algorithmic simulator built using MATLAB is used to analyze the channel characteristics.

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“…In RT, the concepts of ray optics are used to solve Maxwell's equations asymptotically in the high frequency regime [84]. In comparison to full-wave methods of solving Maxwell's equation, RT achieves accurate results within reasonable computation time when the propagation scenario is several orders greater than the wavelength of the electromagnetic wave [85], [86]. Depending on the electrical and geometrical characteristics of the objects in the digital map, a ray might undergo reflection, diffraction, penetration, diffuse scattering or attenuation by vegetation.…”

Section: Interaction Mechanismsmentioning

confidence: 99%

Review on Ray Tracing Channel Simulation Accuracy in Sub-6 GHz Outdoor Deployment Scenarios

Mbugua

Chen

Raschkowski

et al. 2021

IEEE Open J. Antennas Propag.

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In this paper, a review of the achieved accuracy in the literature for ray tracing (RT) based channel modeling is presented with a focus on outdoor propagation scenarios in the sub-6 GHz frequency range. The achieved accuracy is analyzed from three perspectives: 1) The input parameters which include the environmental description in the form of digital maps and the corresponding constitutive material parameters; 2) from the interaction mechanisms perspective and 3) from the output perspective where the achieved accuracy of predicted path loss is reviewed. Uniform assignment of materials to the entire propagation scenario is observed in most of the works in the literature which is attributed to the composite nature of common building materials and the difficulty of characterizing all material properties especially for outdoor scenarios. The digital maps are shown to introduce a certain degree of uncertainty in the RT predictions as most common sources of the maps hardly publish the accuracy. Notwithstanding, the prediction of path loss in most RT tools is observed to be rather robust against the inaccuracies in the input parameters with most RT tools achieving a prediction accuracy with a mean error below 4 dB and a standard deviation (STD) below 8 dB.

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Numerical Modeling of Ultrawideband Propagation Along a Wind Turbine Blade

Cited by 5 publications

References 19 publications

Computational Aspects of Simulating a Wind Turbine Blade Deflection Sensing System

Computational Aspects of Simulating a Wind Turbine Blade Deflection Sensing System

Radio Network Forensic with mmWave Using the Dominant Path Algorithm

Review on Ray Tracing Channel Simulation Accuracy in Sub-6 GHz Outdoor Deployment Scenarios

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