Retrieval of Eddy Dissipation Rate from Derived Equivalent Vertical Gust included in Aircraft Meteorological Data Relay (AMDAR)

Kim, Soohyun; Chun, Hye‐Yeong; Kim, Jung-Hoon; Sharman, Robert; Strahan, Matt

doi:10.5194/amt-2019-442

Cited by 2 publications

(7 citation statements)

References 11 publications

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“…Indeed, this proportionality is often used in meteorology to estimate the dissipation rate from ultrasonic anemometers (e.g. [35]), and similar approaches have been used to measure clear air turbulence using the eddy dissipation rate from aircraft [26,27]. We, therefore, took the proportionality of the fit for the power law relationship (between the power and the frequency (−5/3) as a measure of the turbulent energy.…”

Section: Methodsmentioning

confidence: 99%

“…It is clear from flying in aircraft that turbulence can cause fluctuations in altitude and body motion. In fact, the clear air turbulence has been estimated using routine measurements of aircraft motion [26] and the variation in vertical acceleration [27]. Similarly, Laurent et al [2] showed that there was a linear relationship between the body accelerations of a single 5 kg golden eagle ( Aquila chrysaetos ) during gliding flight and the atmospheric turbulence (specifically, the body accelerations exhibited power spectra characteristic of turbulence and that increased in proportion to the turbulence intensity).…”

Section: Introductionmentioning

confidence: 99%

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Estimating fine-scale changes in turbulence using the movements of a flapping flier

Lempidakis

Ross

Quetting

et al. 2022

J. R. Soc. Interface.

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All animals that operate within the atmospheric boundary layer need to respond to aerial turbulence. Yet little is known about how flying animals do this because evaluating turbulence at fine scales (tens to approx. 300 m) is exceedingly difficult. Recently, data from animal-borne sensors have been used to assess wind and updraft strength, providing a new possibility for sensing the physical environment. We tested whether highly resolved changes in altitude and body acceleration measured onboard solo-flying pigeons (as model flapping fliers) can be used as qualitative proxies for turbulence. A range of pressure and acceleration proxies performed well when tested against independent turbulence measurements from a tri-axial anemometer mounted onboard an ultralight flying the same route, with stronger turbulence causing increasing vertical displacement. The best proxy for turbulence also varied with estimates of both convective velocity and wind shear. The approximately linear relationship between most proxies and turbulence levels suggests this approach should be widely applicable, providing insight into how turbulence changes in space and time. Furthermore, pigeons were able to fly in levels of turbulence that were unsafe for the ultralight, paving the way for the study of how freestream turbulence affects the costs and kinematics of animal flight.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Estimating fine-scale changes in turbulence using the movements of a flapping flier

Lempidakis

Ross

Quetting

et al. 2022

J. R. Soc. Interface.

View full text Add to dashboard Cite

show abstract

“…Nonetheless, the good agreement between turbulence estimates from the anemometer measurements, the pilot's scores, reanalysis data and proxy values, gives confidence in our overall approach and demonstrates that simple proxies can be employed to assess turbulence strength at fine scales. Our proxies are similar in concept to those developed for aviation (Kim et al, 2020), demonstrating the widespread utility of measurements derived from onboard accelerometers and pressure sensors.…”

Section: Discussionmentioning

confidence: 79%

“…Indeed, this proportionality is often used in meteorology to estimate the dissipation rate from ultrasonic anemometers (e.g. Oncley et al, 1996), and similar approaches have been used to measure clear air turbulence using the eddy dissipation rate from aircraft (Huang et al, 2019, Kim et al, 2020. We therefore took the proportionality of the fit for the power law relationship (between the power and the frequency (-5/3) as a measure of the turbulent energy.…”

Section: Turbulence Estimationmentioning

confidence: 99%

“…This is analogous to the turbulence observations that are routinely provided verbally by pilots in the form of pilot reports (PIREPs). Here, the turbulence level is determined by a pilot's subjective experience of the aircraft response to turbulence (Kim et al, 2020). Computations of our qualitative measure of turbulence strength were conducted in Python version 2.7.15 (Van Rossum, 2007) (see supplementary material for the code).…”

Section: Turbulence Estimationmentioning

confidence: 99%

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The implications of costly airflows for space-use and movement decisions in birds

Lempidakis¹

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The behavioural ecology of flight has largely considered how birds respond to mean flow conditions, but it is the gusty or extreme airflows that are likely to be particularly challenging. This thesis addresses this, examining the strategies birds use to negotiate turbulence over land, and exceedingly strong winds at sea. I first develop a method for sensing turbulence at fine scales using data collected onboard the animals themselves, taking homing pigeons (Columba livia) as model flapping fliers. Fine scale variation in the flight altitude and body displacement emerged as effective proxies of turbulence. I then assess the impact of freestream turbulence on flapping fliers and find that pigeons adapted their wingbeat kinematics (frequency and amplitude) to increase their flight stability in response to turbulence, but did so without a clear increase in flight effort. In my final two chapters I examine the responses of two seabird species to strong winds, first at sea, and then on land. Specifically, I investigate how streaked shearwaters (Calonectris leucomelas) respond to tropical cyclones, and how common guillemots (Uria aalge) select their breeding cliffs in relation to airflow conditions. I find that shearwaters fly towards the eye of the storm. This tendency increases with cyclone intensity and may enable birds to avoid strong onshore winds and reduce the associated risks of forced landings and/ or injury. Finally, computational fluid dynamics models reveal that guillemots select breeding cliffs that are sheltered from wind and storm conditions, rather than from the mean wind alone, or heat stress. This model of habitat selection could also predict habitat use across islands. Overall, this highlights the varied and sometimes surprising capacities of birds to cope with extreme and variable airflows and operate in areas that are, as yet, inaccessible to aircraft.

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Retrieval of Eddy Dissipation Rate from Derived Equivalent Vertical Gust included in Aircraft Meteorological Data Relay (AMDAR)

Cited by 2 publications

References 11 publications

Estimating fine-scale changes in turbulence using the movements of a flapping flier

Estimating fine-scale changes in turbulence using the movements of a flapping flier

The implications of costly airflows for space-use and movement decisions in birds

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