Detail study of time evolution of three thunderstorm events in Tehran area using observations and numerical simulations for lightning nowcasting     

Mahmoudian  A.  Gharaylou  M.  Holzworth  R. 《Natural Hazards》2021,109(2):1481-1508

Natural Hazards - The first hourly observations of thunderclouds and associated lightning events for Tehran area are presented in this paper. Hourly data of Cloud to Ground (CG) lightning events in...  相似文献   

Characterizing the degree of amplitude‐variation‐with‐offset nonlinearity in seismic physical modelling reflection data          下载免费PDF全文

Kristopher A. Innanen  Faranak Mahmoudian 《Geophysical Prospecting》2015,63(1):133-140

The nonlinearity of the seismic amplitude‐variation‐with‐offset response is investigated with physical modelling data. Nonlinearity in amplitude‐variation‐with‐offset becomes important in the presence of large relative changes in acoustic and elastic medium properties. A procedure for pre‐processing physical modelling reflection data is enacted on the reflection from a water‐plexiglas boundary. The resulting picked and processed amplitudes are compared with the exact solutions of the plane‐wave Zoeppritz equations, as well as approximations that are first, second, and third order in , , and . In the low angle range of 0°–20°, the third‐order plane‐wave approximation is sufficient to capture the nonlinearity of the amplitude‐variation‐with‐offset response of a liquid‐solid boundary with , , and ρ contrasts of 1485–2745 m/s, 0–1380 m/s, and 1.00–1.19 gm/cc respectively, to an accuracy value of roughly 1%. This is in contrast to the linear Aki–Richards approximation, which is in error by as much as 25% in the same angle range. Even‐order nonlinear corrective terms are observed to be primarily involved in correcting the angle dependence of , whereas the odd‐order nonlinear terms are involved in determining the absolute amplitude‐variation‐with‐offset magnitudes.  相似文献   

Using of gene expression programming and climatic data for forecasting flow discharge by considering trend,normality, and stationarity analysis     

Arash Adib  Milad Mahmoudian Kafshgar Kalaee  Mohammad Mahmoudian Shoushtari  Keivan Khalili 《Arabian Journal of Geosciences》2017,10(9):208

In this research, the main hydrological characteristics (such as trend, stationarity, and normalization of hydrological data) of the Kasilian watershed are considered from 1970 to 2009. For forecasting of discharge, gene expression programming (GEP) method is applied. Normality and stationarity of time series are necessary for application of GEP method. For this purpose, third edition of Mann-Kendall trend test and skewness test are used for detection of trend and normalization of data, respectively. Also, five methods are applied for detection of stationarity of data. Modified Mann-Kendall trend test and Theil and Sen’s median slope method illustrate that annual and monthly precipitation data have slight decreasing trend, annual and monthly discharge data have insignificant decreasing trend, and annual and monthly temperature data have an increasing trend. Skewness test illustrates that annual, monthly, and daily discharge and precipitation data are not normal. By using logarithm function, skewness is minimized and symmetry of data is improved. After normalization of time series by logarithm function, five methods are applied for testing of stationarity of time series. These methods show that different normalized time series are stationarity and stationarity of time series is improved by elimination of periodic properties of data. For forecasting of daily discharge by GEP method, 85% of data are used for training and 15% of data are used for testing. By using data of 3 days ago, the GEP has the best efficiency. Coefficient of correlation (CC), root mean square error (RMSE), mean absolute error (MAE), and mean absolute relative error (MARE) are 0.9, 0.495 lit/s, 0.288 lit/s, and 0.053, respectively.  相似文献   

Approximate Analytical Turning Conditions for Underwater Gliders: Implications for Motion Control and Path Planning     

Mahmoudian  N. Geisbert  J. Woolsey  C. 《Oceanic Engineering, IEEE Journal of》2010,35(1):131-143

This paper describes analysis of steady motions for underwater gliders, a type of highly efficient underwater vehicle which uses gravity for propulsion. Underwater gliders are winged underwater vehicles which locomote by modulating their buoyancy and their attitude. Several underwater gliders have been developed and have proven their worth as efficient long-distance, long-duration ocean sampling platforms. Underwater gliders are so efficient because they spend much of their flight time in stable, steady motion. Wings-level gliding flight for underwater gliders has been well studied, but analysis of steady turning flight is more subtle. This paper presents an approximate analytical expression for steady turning motion for a realistic underwater glider model. The problem is formulated in terms of regular perturbation theory, with the vehicle turn rate as the perturbation parameter. The resulting solution exhibits a special structure that suggests an efficient approach to motion control as well as a planning strategy for energy efficient paths.   相似文献   

Water-budget of Upper Lake Constance: An estimation of total supply based on runoff and water level variations     

Gustav Wagner  Barbara Mahmoudian  Heinz Gerd Schröder 《Aquatic Sciences - Research Across Boundaries》1994,56(2):179-189

An inflow-outflow model of the Upper Lake Constance has been adapted to fit the discharge data from the outletSeerhein at Constance. In order to perform mass balances the supplies and runoffs of the lake were calculated from 1961 at 1991.Three decades worth of results show no trend in annual supply patterns, aside from annual and seasonal fluctuations. When compared to earlier results, one finds slightly greater annual runoffs into the Seerhein of approximately 5%.  相似文献