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Identification of expected seismic activity areas by forecasting complex seismic-mode parameters in Uzbekistan
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作者 T.U.Artikov R.S.Ibragimov +1 位作者 T.L.Ibragimova M.A.Mirzaev 《Geodesy and Geodynamics》 2018年第2期121-130,共10页
In this paper, the author proposed a methodology to reveal expected seismic activation places for coming years by a complex of forecasting parameters of a seismic mode. Areas in Uzbekistan where currently observed ano... In this paper, the author proposed a methodology to reveal expected seismic activation places for coming years by a complex of forecasting parameters of a seismic mode. Areas in Uzbekistan where currently observed anomalies in various parameters of a seismic mode has been revealed. By number of displayed abnormal signs the areas has been ranked based on probability of occurrence of strong earthquakes there. It has prepared schemes of the synoptic forecast of expected seismic activation places in case of occurrence of strong earthquakes in the Central-Asian region. 展开更多
关键词 Long-term forecast of earthquakes parameters of seismic mode Seismic activity Seismic gap
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Sensitivity of the Multiple Equilibria to Gorverning System, Mode Chosen and Parameter
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作者 赵景霞 朱抱真 《Advances in Atmospheric Sciences》 SCIE CAS CSCD 1989年第1期33-43,共11页
Multiple equilibria of a forced, dissipative atmosphere system studied by Charney andothers have provided a new insight into the dynamics of the atmospheric circulation. But thetheoretical results remain some uncertai... Multiple equilibria of a forced, dissipative atmosphere system studied by Charney andothers have provided a new insight into the dynamics of the atmospheric circulation. But thetheoretical results remain some uncertainty for different approaches. Charney and Devore (1979) obtained two stable equilibria for certain range of externalforcing in the barotropic model, one of which is a high--index circulation, and the other alow--index for a blocking state. However Charney and Straus (1980) found that only thelow--index (blocking) state is stable and there do not exist multiple equilibria in the baroclinicmodel. 展开更多
关键词 Sensitivity of the Multiple Equilibria to Gorverning System mode Chosen and Parameter
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Chaos Control in Electromechanical Seismograph System with Noise Disturbances
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作者 郑连清 申滔 陆治国 《Journal of Donghua University(English Edition)》 EI CAS 2012年第3期203-208,共6页
In order to eliminate chaotic oscillation of electromechanical characteristics of seismograph system, the complex dynamic the four-dimensional nonlinear equations of seismograph system were analyzed. Sliding mode meth... In order to eliminate chaotic oscillation of electromechanical characteristics of seismograph system, the complex dynamic the four-dimensional nonlinear equations of seismograph system were analyzed. Sliding mode method was applied to stabilize the chaotic orbits of the eleetromechanieal seismograph system to arbitrary chosen fixed points and periodic orbits precisely, and MATLAB simulations were presented to confirm the validity of the controller. The results show that using sliding mode method can make the system track target orbit strictly and smoothly with short transition time, and its insensitivity to noise disturbances is shown. It also provides reference for relevant chaos control in relevant system. 展开更多
关键词 electromechanical seismograph system chaotic attractor slidine mode uncertain parameter: noise disturbance SIMULATION
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The hydrodynamics of self-rolling locomotion driven by the flexible pectoral fins of 3-D bionic dolphin 被引量:1
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作者 Zhihan Li Dan Xia +3 位作者 Xufeng Zhou Jiabo Cao Weishan Chen Xingsong Wang 《Journal of Ocean Engineering and Science》 SCIE 2022年第1期29-40,共12页
The novel autonomous rolling performance is realized by the pair of pectoral fins of a three-dimensional(3-D)bionic dolphin in this paper numerically.3-D Navier-Stokes equations are employed to simulate the viscous fl... The novel autonomous rolling performance is realized by the pair of pectoral fins of a three-dimensional(3-D)bionic dolphin in this paper numerically.3-D Navier-Stokes equations are employed to simulate the viscous fluid around the bionic dolphin.The effect of self-rolling manoeuvrability is ex-plored using the dynamic mesh technology and user-defined function(UDF).By varying the parameter ratios,the interaction of flexible pectoral fins is divided into two motion modes,amplitude differential and frequency differential mode.As the primary driving source,the differential motion of a pair of pec-toral fins can effectively provide the rolling torque,and the trajectory of the entire rolling process is approximately the clockwise spiral.The results demonstrate that the rolling angular velocity and driving torque in the steady state can be improved by increasing parameter ratios,and the rolling efficiency can reach the maximum under the optimal parameter ratio.Meanwhile,different parameter ratios do not af-fect the rolling radius of the self-rolling dolphin.The evolution process around the pair of pectoral fins is shown by the flow structures in self-rolling swimming,reasonably revealing that self-rolling locomotion is produced by the pressure and wake vortices surrounding the pair of pectoral fins,and the wake struc-tures depend primarily on the variation of parameter ratio.It properly turns out that the application of the pair of pectoral fins can realize the self-rolling performance through parameter differential modes. 展开更多
关键词 Self-rolling dolphin Parameter differential mode Numerical simulation Hydrodynamic performance Flow structures
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