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    Publisher: Knowledgia Review, Malaysia
   
  Asian Journal of Applied Sciences is an international peer-reviewed, well indexed and globally circulated scientific journal dedicated to publish original research on chemical sciences, computer science, mathematics and statistics, engineering, material sciences, nano technology and nano sciences, environmental sciences and basic sciences. Asian Journal of Applied Sciences publishes cutting edge research in shape of research articles, reviews and short communications.

Asian Journal of Applied Sciences now accepting new submissions. Submit your best paper via online submission system.
  Editor-in-Chief:  Gagan Deep Sharma
 
 
Jankowski, R. and H. Walukiewicz, 1997. Modeling of two-dimensional random fields. Probab. Eng. Mech., 12: 115-121.
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Jankowski, R. and H. Walukiewicz, 2006. Conditional simulation of spatiotemporal random fields of environmental contamination. TASK Quarterly, 10: 21-26.
Jankowski, R. and K. Wilde, 2000. A simple method of conditional random field simulation of ground motions for long structures. Engin. Structures, 22: 552-561.
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Jankowski, R., 2005. Impact force spectrum for damage assessment of earthquake-induced structural pounding. Key Eng. Mater., 293-294: 711-718.
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Jankowski, R., 2005. Nonlinear viscoelastic modelling of earthquake-induced structural pounding. Earthq. Eng. Struct. Dyn., 34: 595-611.
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Jankowski, R., 2006. Analytical expression between the impact damping ratio and the coefficient of restitution in the nonlinear viscoelastic model of structural pounding. Earthq. Eng. Struct. Dyn., 35: 517-524.
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Jankowski, R., 2006. Pounding force response spectrum under earthquake excitation. Eng. Struct., 28: 1149-1161.
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Jankowski, R., 2008. Earthquake-induced pounding between equal height buildings with substantially different dynamic properties. Eng. Struct., 30: 2818-2829.
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Jankowski, R., 2003. Nonlinear rate dependent model of high damping rubber bearing. Bull. Earthquake Eng., 1: 397-403.
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Jankowski, R., 2006. Numerical simulations of space-time conditional random fields of ground motions. Comput. Sci., 3993: 56-59.
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Jankowski, R., 2007. Assessment of damage due to earthquake-induced pounding between the main building and the stairway tower. Key Engin. Mat., 347: 339-344.
Jankowski, R., 2007. Theoretical and experimental assessment of parameters for the non-linear viscoelastic model of structural pounding. J. Theoretical Applied Mechanics, 45: 931-942.
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Jankowski, R., 2008. Numerical simulation of threshold-crossing problem for random fields of environmental contamination. Proc. Int. Conf. Comput. Sci., 5102: 614-621.
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Jankowski, R., 2009. Non-linear FEM analysis of earthquake-induced pounding between the main building and the stairway tower of the Olive view hospital. Eng. Struct., 31: 1851-1864.
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Jankowski, R., 2010. Experimental study on earthquake-induced pounding between structural elements made of different building materials. Earthquake Eng. Struct. Dyn., 39: 343-354.
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Jankowski, R., 2010. Shaking table experimental study on diagnosis of damage and its evaluation in steel structure Key Engin. Mat. 417-418: 157-160.
Jankowski, R., K. Wilde and Y. Fujino, 1998. Pounding of superstructure segments in isolated elevated bridge during earthquakes. Earthquake Engin. Structural Dynamics, 27: 487-502.
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Jankowski, R., K. Wilde and Y. Fujino, 2000. Reduction of pounding effects in elevated bridges during earthquakes. Earthquake Engin. Structural Dynamics, 29: 195-212.
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Jankowski, R., M. Kujawa and C. Szymczak, 2004. Reduction of steel chimney vibrations with a pendulum damper. TASK Quarterly, 8: 71-78.
Jankowski, T. and R. Jankowski, 2006. On integro-differential equations with delayed arguments. Dynamics of continuous. Discrete Impulsive Syst., 13: 101-115.
Jankowski, T. and R. Jankowski, 2010. Boundary value problems with advanced arguments involving upper and lower solutions in reverse order. Dynamic Syst. Applic., 19: 577-584.
Jankowski, T. and R. Jankowski, 2010. Multiple solutions of boundary-value problems for fourth-order differential equations with deviating arguments. J. Optimizat. Theory Applic., 146: 105-115.
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Mahmoud, S. and R. Jankowski, 2009. Elastic and inelastic multi-storey buildings under earthquake excitation with the effect of pounding. J. Applied Sci., 9: 3250-3262.
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Mahmoud, S. and R. Jankowski, 2010. Pounding-involved response of isolated and non-isolated buildings under earthquake excitation. Earthquakes Struct., 1: 231-252.
Mahmoud, S. and R. Jankowski, 2011. Linear viscoelastic modelling of damage-involved structural pounding during earthquakes. Key Engin. Mat., 452-453: 357-360.
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Mahmoud, S. and R. Jankowski, 2011. Modified linear viscoelastic model of earthquake-induced structural pounding. Iran. J. Sci. Technol. Trans. B: Engin., 35: 51-62.
Mahmoud, S., X. Chen and R. Jankowski, 2008. Structural pounding models with Hertz spring and nonlinear damper. J. Applied Sci., 8: 1850-1858.
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