Peer Reviewed Journal Papers
Ebrahimi, M., Hojat Jalali, H., and Sabatino, S. (2023). Probabilistic condition assessment of reinforced concrete sanitary sewer pipelines using LiDAR inspection data. Automation in Construction; 150: 104857
Hojat Jalali, H., Farzam, M. F., Gavgani, S. A. M., and Bekdas, G. (2023). Semi-active control of buildings using different control algorithms considering SSI. Journal of Building Engieering, 67: 105956
Abuhishmeh, K., and Hojat Jalali, H. (2023). Reliability Assessment of Reinforced Concrete Sewer Pipes under Adverse Environmental Conditions: Case Study for the City of Arlington, Texas. Journal of Pipeline Systems Engineering and Practice; 14(2): 05023001.
Daradkeh, A. M., Hojat Jalali, H., Seylabi, E. (2022). Mitigation of Seismic Waves Using Graded Broadband Metamaterials. Journal of Applied Physics; 132(5): 054902. https://doi.org/10.1063/5.0089242
Hojat Jalali, H., and Farzam, M. F. (2022). Inerter-connected Double Tuned Mass Damper for Passive Control of Buildings Under Seismic Excitation. Periodica Polytechnica Civil Engineering, 66(2): 421-432.
Gavgani, S. A. M., Hojat Jalali, H., Fahimi Farzam (2021) Semi-Active Control of Jacket Platforms under Wave Loads Considering Fluid-Structure Interaction. Accepted for publication, Applied Ocean Research, October 2021.
Emami Saleh, A., Hojat Jalali, H., Pokharel A. Abolmaali, A. (2021) Deformation of Buried Large Diameter Steel Pipes during Staged Construction and Compaction-Case Study and Finite Element Analysis. Transportation Geotechnics, 31https://doi.org/10.1016/j.trgeo.2021.100649 .
Dezfooli, M.S., Hojat Jalali, H., Razavi, M., Abolmaali, A. (2021). Development of Design Equations for Large Diameter Steel Pipes Inspired by the Modified Iowa Equation, ASCE International Journal of Geomechanics, 21(9): 04021160.
Pokharel A., Hojat Jalali, H., Emami Saleh, A., Abolmaali, A. (2020). Behavior of a Buried Wye Fitting under Hydrostatic Test with and without Crotch Plate Reinforcement-Case Study and Finite Element Analysis, Engineering Failure Analysis, 105078.
Kaveh, A., Fahimi Farzam, M., Hojat Jalali, H.,Maroofiazar, R. (2020). Robust optimum design of a tuned mass damper inerter, Acta Mech (2020), https://doi.org/10.1007/s00707-020-02720-9.
Kaveh, A., Fahimi Farzam, M., Hojat Jalali, H. (2020). Statistical Performance Assessment of Tuned Mass Damper Inerter under Far-Fault Earthquake Ground Motions Structural Control and Health Monitoring, https://doi.org/10.1002/stc.2602
Cao, S., Hojat Jalali, H., Dragomirescu, E. (2018) Wind-Induced Response of Inclined and Yawed Ice-accreted Stay-Cables models, Shock and Vibration Volume 2018, Article ID 6853047, 12 pageshttps://doi.org/10.1155/2018/6853047.
Rofooei, F. R., Attari, Nader K. A., Hojat Jalali, H. (2018). New Method of Modeling the Behavior of Buried Steel Distribution Pipes Subjected to Reverse Faulting, ASCE Journal of Pipeline Systems Engineering and Practice; 9(1): 04017029.
Hojat Jalali, H., Rofooei, F. R., Attari, Nader K. A. (2017). Performance of Buried Gas Distribution Pipelines Subjected to Reverse Fault Movement, Journal of Earthquake Engineering;22(6): 1068-1091.
Hojat Jalali, H., Rofooei, F. R., Attari, Nader K. A., Samadian, M. (2016). Experimental and Finite Element Study of Reverse Faulting Effects on Buried Continuous Steel Gas Pipelines, Soil Dynamics and Earthquake Engineering; 86: 1-14.
Rofooei, F. R., Hojat Jalali, H., Attari, Nader K. A., Kenarangi, H., Samadian, M. (2015). Parametric Study of Buried Gas Pipelines due to Oblique-Reverse Faulting, Canadian Journal of Civil Engineering; 42(3):178-189.
Attari, Nader K. A., Deljavan Anvari, M. R., Hojat Jalali, H., Momeni, M. (2015). Seismic response of buried pipelines subjected to normal faulting, Tarbiat Modarres Journal of Civil Engineering, 16(1): 35-44 (In Persian).
Hojat Jalali, H., Maleki, S. (2015). Nonlinear Behavior of Concrete End Diaphragms in Straight Slab-Girder Bridges, Scientia Iranica A;22(3): 604-614.
Peer Reviewed Conference Papers
Ebrahimi, M., and Hojat Jalali, H. (2022). Spatial Variability Effects of Wall Erosion on Assessment of Reinforced Concrete Sanitary Sewer Pipes (RCSSPs). Tran-SET 2022, 330-338.
Gibson, R., Hojat Jalali, H., Johnson, J., Bartels, P., Gehrig, J. (2020). Design of Large Diameter Steel Pipe Tees and Wyes, UESI/ASCE Pipeline Conference, San Antonio, TX.
Attari, Nader K. A., Deljavan Anvari, M. R., Hojat Jalali, H., Momeni, M. (2014). Finite Element Investigation of Normal Faulting Effects on Buried Steel Pipelines, The 5th Asia Conference on Earthquake Engineering, Taipei, Taiwan, Paper ID: 5ACEE-00107.
Rofooei, F. R., Hojat Jalali, H., Attari, Nader K. A., Alavi, M. (2012). Full-Scale Laboratory Testing of Buried Pipelines Subjected to Permanent Ground Displacement Caused by Reverse Faulting, 15th World Conference on Earthquake Engineering, Lisbon, Portugal, Paper No. 4381.
Rofooei, F. R., Hojat Jalali, H., Attari, Nader K. A., Samadian, M. (2012). Assessment of the Behavior of Buried Gas Pipelines Subjected to Reverse Faulting, Iran-U.S. Joint Seismic Workshop: Urban Earthquake Engineering, Tehran, Iran.
Maleki, S., Hojat Jalali, H. (2012). Seismic Behavior of Concrete End Diaphragms in Straight Slab-Girder Bridges, Proceedings of The First Australasia and South-East Asia Conference in Structural Engineering and Construction (ASEA-SEC-1), Perth, Australia, Paper No. St-38-0122.
Books, Book Chapters, and Reports
Farzam M.F., Hojat Jalali H., Gavgani S.A.M., Kayabekir A.E., Bekdaş G. (2021) Current Trends in the Optimization Approaches for Optimal Structural Control. In: Nigdeli S.M., Bekdaş G., Kayabekir A.E., Yucel M. (eds) Advances in Structural Engineering—Optimization. Studies in Systems, Decision and Control, vol 326. Springer, Cham. https://doi.org/10.1007/978-3-030-61848-3_5
Instruction of Seismic Evaluation and Rehabilitation of Non-Structural Equipment (2012), Road Housing and Urban Development Research Center, BHRC PN. S-628. ISBN: 978-600-5392-22-7, 2012, Member of Technical Committee (In Persian).
Manual for Structural Damping Systems in Design and Retrofitting of Buildings, Islamic Republic of Iran, Plan and Budget Organization, Code No. 766, Member of Technical Committee, 2018 (In Persian).