| # | List of Publication by Prof. Aparna Dey Ghosh |
|---|---|
| 1 | Nilarghya Sarkar, Tanmoy Konar, Aparna Dey Ghosh, Passive vibration control techniques for offshore structures under different environmental loading: A review, 320, 120296, Ocean Engineering, 2025 |
| 2 | Angshuman Adhikary, Tanmoy Konar, Aparna Dey Ghosh, Site-Specific Aseismic Design of Multi-Storeyed Buildings Using Optimum Tuned Mass Damper Inerter, 28, 2490-2525, Journal of Earthquake Engineering, 2024 |
| 3 | Anupam Das, Tanmoy Konar, Aparna Ghosh, and Damodar Maity, Dynamics of a submerged compound pendulum, 24, 2471003, International Journal of Structural Stability and Dynamics, 2024 |
| 4 | Nilarghya Sarkar, Aparna Dey Ghosh, Application of conical spring to maintain tuning of mass damper for wave-induced vibration control of offshore jacket platform subjected to changes in natural frequency, 312, 119352, Ocean Engineering, 2024 |
| 5 | Suman Paul, Aparna Dey Ghosh, Biswajit Basu, A computationally efficient approach to estimate design wave force on seawalls under large amplitude irrotational waves, 311, 118745, Ocean Engineering, 2024 |
| 6 | Nilarghya Sarkar, Sanjukta Chakraborty, Aparna Ghosh, Wave-induced vibration control of Floating production storage and offloading systems by tuned mass damper inerter, 27, 1361-1376, Advances in Structural Engineering, 2024 |
| 7 | Tanmoy Konar, Aparna Dey Ghosh, Tuned mass damper inerter for seismic control of multi-story buildings: Ten years since inception, 63, 106459, Structures, 2024 |
| 8 | Tanmoy Konar, Anupam Das, Aparna Dey Ghosh, Near-Fault Earthquake-Induced Vibration Control of a Supertall Benchmark Building Using an Inerter-Assisted Compliant Liquid Damper, 10, 04024070, ASCE-ASME Journal of Risk and Uncertainty in Engineering Systems, Part A: Civil Engineering, 2024 |
| 9 | Nilarghya Sarkar, Aparna (Dey) Ghosh, Control of extreme wave-induced vibration of offshore jacket platform using deck isolation, 18, 1429-1437, Ships and Offshore Structures, 2023 |
| 10 | Tanmoy Konar, Aparna (Dey) Ghosh, A review on various configurations of the passive tuned liquid damper, 29, 1945-1980, Journal of Vibration and Control, 2023 |
| 11 | Aparna (Dey) Ghosh, Tanmoy Konar, Popular passive dampers for structural control: A review, 50, 24-38, Journal of Structural Engineering (Madras), 2023 |
| 12 | Achintya Kumar Roy, Tanmoy Konar and Aparna (Dey) Ghosh, Mitigation of Structural Vibrations Due to Pulse-Type-Near-Fault Earthquake by the Compliant Liquid Column Damper, 17, 2350004, Journal of Earthquake and Tsunami, 2023 |
| 13 | Nilarghya Sarkar, Aparna (Dey) Ghosh, A frequency domain study on deck isolation effectiveness in control of wave-induced vibration of offshore jacket platform, 270, 113682, Ocean Engineering, 2023 |
| 14 | Tanmoy Konar, Aparna (Dey) Ghosh, Development and design of a deep tank damper with submerged suspended plate, 26, 937-951, Advances in Structural Engineering, 2023 |
| 15 | Sandip Mondal, Aparna (Dey) Ghosh, Biomineralization, bacterial selection and properties of microbial concrete: A review, 73, 106695, Journal of Building Engineering, 2023 |
| 16 | Tanmoy Konar, Anupam Das, Aparna (Dey) Ghosh, Enhancing tunability of liquid storage tanks to function as deep tuned liquid dampers by use of a submerged stretched membrane, 29, e3109, Structural Control and Health Monitoring, 2022 |
| 17 | Sandip Mondal, Aparna Dey Ghosh, Response Surface Methodology-Based Optimization of Bacterial Cell Concentration for Microbial Concrete, 46, 1087-1102, Iranian Journal of Science and Technology, Transactions of Civil Engineering, 2022 |
| 18 | Sarranya Banerjee, Aparna (Dey) Ghosh, Vasant A Matsagar, Optimum design of nonlinear tuned mass damper for dynamic response control under earthquake and wind excitations, 29, e2960, Structural Control and Health Monitoring, 2022 |
| 19 | Tanmoy Konar, Aparna Dey Ghosh, Use of Deep Liquid-Containing Tanks as Dynamic Vibration Absorbers for Lateral Vibration Control of Structures: A Review, 46, 753–769, Iranian Journal of Science and Technology, Transactions of Civil Engineering, 2022 |
| 20 | Sarranya Banerjee, Aparna Dey Ghosh, Optimal Design of Tuned Mass Damper for Base-Excited Structures, 936, 012016, IOP Conference Series: Materials Science and Engineering, 2022 |
| 21 | Sanjukta Chakraborty, Aparna (Dey) Ghosh, Samit Ray-Chaudhuri, A novel tuned mass-conical spring system for passive vibration control of a variable mass structure, 28, 1565–1579, Journal of Vibration and Control, 2022 |
| 22 | Tanmoy Konar, Aparna (Dey) Ghosh, Adaptive Design of an Overhead Water Tank as Dynamic Vibration Absorber for Buildings by Use of a Stiffness-Varying Support Arrangement, 11, 827-843, Journal of Vibration Engineering & Technologies, 2022 |
| 23 | Tanmoy Konar, Aparna (Dey) Ghosh, Development of a novel tuned liquid damper with floating base for converting deep tanks into effective vibration control devices, 24, 401–407, Advances in Structural Engineering, 2021 |
| 24 | Tanmoy Konar, Aparna (Dey) Ghosh, Adaptation of a Deep Liquid-Containing Tank into an Effective Structural Vibration Control Device by a Submerged Cylindrical Pendulum Appendage, 21, 2150078, International Journal of Structural Stability and Dynamics, 2021 |
| 25 | Sandip Mondal, Pratyusa Das, Pallab Datta, Aparna (Dey) Ghosh, Deinococcus radiodurans: A novel bacterium for crack remediation of concrete with special applicability to low-temperature conditions, 108, 103523 (1-11), Cement and Concrete Composites, 2020 |
| 26 | Sandip Mondal, Aparna (Dey) Ghosh, Spore-forming Bacillus subtilis vis-à-vis non-spore-forming Deinococcus radiodurans, a novel bacterium for self-healing of concrete structures: A comparative study, 266, Construction and Building Materials, 2020 |
| 27 | Sarranya Banerjee, Aparna (Dey) Ghosh, Optimal design of nonlinear TMD with Bingham-type damping for base-excited structures, 5(4), 211-222, Journal of Structural Integrity and Maintenance, 2020 |
| 28 | Tanmoy Konar, Aparna (Dey) Ghosh, Flow Damping Devices in Tuned Liquid Damper for Structural Vibration Control: A Review, 28, 2195–2207, Archives of Computational Methods in Engineering, 2020 |
| 29 | Roy, Anuja, Zhang, Zili, Ghosh, Aparna (Dey) and Basu, Biswajit., On the nonlinear performance of tuned sloshing damper under small amplitude excitation., Journal of Vibration and Control (SAGE), 2019 |
| 30 | Mondal, Sandip, and Ghosh, Aparna (Dey), Review on microbial induced calcite precipitation mechanisms leading to bacterial selection for microbial concrete., 225, 67-75, Construction and Building Materials (Elsevier), 2019 |
| 31 | Mondal, Sandip,andGhosh, Aparna (Dey), Investigation into the optimal bacterial concentration for compressive strength enhancement of microbial concrete, 183, 202-214, Construction and Building Materials, 2018 |
| 32 | Dziedziech, K., Iwaniec, J., Ghosh, A., Basu, B, Staszewski, W. J and Uhl, T., Analysis of tuned liquid column damper nonlinearities., 171(1), 1027-1033, Engineering Structures (Elsevier), 2018 |
| 33 | Bhattacharyya, Soumi, Ghosh, Aparna (Dey) and Basu, Biswajit., Design of an active compliant liquid column damper by LQR and wavelet linear quadratic regulator control strategies., 24(12), 1-23, Structural Control Health Monitoring (Wiley), 2018 |
| 34 | Bandopadhyay, Ritwik, Soumyabrata, Maiti, Ghosh, Aparna (Dey) and Chatterjee, Anindya., Overhead water tank shapes with depth-independent sloshing frequencies for use as TLDs in buildings., 25(1), 1-13, Structural Control and Health Monitoring (Wiley), 2018 |
| 35 | Bhattacharyya, Soumi, Ghosh, Aparna (Dey) and Basu, Biswajit., Performance of compliant liquid column damper for seismically excited structures, 44(3), 228-235, Journal of Structural Engineering (CSIR-SERC), 2017 |
| 36 | Bhattacharyya, Soumi, Ghosh, Aparna (Dey) and Basu, Biswajit., Nonlinear Modeling and Validation of Air Spring Effects in a Sealed Tuned Liquid Column Damper for Structural Control, 410, 269-286, Journal of Sound and Vibration, 2017 |
| 37 | Dziedziech, K., Staszewski, W. J., Ghosh, A., Basu, B. and Uhl, T., Characterisation of instantaneous dynamic parameters invibration analysis of tuned liquid column dampers, 90, 717–731, Nonlinear Dynamics, 2017 |
| 38 | Bhattacharyya, Soumi, Ghosh, Aparna (Dey) and Basu, Biswajit, Experimental investigations into CLCD with identification of damping effects, 143(9), Journal of Structural Engineering (ASCE), 2017 |
| 39 | Mondal, Papiya D., Ghosh, Aparna D. and Chakraborty, Subrata, Control of underground blast Induced building vibration by shape-memory-alloy rubber bearing (SMARB), 24(10), 1-12, Structural Control and Health Monitoring (Wiley), 2017 |
| 40 | Mondal, Papiya D., Ghosh, Aparna D. and Chakraborty, Subrata, Performances of various base isolation systems in mitigation of structural vibration due to underground blast induced ground motion, 17(4), 1-23, International Journal of Structural Stability and Dynamics (World Scientific), 2017 |
| 41 | Roy, A. K. and Ghosh, A. (Dey), A study on the design parameters of the compliant LCD for structural vibration control under near fault earthquakes, 43(1), 10-19, Journal of Structural Engineering (CSIR-SERC), 2016 |
| 42 | Dziedziech, K., Staszewski, W.J., Uhl, T., Ghosh, A.and Basu, B, Non-linear damping identification in tuned liquid column dampers, Insights and Innovations in Structural Engineering Mechanics and Computation – Zingoni (Ed.) (Taylor and Francis), 2016 |
| 43 | Roy, Anuja, Ghosh, Aparna Dey and Chatterjee, Shyamal, Influence of Tuning of passive TLD on the seismic vibration control of elevated water tanks under various tank-full conditions, 24(6), 1-16, Structural Control and Health Monitoring (Wiley), 2016 |
| 44 | Gangopadhyay,Avijit and Ghosh, Aparna (Dey), Seismic retrofitting of an existing steel railway bridge by fluid viscous dampers, 97(3), 291-297, Journal of The Institution of Engineers (India): Series A, 2016 |
| 45 | Roy, A., Staino A., Ghosh, A.(D.), Basu B. and Chatterjee, S., Seismic Vibration Control of Elevated Water Tank by TLD and Validation of Full-Scale TLD Model through Real-Time-Hybrid-Testing., 744(1), 1-11, Journal of Physics: Conference Series (IOP Science), 2016 |
| 46 | Mondal, P. D., Ghosh, A. (Dey), and Chakrabarty, S., Fluid viscous damper in mitigation of structural vibration effect due to underground blast., 8 (4), 273-290, Int. J. Materials and Structural Integrity (Inderscience Enterprises Ltd.), 2014 |
| 47 | Mondal, P. D., Ghosh, A. (Dey), and Chakrabarty, S., Control of underground blast induced vibration of structures using fluid viscous damper, 2 (1), 27-33, Journal of Vibration Engineering and Technologies (Springer), 2014 |
| 48 | Mondal, P. D., Ghosh, A. (Dey), and Chakrabarty, S., Performance of N-Z system in mitigation of underground blast induced vibration of structures., 20 (13), 2019-2031, Journal of Vibration and Control (SAGE), 2014 |
| 49 | Konar, T. and Ghosh (Dey), A., Bimodal vibration control of seismically excited structures by the liquid column vibration absorber., 19(3), 385-394, Journal of Vibration and Control (SAGE), 2013 |
| 50 | Ghosh, A. (D.), Bhattacharyya, S. and Roy, A., On the seismic performance of elevated water tanks and their control using TLDs., 569-570, 270-277, Key Engineering Materials (Trans Tech Publications), 2013 |
| 51 | Konar, T. and Ghosh (Dey), A., Passive control of seismically excited structures by the liquid column vibration absorber., 36 (5), 561 -573, Structural Engineering and Mechanics, An International Journal (Techno Press), 2010 |
| 52 | Ghosh, R. and Ghosh (Dey), A., Passive control of seismic response of soil-structure system by the compliant liquid column damper., 3(4), 332-352., Int. J. Materials and Structural Integrity (Inderscience Enterprises Ltd.), 2009 |
| 53 | Ghosh, A., and Basu, B., Seismic vibration control of nonlinear structures using the liquid column damper., 134(1), 146-153, Journal of Structural Engineering (ASCE), 2008 |
| 54 | Ghosh, R. K., and Ghosh (Dey), A., Soil interaction effects on the performance of compliant liquid column damper for seismic vibration control of short period structures., 28(1), 89-106, Structural Engineering and Mechanics, An International Journal (Techno Press), 2008 |
| 55 | Murtagh, P. J., Ghosh, A., Basu, B., and Broderick, B. M., Passive control of wind turbine vibrations including blade/tower interaction and rotationally sampled turbulence., 11(4), 305 - 317, Journal of Wind Energy (John Wiley & Sons, Ltd.), 2008 |
| 56 | Ghosh, A., and Basu, B, Alternative approach to optimal tuning parameter of liquid column damper for seismic applications, 133(12), 1848-1852, Journal of Structural Engineering (ASCE), 2007 |
| 57 | Ghosh, A., and Basu, B., A closed form optimal tuning criterion for TMD in damped structures, 14, 681-692, Structural Control Health Monitoring (John Wiley & Sons, Ltd.), 2007 |
| 58 | Ghosh, A., and Basu, B, Effect of soil interaction on the performance of the liquid column damper for seismic applications, 34, 1375-1389, Earthquake Engineering and Structural Dynamics (John Wiley & Sons, Ltd.), 2005 |
| 59 | Ghosh, A., and Basu, B, Seismic vibration control of short period structures using the liquid column damper, 26, 1905-1913, Engineering Structures (Elsevier), 2004 |
| 60 | Ghosh, A., and Basu, B, Effect of soil interaction on the performance of tuned mass dampers for seismic applications, 274, 1079-1090, Journal of Sound and Vibration (Elsevier), 2004 |
| 61 | Ghosh, A., and Basu, B, Equivalent viscous damping of a liquid column damper., 3(4), 312-319, Advances in Vibration Engineering (The Vibration Institute of India.), 2004 |
| 62 | Dey, A., and Gupta, V. K., Stochastic seismic response of multiply supported secondary systems in flexible - base structures, 28, 357-369, Earthquake Engineering and Structural Dynamics (John Wiley & Sons, Ltd.), 1999 |
| 63 | Dey, A., and Gupta, V. K, Response of multiply supported secondary systems to earthquakes in frequency domain, 27, 187-201, Earthquake Engineering and Structural Dynamics (John Wiley & Sons, Ltd.), 1998 |
Created: 23 November 2019