Aparna Dey Ghosh

1 Angshuman Adhikary, Tanmoy Konar, Aparna Dey Ghosh, Site-Specific Aseismic Design of Multi-Storeyed Buildings Using Optimum Tuned Mass Damper Inerter, In press, Journal of Earthquake Engineering, 2023

2 Aparna (Dey) Ghosh, Tanmoy Konar, Popular passive dampers for structural control: A review, 50, 24-38, Journal of Structural Engineering (Madras), 2023

3 Anupam Das, Tanmoy Konar, Aparna Ghosh, and Damodar Maity, Dynamics of a submerged compound pendulum, In press, 2471003, International Journal of Structural Stability and Dynamics, 2023

4 Sandip Mondal, Aparna (Dey) Ghosh, Biomineralization, bacterial selection and properties of microbial concrete: A review, 73, 106695, Journal of Building Engineering, 2023

5 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 6 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 7 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

8 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

9 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 10 Nilarghya Sarkar, Aparna (Dey) Ghosh, Control of extreme wave-induced vibration of offshore jacket platform using deck isolation, Ships and Offshore Structures, 2022 11 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

12 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

13 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

14 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

15 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

16 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

17 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

18 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

19 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

20 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 21 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 22 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

23 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

24 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 25 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 26 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

27 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

28 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

29 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

30 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 31 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 32 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 33 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

34 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

35 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

36 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

37 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

38 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 39 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

40 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

41 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

42 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

43 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

44 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

45 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

46 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

47 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

48 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

49 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

50 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

51 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

52 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

53 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

54 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

55 Ghosh, A., and Basu, B, Seismic vibration control of short period structures using the liquid column damper, 26, 1905-1913, Engineering Structures (Elsevier), 2004

56 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

57 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