Pramod Kumar Malik
Assistant Professor (II)
Dr. Pramod Kumar Malik is currently working as an Assistant Professor in School of Mechanical Engineering of KIIT Deemed to be University. He completed his B. Tech. in the Mechanical Engineering Department in VSSUT Burla in 2009. He completed his MS in Mechanical Engineering Department in Indian Institute of Science Bangalore in 2012. He Completed his Ph. D. in Mechanical Engineering Department in Indian Institute of Technology Bombay in 2021. His research area is Robotics, Kinematics and Dynamics of Machines, Tensegrity Mechanism, Mechanism Synthesis, Assistive Devices, Biomechanics, Deployable Structures and Vibration
Profile Links
Scopus Id :
https://www.scopus.com/authid/detail.uri?authorId=57203990111
Google Scholar :
https://scholar.google.com/citations?user=e1XcdMgAAAAJ&hl=en
Social Links
B.Tech, MS, PhD.
Research Interests
Robotics, Kinematics and Dynamics of Machines, Tensegrity Mechanism, Mechanism Synthesis, Assistive Devices, Deployable Structures, Bio-Mechanisms, Vibration
Memberships
Member of Art of Giving
1. Malik, P. K., Guha, A., & Seshu, P. (2022). Topology identification for super-stable tensegrity structure from a given number of nodes in two-dimensional space. Mechanics Research Communications, 119, 103810.
2. Malik, P. K., Patra, K., & Guha, A. (2022). Feasibility of Tensegrity-Based Walking Robot. In Machines, Mechanism and Robotics: Proceedings of iNaCoMM 2019 (pp. 819-826). Springer Singapore.
3. Malik, P. K., Agrawal, C., Guha, A., & Seshu, P. (2022). Investigation of Multiple Stable States of Tensegrity Structure. In Machines, Mechanism and Robotics: Proceedings of iNaCoMM 2019 (pp. 353-359). Springer Singapore.
4. Malik, P. K., Patra, K., & Guha, A. (2021). Sensitivity Analysis of Cable Actuations for Moving a Tensegrity Mechanism Along a Specified Path. In ROMANSY 23-Robot Design, Dynamics and Control: Proceedings of the 23rd CISM IFToMM Symposium 23 (pp. 230-237). Springer International Publishing.
5. Malik, P. K., Guha, A., & Seshu, P. (2019). Determination of Member Lengths for Building a Regular Tensegrity Structure: An Analytical Study. In Advances in Mechanism and Machine Science: Proceedings of the 15th IFToMM World Congress on Mechanism and Machine Science 15 (pp. 1335-1344). Springer International Publishing.
6. Malik, P. K., Samal, P. K., & Swain, A. R. Jacobian Based Kinematic and Static Analysis of Over-Constrained Mechanisms with Prismatic and Revolute Joints.
7. Samal, P. K., Malik, P. K., Babu, A., & Shanthakumar, G. C. (2014). Fabrication and Experimentation of a Cantilever Beam Based Piezoelectric Actuator and Sensor for Vibration Energy Harvesting. Applied Mechanics and Materials, 592, 2297-2302.
8. Malik, P. K., Samal, P. K., & Swain, A. R. (2013) Jacobian Based Kinematic and Static Analysis of Over-Constrained Mechanisms with Prismatic and Revolute Joints.