|Asst Prof Domenico Campolo|
Division of Mechatronics and Design
School of Mechanical & Aerospace Engineering
College of Engineering
Phone: (+65)6790 5610
- PhD (Microengineering) Scuola Superiore Sant' Anna, Pisa 2002
- Diploma Degree Scuola Superiore Sant' Anna, Pisa 1999
- Laurea Degree University of Pisa 1998
|Domenico CAMPOLO is currently Assistant Professor at the School of Mechanical and Aerospace Engineering, Nanyang Technological University in Singapore. |
He received his Laurea Degree from the University of Pisa in 1998 and the Diploma Degree in Engineering from Scuola Superiore Sant'Anna in 1999. In 2002, he earned his PhD in Micro-Engineering from Scuola Superiore Sant'Anna, Pisa, while working at MiTech Lab (currently, the CRIM Lab).
During the Fall 1998 he was working at the EECS Dept. of ZheJiang University, HangZhou, P.R. China as a visiting graduate student. In the period 2000-2003, he was at UC-Berkeley (USA) as a Visiting Scholar and, after 2002, as a post-doc working on the MFI (Micromechanical Flying Insect) project.
He is co-author of more than 35 peer-reviewed papers on international journals and conference proceedings. He has served as reviewer of top international journals and conferences in the general fields of Robotics and Mechatronics. He is Member of the IEEE Robotics and Automation Society (RAS), the IEEE Engineering
in Medicine and Biology Society (EMBS), of the Society for Neuroscience (SfN) and of the Italian National Group of Bioengineering (GNB).
|His research interests include mechatronic technologies with application to the new emerging fields of Phenomics and Neuro-Developmental Engineering, in both animal and human models; biomimetic microrobotics, including: design, fabrication, development and control of biologically inspired smart actuators and sensors.|
|Research Grant |
- Academic Research Fund Tier 1 (2010-) [by MOE]
- Academic Research Fund Tier 1 (2012-) [by MOE]
- MINDEF-NTU Joint Applied R&D Co-operation Programme (JPP) (2010-) [by Defence Research and Technology Office (DRTech)]
- NTU Internal Funding - College of Engineering (2011-) [by Nanyang Technological University]
- NTU-NHG Innovation Seed Grant (2011-) [by Nanyang Technological University, National Health Group (NHG)]
- Sport & Fashion Management Pte Ltd - NTU (2013-) [by Sport & Fashion Management Pte Ltd]
|Current Projects |
- A Novel Approach To Drive Flapping-Wings via DC Motors, directly from an alternating motion of the motor, exploiting resonance between the wing and a torsional elastic structure
- Assessing muscle-tone during activities of daily living via a wearable upper limb robot integrating motion tracking, torque sensing and electromyography
- Consulting Study to Structure and Implement an R&D Team in Singapore/ISR to Start With Key Product Innovation Projects
- Mechatronic platforms for quantitative characterization of neural synergies behind the control of the human wrist
- Motor synergies of the human wrist : assessing flexibility and adaptability during visuomotor tasks and under the influence of external force-fields
- Robot assisted social skills therapy in Autism Spectrum Disorders
- Towards a New Generation of Wearable Medical Devices: Cognition, Ergonomics and Design
- D. Campolo, G. Barbera, L. Schenato, L. Pi, X. Deng, E. Guglielmelli. (2009). Attitude Stabilization of a Biologically Inspired Robotic House via Dynamic Multimodal Attitude Estimation. Advanced Robotics, .
- D. Campolo, L. Schenato, L. Pi, X. Deng, E. Guglielmelli. (2009). Attitude Estimation of a Biologically Inspired Robotic Housefly via Multimodal Sensor Fusion. Advanced Robotics, 23, 955-977.
- D. Accoto, R. Sahai, F. Damiani, D. Campolo, P. Dario, E. Guglielmelli. (2009). A Slip Sensor for Biorobotic Applications using a Hot Wire Anemometry Approach. Sensors & Actuators: A. Physical, .
- D. Campolo, D. Accoto, D. Formica, E. Guglielmelli. (2009). Intrinsic Constraints of Neural Origin: Assessment and Application to Rehabilitation Robotics. IEEE Transactions on Robotics, 25(3), 492-501.
- G. Cavallo, D. Campolo, F. Keller, E. Guglielmelli. (2008). A modular platform for in-plane Ground Reaction Forces detection in mouse model: design, development and verification. Advanced Robotics, 22(1), 141-157.