Biomedical Engineering Research Group (GIIB)

  • Ecuador

Organization profile

Organization profile

The GIIB has designed a new model for the development of prototypes to support the analysis of movement and study of the human gait, as well as development of prototypes of prostheses which has been implemented in people who have lost their limb. the same way, it is planned to carry out research practices in related topics. with the analysis of electromyographic signals. Electrocardiographs and electro encephalographs. for the determination of pathologies, based on the theory of learning significant number of doctors related to the subjects that belong to the different
hospitals of the city among them we have contact with the Hospital del Rio and the Hospital Vicente Corral Moscoso .
Also, it is important to emphasize that the GIJB is characterized for being formed by a multidisciplinary team that includes professionals of the areas of electronics, mechanics, computer science and teachers of the area of Physical Culture of the UPS. Another important strength of the GIIB is that it has state of the art equipment where students and professionals can adequately develop their activities, since
can always count on the accompaniment of the members of the group. The group has also established important research links with other institutions. university students.


Organization profile

The Research Group in Biomedical Engineering GIIB - UPS arises from the initiative of a group of UPS professors whose research area is Biomedical Engineering. The intention is to develop an applied research that raises solutions to the problems of Ecuadorian and international society, within the framework of biomedical engineering. As the first research group in the area of bioengineering in Ecuador, has the commitment to motivate with this experience the birth of similar initiatives in the country.

Fingerprint Dive into the research topics where Biomedical Engineering Research Group (GIIB) is active. These topic labels come from the works of this organization's members. Together they form a unique fingerprint.

Electromyography Engineering & Materials Science
Patient rehabilitation Engineering & Materials Science
Electroencephalography Engineering & Materials Science
Robotics Engineering & Materials Science
Muscle Engineering & Materials Science
Biomedical engineering Engineering & Materials Science
Optical feedback Engineering & Materials Science
Electrodes Engineering & Materials Science

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Projects 2015 2018

Research Output 2012 2019

expert systems
Application programs
Mobile robots
Expert systems

Computational Feedback Tool for Muscular Rehabilitation Based in Quantitative Analysis of sEMG Signals

Quizhpe-Cárdenas, C., Ortiz-Ortiz, F., Bueno-Palomeque, F. & Cabrera, M. V. V., 1 Jan 2019, Computational Feedback Tool for Muscular Rehabilitation Based in Quantitative Analysis of sEMG Signals. Karwowski, W. & Goonetilleke, R. S. (eds.). p. 94-101 8 p. (Advances in Intelligent Systems and Computing; vol. 789).

Research output: Chapter in Book/Report/Conference proceedingChapter

Patient rehabilitation
Chemical analysis
Wavelet transforms

Design and kinematic analysis of a biphalange articulated finger mechanism for a biomechatronic hand prosthesis

Calle-Siguencia, J. I., Encalada-Seminario, G. A. & Pinto-Leon, R. A., 5 Mar 2019, 2018 IEEE International Autumn Meeting on Power, Electronics and Computing, ROPEC 2018. Institute of Electrical and Electronics Engineers Inc., 8661357. (2018 IEEE International Autumn Meeting on Power, Electronics and Computing, ROPEC 2018).

Research output: Chapter in Book/Report/Conference proceedingChapter

Computer aided design
Prostheses and Implants