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Milton V. Rivera

ORCID: 0000-0003-3070-3260
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About
Contact & Profiles
A5030994846
Research Areas
  • Spaceflight effects on biology
  • Space Exploration and Technology
  • High Altitude and Hypoxia
  • Cerebral Palsy and Movement Disorders
  • Botulinum Toxin and Related Neurological Disorders
  • Soft Robotics and Applications
  • Engineering Technology and Methodologies
  • Stroke Rehabilitation and Recovery
  • Medical and Biological Ozone Research
  • Planetary Science and Exploration
  • Space Science and Extraterrestrial Life

Universidad Continental
 2024

Universidad Nacional del Altiplano
 2024

Universidad Ricardo Palma
 2024

Mars Society
 2020

 Biomechatronic Embedded System Design of Sensorized Glove with Soft Robotic Hand Exoskeleton Used for Rover Rescue Missions on Mars
OPENALEX - Publications 
Paul Palacios José Cornejo Milton V. Rivera Jose Luis Napan Walter Castillo and 5 more Victor Ticllacuri Andrés D. Reina Adolfo Chaves-Jiménez Gustavo Jamanca-Lino Juan C. Chávez

For many years, a manned mission to Mars has been challenge for humanity. However, the recent technological advances in human factors and space systems engineering may overcome these limitations. Thus, there are some strategies face various medical emergencies autonomously due long distances hostile conditions order develop healthcare monitoring ensuring safety of astronauts. this reason, an innovative research conducted from 2020 2021 under supervision Bioastronautics & Space Mechatronics...

10.1109/iemtronics52119.2021.9422634 article EN 2022 IEEE International IOT, Electronics and Mechatronics Conference (IEMTRONICS) 2021-04-21
 Medicina humana espacial: Performance fisiológico y contramedidas para mejorar la salud del astronauta
OPENALEX - Publications 
Milton V. Rivera José Cornejo Karen Huallpayunca Aurora B. Diaz Zhamanda N. Ortiz‐Benique and 3 more Andrés D. Reina Gustavo Jamanca-Lino Victor Ticllacuri

Se presenta este Artículo de Revisión con base en la evidencia científica actual sobre medicina espacial enfocada fisiología humana y sus contramedidas. Por lo cual se realizó una búsqueda bibliográfica no sistemática artículos científicos libros investigación inglés-español los últimos 7 años, que detallan su aplicación seres humanos, modelos murinos experimentos in vitro. tomaron cuenta las condiciones del ambiente como microgravedad radiación producen considerables cambios fisiológicos el...

10.25176/rfmh.v20i2.2920 article ES cc-by Revista de la Facultad de Medicina Humana 2020-03-27
 Design of T-EVA: Wearable Temperature Monitoring System for Upper Limbs during Extravehicular Activities on Mars
OPENALEX - Publications 
Paul Palacios Walter Castillo Milton V. Rivera José Cornejo

When astronauts explore the surface of Mars performing extravehicular activities, they will be exposed to extreme environmental conditions that may cause thermal homeostasis imbalance, loss sensitivity, peripheral cyanosis and heat exhaustion. For this reason, it is necessary for biomechatronic systems integrated into Spacesuit, so allow monitoring vital signs as in case body temperature. A research study was conducted from 2019 2020, under supervision guidance Space Medicine Biomechatronics...

10.1109/eircon51178.2020.9254027 article EN 2020-10-21
 Telecommunications and Electronic Systems Analysis of T-EVA to Enhance the Body Temperature Monitoring during Extravehicular Activities on Mars Analog
OPENALEX - Publications 
Paul Palacios José Cornejo Walter Castillo Milton V. Rivera Susana Tristan and 2 more Jinmi Lezama Juan C. Chávez

Due to the extreme environmental conditions on Mars, humans will be exposed thermal discomfort producing an imbalance of homeostasis that can affect general health and physical performance astronauts. Therefore, Bioastronautics Space Mechatronics Research Group conducted a study from 2019 2021, resulting in proposed project named T-EVA which is Medical Robot, defined as wearable embedded mechatronic system for continuous temperature monitoring upper limbs especially during extravehicular...

10.1109/urucon53396.2021.9647144 article EN 2021 IEEE URUCON 2021-11-24
 Bio-Mechatronics Development of Robotic Exoskeleton System With Mobile-Prismatic Joint Mechanism for Passive Hand Wearable-Rehabilitation
OPENALEX - Publications 
Mariela Vargas Javier Mayorga Bernabé Oscco Víctor Cuyotupac Adrian Nacarino and 15 more David Allcca L. Gamarra-Vásquez G. Tejada-Marroquin Michella Brescia Reátegui R. R. Maldonado-Gómez Yrene Vásquez Daniela Couto Carvalho Barra P. Tapia-Yanayaco Sandra Charapaqui Milton V. Rivera Ricardo Palomares M. Ramirez-Chipana Jorge Cornejo José Cornejo Jhony A. De La Cruz–Vargas

The World Health Organization (WHO) estimates that 15 million people are affected by stroke each year, causing deterioration of the upper limb, which is reflected in 70-80% them, decreasing performance daily activities and quality life, mainly affecting hand functions. Thus, purpose this study to present a high-quality alternative recover muscle tone mobility, consisting hand-exoskeleton for passive rehabilitation. It covers motion protocol finger pressure sensors give safety range during...

10.28991/esj-2024-08-06-02 article EN cc-by Emerging Science Journal 2024-12-01
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