Your search keyword '"Marina Vela Nunez"' showing total 2 results

1. A low-cost human locomotion speed recognition for augmented virtual environments exploration

Author

Marina Vela Nunez, Carlo Alberto Avizzano, Emanuele Ruffaldi, and Massimo Bergamasco

Subjects

Acceleration, Artificial neural network, Virtual machine, Computer science, Interface (computing), Kinesthetic learning, Augmented reality, computer.software_genre, Accelerometer, computer, Simulation, Session (web analytics), ComputingMethodologies_COMPUTERGRAPHICS

Abstract

This paper presents a novel and low-cost interface designed for real-time human locomotion speed recognition, which fits with the exploration of kinesthetic virtual environments (VE). According to the interface paradigm, the human locomotion recognition feeds VE navigation control. An experimental session has been organized in order to acquire acceleration data related to locomotion of 10 healthy subjects (men and women) aging between 23 and 35 years. A treadmill has been used to capture the velocity at which subjects were moving. Our system was designed to optimize classification performances in human locomotion speed recognition in real-time. The recognized human speed locomotion has been shown to enhance users' sensation of presence in the virtual environment. A simple scenario has been developed to assess the system functionality. The experiments carried out show that our system is excellent at classifying a wide range of human locomotion and can be used both in virtual and augmented reality (VR) environments for improved interaction.

Published

2011

2. Human Gait Recognition for Virtual Environments Exploration

Author

Emanuele Ruffaldi, Marina Vela Nunez, Carlo Alberto Avizzano, and Massimo Bergamasco

Subjects

SIMPLE (military communications protocol), Computer science, business.industry, Accelerometer, computer.software_genre, Gait, Motion (physics), Acceleration, Gait (human), Virtual machine, Computer vision, Augmented reality, Artificial intelligence, business, computer

Abstract

This paper presents a novel use of sensor sytem for human gait recognition evolution to be employed in virtual environments exploration. The system allows free human motion inside a virtual environment employing human gait recognition. Experimental sessions have been organized in order to acquire acceleration data related to walking and running of several subjects. We present an algorithm that recognizes a person gait in real-time. The recognized motion can be used to enhance the presence of the user in the virtual environment. A simple scenario has been developed to assess the system functionality. The experiments carried out show that our system is suitable to classify human motion, count steps and, moreover, can be used both in virtual and augmented reality (VR) environments for an improved interaction.

Published

2010