Jorge Varona scite author profile

Jorge Varona

4Publications

48Citation Statements Received

64Citation Statements Given

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Affiliations

Panamerican University, Universidad Autónoma del Estado de México, McGill University

Publications

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Insights into the Capabilities of Tactile-Foot Perception

Velázquez

Bazan

Varona

et al. 2012

International Journal of Advanced Robotic Systems

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This paper presents a novel wearable interface for the foot: a shoe-integrated tactile display that enables users to obtain information through the sense of touch via their feet. A 16-point array of actuators stimulates the sole of the foot by inducing different vibration frequencies. A series of experiments were conducted with 20 sighted and 5 blind voluntary subjects to evaluate the role of tactile perception by the human foot and the tactile sensitivity of the plantar surface. Tests evaluated the perception of simple shapes, patterns and directional instructions. The results showed that some information is discriminable and that tactile-foot stimulation could be used for a wide number of applications in human-machine interaction. Furthermore, the results also suggested that the blind perform better in some key tasks and support the feasibility of footwear providing tactile feedback for situational awareness, mobility and the navigation assistance of the blind.

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Design of MEMS vertical–horizontal chevron thermal actuators

Varona

Tecpoyotl-Torres

Hamoui

2009

Sensors and Actuators A: Physical

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Active and Passive Haptic Perception of Shape: Passive Haptics Can Support Navigation

et al. 2019

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Real-time haptic interactions occur under two exploration modes: active and passive. In this paper, we present a series of experiments that evaluate the main perceptual characteristics of both exploration modes. In particular, we focus on haptic shape recognition as it represents a fundamental task in many applications using haptic environments. The results of four experiments conducted with a group of 10 voluntary subjects show that the differences in motor activity between active and passive haptics ease the perception of surfaces for the first case and the perception of pathways for the latter. In addition, the guidance nature of passive haptics makes the pathway direction easy to recognize. This work shows that this last observation could find application in more challenging tasks such as navigation in space.

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Design and fabrication of a novel microgripper based on electrostatic actuation

Varona

Saenz

Fiscal-Woodhouse³

et al. 2009

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Jorge Varona

Insights into the Capabilities of Tactile-Foot Perception

Design of MEMS vertical–horizontal chevron thermal actuators

Active and Passive Haptic Perception of Shape: Passive Haptics Can Support Navigation

Design and fabrication of a novel microgripper based on electrostatic actuation

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