The Experts below are selected from a list of 83961 Experts worldwide ranked by ideXlab platform
Andrew D. Wilson - One of the best experts on this subject based on the ideXlab platform.
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a demonstration of haptic retargeting dynamic repurposing of passive Haptics for enhanced virtual reality experience
Human Factors in Computing Systems, 2016Co-Authors: Mahdi Azmandian, Eyal Ofek, Hrvoje Benko, Mark Hancock, Andrew D. WilsonAbstract:Manipulating a virtual object with appropriate passive haptic cues provides a satisfying sense of presence in virtual reality. However, scaling such experiences to support multiple virtual objects is a challenge as each one needs to be accompanied with a precisely-located haptic proxy object. We showcase a solution that overcomes this limitation by hacking human perception. Our framework for repurposing passive Haptics, called haptic retargeting, leverages the dominance of vision when our senses conflict. With haptic retargeting, a single physical prop can provide passive Haptics for multiple virtual objects. We introduce three approaches for dynamically aligning physical and virtual objects: body manipulation, world manipulation and a hybrid technique which combines both world and body manipulation. This demonstration accompanies our CHI 2016 paper.
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haptic retargeting video showcase dynamic repurposing of passive Haptics for enhanced virtual reality experience
Human Factors in Computing Systems, 2016Co-Authors: Mahdi Azmandian, Eyal Ofek, Hrvoje Benko, Mark Hancock, Andrew D. WilsonAbstract:Manipulating a virtual object with appropriate passive haptic cues provides a satisfying sense of presence in virtual reality. However, scaling such experiences to support multiple virtual objects is a challenge as each one needs to be accompanied with a precisely-located haptic proxy object. We showcase a solution that overcomes this limitation by hacking human perception. Our framework for repurposing passive Haptics, called haptic retargeting, leverages the dominance of vision when our senses conflict. With haptic retargeting, a single physical prop can provide passive Haptics for multiple virtual objects. We introduce three approaches for dynamically aligning physical and virtual objects: body manipulation, world manipulation and a hybrid technique which combines both world and body warping. This video accompanies our CHI paper.
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Haptic Retargeting: Dynamic Repurposing of Passive Haptics for Enhanced Virtual Reality Experiences
Proceedings of the 2016 CHI Conference on Human Factors in Computing Systems - CHI '16, 2016Co-Authors: Mahdi Azmandian, Eyal Ofek, Hrvoje Benko, Mark Hancock, Andrew D. WilsonAbstract:Manipulating a virtual object with appropriate passive haptic cues provides a satisfying sense of presence in virtual reality. However, scaling such experiences to support multiple virtual objects is a challenge as each one needs to be accompanied with a precisely-located haptic proxy object. We propose a solution that overcomes this limitation by hacking human perception. We have created a framework for repurposing passive Haptics, called haptic retargeting, that leverages the dominance of vision when our senses conflict. With haptic retargeting, a single physical prop can provide passive Haptics for multiple virtual objects. We introduce three approaches for dynamically aligning physical and virtual objects: world manipulation, body manipulation and a hybrid technique which combines both world and body manipulation. Our study results indicate that all our haptic retargeting techniques improve the sense of presence when compared to typical wand-based 3D control of virtual objects. Furthermore, our hybrid haptic retargeting achieved the highest satisfaction and presence scores while limiting the visible side-effects during interaction.
Mahdi Azmandian - One of the best experts on this subject based on the ideXlab platform.
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a demonstration of haptic retargeting dynamic repurposing of passive Haptics for enhanced virtual reality experience
Human Factors in Computing Systems, 2016Co-Authors: Mahdi Azmandian, Eyal Ofek, Hrvoje Benko, Mark Hancock, Andrew D. WilsonAbstract:Manipulating a virtual object with appropriate passive haptic cues provides a satisfying sense of presence in virtual reality. However, scaling such experiences to support multiple virtual objects is a challenge as each one needs to be accompanied with a precisely-located haptic proxy object. We showcase a solution that overcomes this limitation by hacking human perception. Our framework for repurposing passive Haptics, called haptic retargeting, leverages the dominance of vision when our senses conflict. With haptic retargeting, a single physical prop can provide passive Haptics for multiple virtual objects. We introduce three approaches for dynamically aligning physical and virtual objects: body manipulation, world manipulation and a hybrid technique which combines both world and body manipulation. This demonstration accompanies our CHI 2016 paper.
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haptic retargeting video showcase dynamic repurposing of passive Haptics for enhanced virtual reality experience
Human Factors in Computing Systems, 2016Co-Authors: Mahdi Azmandian, Eyal Ofek, Hrvoje Benko, Mark Hancock, Andrew D. WilsonAbstract:Manipulating a virtual object with appropriate passive haptic cues provides a satisfying sense of presence in virtual reality. However, scaling such experiences to support multiple virtual objects is a challenge as each one needs to be accompanied with a precisely-located haptic proxy object. We showcase a solution that overcomes this limitation by hacking human perception. Our framework for repurposing passive Haptics, called haptic retargeting, leverages the dominance of vision when our senses conflict. With haptic retargeting, a single physical prop can provide passive Haptics for multiple virtual objects. We introduce three approaches for dynamically aligning physical and virtual objects: body manipulation, world manipulation and a hybrid technique which combines both world and body warping. This video accompanies our CHI paper.
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Haptic Retargeting: Dynamic Repurposing of Passive Haptics for Enhanced Virtual Reality Experiences
Proceedings of the 2016 CHI Conference on Human Factors in Computing Systems - CHI '16, 2016Co-Authors: Mahdi Azmandian, Eyal Ofek, Hrvoje Benko, Mark Hancock, Andrew D. WilsonAbstract:Manipulating a virtual object with appropriate passive haptic cues provides a satisfying sense of presence in virtual reality. However, scaling such experiences to support multiple virtual objects is a challenge as each one needs to be accompanied with a precisely-located haptic proxy object. We propose a solution that overcomes this limitation by hacking human perception. We have created a framework for repurposing passive Haptics, called haptic retargeting, that leverages the dominance of vision when our senses conflict. With haptic retargeting, a single physical prop can provide passive Haptics for multiple virtual objects. We introduce three approaches for dynamically aligning physical and virtual objects: world manipulation, body manipulation and a hybrid technique which combines both world and body manipulation. Our study results indicate that all our haptic retargeting techniques improve the sense of presence when compared to typical wand-based 3D control of virtual objects. Furthermore, our hybrid haptic retargeting achieved the highest satisfaction and presence scores while limiting the visible side-effects during interaction.
Eyal Ofek - One of the best experts on this subject based on the ideXlab platform.
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The uncanny valley of Haptics
Science Robotics, 2018Co-Authors: Christopher C. Berger, Mar Gonzalez-franco, Eyal Ofek, Ken HinckleyAbstract:During teleoperation and virtual reality experiences, enhanced haptic feedback incongruent with other sensory cues can reduce subjective realism, producing an uncanny valley of Haptics.
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a demonstration of haptic retargeting dynamic repurposing of passive Haptics for enhanced virtual reality experience
Human Factors in Computing Systems, 2016Co-Authors: Mahdi Azmandian, Eyal Ofek, Hrvoje Benko, Mark Hancock, Andrew D. WilsonAbstract:Manipulating a virtual object with appropriate passive haptic cues provides a satisfying sense of presence in virtual reality. However, scaling such experiences to support multiple virtual objects is a challenge as each one needs to be accompanied with a precisely-located haptic proxy object. We showcase a solution that overcomes this limitation by hacking human perception. Our framework for repurposing passive Haptics, called haptic retargeting, leverages the dominance of vision when our senses conflict. With haptic retargeting, a single physical prop can provide passive Haptics for multiple virtual objects. We introduce three approaches for dynamically aligning physical and virtual objects: body manipulation, world manipulation and a hybrid technique which combines both world and body manipulation. This demonstration accompanies our CHI 2016 paper.
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haptic retargeting video showcase dynamic repurposing of passive Haptics for enhanced virtual reality experience
Human Factors in Computing Systems, 2016Co-Authors: Mahdi Azmandian, Eyal Ofek, Hrvoje Benko, Mark Hancock, Andrew D. WilsonAbstract:Manipulating a virtual object with appropriate passive haptic cues provides a satisfying sense of presence in virtual reality. However, scaling such experiences to support multiple virtual objects is a challenge as each one needs to be accompanied with a precisely-located haptic proxy object. We showcase a solution that overcomes this limitation by hacking human perception. Our framework for repurposing passive Haptics, called haptic retargeting, leverages the dominance of vision when our senses conflict. With haptic retargeting, a single physical prop can provide passive Haptics for multiple virtual objects. We introduce three approaches for dynamically aligning physical and virtual objects: body manipulation, world manipulation and a hybrid technique which combines both world and body warping. This video accompanies our CHI paper.
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Haptic Retargeting: Dynamic Repurposing of Passive Haptics for Enhanced Virtual Reality Experiences
Proceedings of the 2016 CHI Conference on Human Factors in Computing Systems - CHI '16, 2016Co-Authors: Mahdi Azmandian, Eyal Ofek, Hrvoje Benko, Mark Hancock, Andrew D. WilsonAbstract:Manipulating a virtual object with appropriate passive haptic cues provides a satisfying sense of presence in virtual reality. However, scaling such experiences to support multiple virtual objects is a challenge as each one needs to be accompanied with a precisely-located haptic proxy object. We propose a solution that overcomes this limitation by hacking human perception. We have created a framework for repurposing passive Haptics, called haptic retargeting, that leverages the dominance of vision when our senses conflict. With haptic retargeting, a single physical prop can provide passive Haptics for multiple virtual objects. We introduce three approaches for dynamically aligning physical and virtual objects: world manipulation, body manipulation and a hybrid technique which combines both world and body manipulation. Our study results indicate that all our haptic retargeting techniques improve the sense of presence when compared to typical wand-based 3D control of virtual objects. Furthermore, our hybrid haptic retargeting achieved the highest satisfaction and presence scores while limiting the visible side-effects during interaction.
Hrvoje Benko - One of the best experts on this subject based on the ideXlab platform.
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a demonstration of haptic retargeting dynamic repurposing of passive Haptics for enhanced virtual reality experience
Human Factors in Computing Systems, 2016Co-Authors: Mahdi Azmandian, Eyal Ofek, Hrvoje Benko, Mark Hancock, Andrew D. WilsonAbstract:Manipulating a virtual object with appropriate passive haptic cues provides a satisfying sense of presence in virtual reality. However, scaling such experiences to support multiple virtual objects is a challenge as each one needs to be accompanied with a precisely-located haptic proxy object. We showcase a solution that overcomes this limitation by hacking human perception. Our framework for repurposing passive Haptics, called haptic retargeting, leverages the dominance of vision when our senses conflict. With haptic retargeting, a single physical prop can provide passive Haptics for multiple virtual objects. We introduce three approaches for dynamically aligning physical and virtual objects: body manipulation, world manipulation and a hybrid technique which combines both world and body manipulation. This demonstration accompanies our CHI 2016 paper.
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haptic retargeting video showcase dynamic repurposing of passive Haptics for enhanced virtual reality experience
Human Factors in Computing Systems, 2016Co-Authors: Mahdi Azmandian, Eyal Ofek, Hrvoje Benko, Mark Hancock, Andrew D. WilsonAbstract:Manipulating a virtual object with appropriate passive haptic cues provides a satisfying sense of presence in virtual reality. However, scaling such experiences to support multiple virtual objects is a challenge as each one needs to be accompanied with a precisely-located haptic proxy object. We showcase a solution that overcomes this limitation by hacking human perception. Our framework for repurposing passive Haptics, called haptic retargeting, leverages the dominance of vision when our senses conflict. With haptic retargeting, a single physical prop can provide passive Haptics for multiple virtual objects. We introduce three approaches for dynamically aligning physical and virtual objects: body manipulation, world manipulation and a hybrid technique which combines both world and body warping. This video accompanies our CHI paper.
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Haptic Retargeting: Dynamic Repurposing of Passive Haptics for Enhanced Virtual Reality Experiences
Proceedings of the 2016 CHI Conference on Human Factors in Computing Systems - CHI '16, 2016Co-Authors: Mahdi Azmandian, Eyal Ofek, Hrvoje Benko, Mark Hancock, Andrew D. WilsonAbstract:Manipulating a virtual object with appropriate passive haptic cues provides a satisfying sense of presence in virtual reality. However, scaling such experiences to support multiple virtual objects is a challenge as each one needs to be accompanied with a precisely-located haptic proxy object. We propose a solution that overcomes this limitation by hacking human perception. We have created a framework for repurposing passive Haptics, called haptic retargeting, that leverages the dominance of vision when our senses conflict. With haptic retargeting, a single physical prop can provide passive Haptics for multiple virtual objects. We introduce three approaches for dynamically aligning physical and virtual objects: world manipulation, body manipulation and a hybrid technique which combines both world and body manipulation. Our study results indicate that all our haptic retargeting techniques improve the sense of presence when compared to typical wand-based 3D control of virtual objects. Furthermore, our hybrid haptic retargeting achieved the highest satisfaction and presence scores while limiting the visible side-effects during interaction.
Mark Hancock - One of the best experts on this subject based on the ideXlab platform.
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a demonstration of haptic retargeting dynamic repurposing of passive Haptics for enhanced virtual reality experience
Human Factors in Computing Systems, 2016Co-Authors: Mahdi Azmandian, Eyal Ofek, Hrvoje Benko, Mark Hancock, Andrew D. WilsonAbstract:Manipulating a virtual object with appropriate passive haptic cues provides a satisfying sense of presence in virtual reality. However, scaling such experiences to support multiple virtual objects is a challenge as each one needs to be accompanied with a precisely-located haptic proxy object. We showcase a solution that overcomes this limitation by hacking human perception. Our framework for repurposing passive Haptics, called haptic retargeting, leverages the dominance of vision when our senses conflict. With haptic retargeting, a single physical prop can provide passive Haptics for multiple virtual objects. We introduce three approaches for dynamically aligning physical and virtual objects: body manipulation, world manipulation and a hybrid technique which combines both world and body manipulation. This demonstration accompanies our CHI 2016 paper.
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haptic retargeting video showcase dynamic repurposing of passive Haptics for enhanced virtual reality experience
Human Factors in Computing Systems, 2016Co-Authors: Mahdi Azmandian, Eyal Ofek, Hrvoje Benko, Mark Hancock, Andrew D. WilsonAbstract:Manipulating a virtual object with appropriate passive haptic cues provides a satisfying sense of presence in virtual reality. However, scaling such experiences to support multiple virtual objects is a challenge as each one needs to be accompanied with a precisely-located haptic proxy object. We showcase a solution that overcomes this limitation by hacking human perception. Our framework for repurposing passive Haptics, called haptic retargeting, leverages the dominance of vision when our senses conflict. With haptic retargeting, a single physical prop can provide passive Haptics for multiple virtual objects. We introduce three approaches for dynamically aligning physical and virtual objects: body manipulation, world manipulation and a hybrid technique which combines both world and body warping. This video accompanies our CHI paper.
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Haptic Retargeting: Dynamic Repurposing of Passive Haptics for Enhanced Virtual Reality Experiences
Proceedings of the 2016 CHI Conference on Human Factors in Computing Systems - CHI '16, 2016Co-Authors: Mahdi Azmandian, Eyal Ofek, Hrvoje Benko, Mark Hancock, Andrew D. WilsonAbstract:Manipulating a virtual object with appropriate passive haptic cues provides a satisfying sense of presence in virtual reality. However, scaling such experiences to support multiple virtual objects is a challenge as each one needs to be accompanied with a precisely-located haptic proxy object. We propose a solution that overcomes this limitation by hacking human perception. We have created a framework for repurposing passive Haptics, called haptic retargeting, that leverages the dominance of vision when our senses conflict. With haptic retargeting, a single physical prop can provide passive Haptics for multiple virtual objects. We introduce three approaches for dynamically aligning physical and virtual objects: world manipulation, body manipulation and a hybrid technique which combines both world and body manipulation. Our study results indicate that all our haptic retargeting techniques improve the sense of presence when compared to typical wand-based 3D control of virtual objects. Furthermore, our hybrid haptic retargeting achieved the highest satisfaction and presence scores while limiting the visible side-effects during interaction.
