This study improves the ergonomics of using the Leap Motion hand tracking device with an Oculus Rift. The improvements were realised through the use of a 3D printed mount that angled the Leap Motion down by 30 degrees. This allowed for users to interact with a virtual environment in which their arms may be held in a biomechanically less stressful location, rather than up and in front of their face. To validate the configuration, 15 participants completed a specially designed task which involved pressing virtual buttons in a given location. The button pressing task was performed in three configurations that compared the angled mount against the standard forward facing mount. Results indicate that the angled mount eliminates tracking loses, w...
In this paper, an augmented reality methodology based on the use of a low-invasiveness hand tracking...
Virtual reality has been gaining a lot of attention lately, due to devices such as the Leap Motion C...
This paper proposes a portable hand haptic system using Leap Motion as a haptic interface that can b...
This study improves the ergonomics of using the Leap Motion hand tracking device with an Oculus Rift...
This study improves the ergonomics of using the Leap Motion hand tracking device with an Oculus Rift...
The paper deals with an experimental assessment of the Leap Motion Controller®. This device is able...
In recent years, people in the world have perceived how 3D inventions change our life. Along with th...
In the last years, the synergy between VR and HCI has dramatically increased the user’s feeling of i...
In this paper we present a VR locomotion technique based on the Leap Motion device and compare it to...
Recent innovations in the field of virtual reality, such as the Oculus Rift head mounted display, pr...
The hand tracking device Leap Motion Controller has been applied in many areas since it was released...
This thesis provides insight into the development of Virtual Reality(VR) applications with the purpo...
© 2018, The Author(s). Virtual reality technologies (VR) have advanced rapidly in the last few years...
This is the final version. Available open open access from Frontiers Media via the DOI in this recor...
We evaluated the ability of a virtual reality (VR) system to reliably detect the reaching frequency ...
In this paper, an augmented reality methodology based on the use of a low-invasiveness hand tracking...
Virtual reality has been gaining a lot of attention lately, due to devices such as the Leap Motion C...
This paper proposes a portable hand haptic system using Leap Motion as a haptic interface that can b...
This study improves the ergonomics of using the Leap Motion hand tracking device with an Oculus Rift...
This study improves the ergonomics of using the Leap Motion hand tracking device with an Oculus Rift...
The paper deals with an experimental assessment of the Leap Motion Controller®. This device is able...
In recent years, people in the world have perceived how 3D inventions change our life. Along with th...
In the last years, the synergy between VR and HCI has dramatically increased the user’s feeling of i...
In this paper we present a VR locomotion technique based on the Leap Motion device and compare it to...
Recent innovations in the field of virtual reality, such as the Oculus Rift head mounted display, pr...
The hand tracking device Leap Motion Controller has been applied in many areas since it was released...
This thesis provides insight into the development of Virtual Reality(VR) applications with the purpo...
© 2018, The Author(s). Virtual reality technologies (VR) have advanced rapidly in the last few years...
This is the final version. Available open open access from Frontiers Media via the DOI in this recor...
We evaluated the ability of a virtual reality (VR) system to reliably detect the reaching frequency ...
In this paper, an augmented reality methodology based on the use of a low-invasiveness hand tracking...
Virtual reality has been gaining a lot of attention lately, due to devices such as the Leap Motion C...
This paper proposes a portable hand haptic system using Leap Motion as a haptic interface that can b...