
Mar 02, 2014
3D Thought controlled environment via Interaxon
In this demo video, artist Alex McLeod shows an environment he designed for Interaxon to use at CES in 2011 interaxon.ca/CES#.
The glasses display the scene in 3D and attaches sensors read users brain-states which control elements of the scene.
3D Thought controlled environment via Interaxon from Alex McLeod on Vimeo.
Myoelectric controlled avatar helps stop phantom limb pain
Reblogged from Medgadget
People unfortunate enough to lose an arm or a leg often feel pain in their missing limb, an unexplained condition known as phantom limb pain. Researchers at Chalmers University of Technology in Sweden decided to test whether they can fool the brain into believing the limb is still there and maybe stop the pain.
They attached electrodes to the skin of the remaining arm of an amputee to read the myoelectric signals from the muscles below. Additionally, the arm was tracked in 3D using a marker so that the data could be integrated into a moving generated avatar as well as computer games. The amputee moves the arm of the avatar like he would if his own still existed, while the brain becomes reacquainted with its presence. After repeated use, and playing video games that were controlled using the same myoelectric interface, the person in the study had significant pain reduction after decades of phantom limb pain.
Here’s a video showing off the experimental setup:
Study in Frontiers in Neuroscience: Treatment of phantom limb pain (PLP) based on augmented reality and gaming controlled by myoelectric pattern recognition: a case study of a chronic PLP patient…
22:35 Posted in Cybertherapy, Wearable & mobile | Permalink | Comments (0)
Voluntary Out-of-Body Experience: An fMRI Study
Voluntary Out-of-Body Experience: An fMRI Study.
Front Hum Neurosci. 2014;8:70
Authors: Smith AM, Messier C
Abstract
The present single-case study examined functional brain imaging patterns in a participant that reported being able, at will, to produce somatosensory sensations that are experienced as her body moving outside the boundaries of her physical body all the while remaining aware of her unmoving physical body. We found that the brain functional changes associated with the reported extra-corporeal experience (ECE) were different than those observed in motor imagery. Activations were mainly left-sided and involved the left supplementary motor area and supramarginal and posterior superior temporal gyri, the last two overlapping with the temporal parietal junction that has been associated with out-of-body experiences. The cerebellum also showed activation that is consistent with the participant's report of the impression of movement during the ECE. There was also left middle and superior orbital frontal gyri activity, regions often associated with action monitoring. The results suggest that the ECE reported here represents an unusual type of kinesthetic imagery.
22:24 Posted in Telepresence & virtual presence | Permalink | Comments (0)
Humanlike robot hands controlled by brain activity arouse illusion of ownership in operators.
Humanlike robot hands controlled by brain activity arouse illusion of ownership in operators.
Sci Rep. 2013;3:2396
Authors: Alimardani M, Nishio S, Ishiguro H
Abstract
Operators of a pair of robotic hands report ownership for those hands when they hold image of a grasp motion and watch the robot perform it. We present a novel body ownership illusion that is induced by merely watching and controlling robot's motions through a brain machine interface. In past studies, body ownership illusions were induced by correlation of such sensory inputs as vision, touch and proprioception. However, in the presented illusion none of the mentioned sensations are integrated except vision. Our results show that during BMI-operation of robotic hands, the interaction between motor commands and visual feedback of the intended motions is adequate to incorporate the non-body limbs into one's own body. Our discussion focuses on the role of proprioceptive information in the mechanism of agency-driven illusions. We believe that our findings will contribute to improvement of tele-presence systems in which operators incorporate BMI-operated robots into their body representations.
22:17 Posted in Telepresence & virtual presence, Virtual worlds | Permalink | Comments (0)




