A wearable computing device comprises one or more one eye pieces each of which further comprises a flexible frame surrounding a display screen and tactile elements arranged on the perimeter of the display screen. The tactile elements provide tactile feedback to the user that is synchronous with the
A wearable computing device comprises one or more one eye pieces each of which further comprises a flexible frame surrounding a display screen and tactile elements arranged on the perimeter of the display screen. The tactile elements provide tactile feedback to the user that is synchronous with the display on the display screen. A detection system is also included in the flexible frame to monitor the movements of a wearer's eyes and the eye sockets and to execute various tasks in response to the detected movements. A visual cortex thought detector also coupled to the wearable computing device obtains information regarding the wearer's thoughts and manipulates a display on the display screen based on the obtained information.
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1. A system comprising: a plurality of tactile elements mounted to a flexible frame of a wearable eye piece, the plurality of tactile elements arranged on a perimeter of a display screen of the wearable eyepiece, the tactile elements being communicatively coupled to a processor and the flexible fram
1. A system comprising: a plurality of tactile elements mounted to a flexible frame of a wearable eye piece, the plurality of tactile elements arranged on a perimeter of a display screen of the wearable eyepiece, the tactile elements being communicatively coupled to a processor and the flexible frame being configured for a shape mating engagement with an eye socket of a human wearer such that ambient light is blocked;a subset of the plurality of tactile elements have surfaces in contact with the wearer's skin;at least one of the plurality of tactile elements comprises a base, a neck and a head, the tactile element being attached to the flexible frame at the base such that the head of the tactile element is in contact with the wearer's skin; anda bi-directional actuation mechanism comprising a current-carrying coil, a pair of magnets, and a signal contact plate, the bi-directional actuation mechanism connected to the tactile element, the bi-directional actuation mechanism configured for actuating the tactile element and detecting movement of muscles in the eye socket of the wearer. 2. The system of claim 1, the bi-directional actuation mechanism is comprised in the base of the tactile element. 3. The system of claim 2, the bi-directional actuation mechanism further comprises a spherical body within the signal contact plate for actuation of the tactile element. 4. The system of claim 3, at least one of the magnets is attached to the spherical body. 5. The system of claim 4, the spherical body and the signal contact plate are configured such that the spherical body can rotate freely along a plurality of axis within the signal contact plate. 6. The system of claim 4, further comprising, a plurality of speakers. 7. The system of claim 6, further comprising a connecting wire that connects the spherical body with the plurality of speakers. 8. The system of claim 6, further comprising a gel pad arranged such that the gel pad is in contact with the wearer and faces of the speakers are positioned in the gel pad. 9. The system of claim 1, at least one of the plurality of tactile elements comprises a heating element. 10. The system of claim 1, further comprising the processor. 11. The system of claim 1, at least one tactile element of the subset of the plurality of tactile elements has a surface in contact with the wearer's skin textured in a manner that is different from a surface in contact with the wearer's skin of a different tactile element of the subset of tactile elements. 12. The system of claim 1, wherein at least one of the plurality of tactile elements is a suction cup. 13. The system of claim 1, wherein at least one of the plurality of tactile elements is a pin hole on the flexible frame. 14. A method comprising: providing a plurality of tactile elements on a flexible frame of a wearable eye piece that is in shape-mating engagement with an eye socket of a human wearer such that ambient light is blocked and the tactile elements arranged on a perimeter of a display screen, a subset of the tactile elements having surfaces in contact with the wearer's skin;activating, by a processor a bidirectional actuation mechanism connected to at least one of the subset of tactile elements;providing, by the processor via the activation of the bi-directional actuation mechanism, tactile feedback to the wearer in synchrony with video content displayed on the display screen of the wearable eye piece; anddetecting, by the processor via the bidirectional actuation mechanism connected to the tactile element, physical actuation of the tactile element caused by movements in muscles of the eye socket. 15. The method of claim 14, activation of the tactile element in synchrony with the video content further comprising: vibrating, by the processor, the tactile element by inducing current through a coil comprised within the tactile element. 16. The method of claim 14, activation of the tactile element in synchrony with the video content further comprising: heating, by the processor, a heating element comprised within the tactile element. 17. The method of claim 14, activation of the tactile element in synchrony with the video content further comprising: generating, by the processor, suction via the tactile element that attracts the wearer's skin. 18. The method of claim 14, activation of the tactile element in synchrony with the video content further comprising: providing, by the processor, audio feedback to the wearer through speakers comprised within the tactile element. 19. The method of claim 14, detecting, by the processor, the physical actuation of the tactile element comprises: detecting, by the processor, current induced in a coil comprised within the tactile element due to the physical actuation. 20. A non-transitory computer readable storage medium, comprising processor-executable instructions for: activating a bidirectional actuation mechanism connected to the at least one of a plurality of tactile elements fixed to a flexible frame of a wearable eye piece that is in shape-mating engagement with an eye socket of the human wearer such that ambient light is blocked, the plurality of tactile elements arranged on a perimeter of a display screen of the wearable eyepiece, a subset of the tactile elements having surfaces in contact with the wearer's skin;providing via the activation of the bi-directional actuation mechanism, tactile feedback to a human wearer in synchrony with video content displayed on the display screen—anddetecting via a bidirectional actuation mechanism connected to the at least one tactile element, physical actuation of the tactile element caused by movements in muscles of the eye socket.
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