Abstract: A method includes projecting a dark virtual sky in a digital space. The dark virtual sky is transitioned to a dawn virtual sky. The dawn virtual sky is altered to introduce a daytime virtual sky. The daytime virtual sky is modified to produce a dusk virtual sky. These operations are performed via color palette transitions in the virtual sky in a time period of less than six minutes. A collection of gaze points in the digital space includes an apex gaze point, a left descendent gaze point and a right descendent gaze point. The apex gaze point maintains a constant size, the left descendent gaze point has a first oscillation sequence that fluctuates between a minimum size, a medium size and a maximum size. The right descendent gaze point has a second oscillation sequence that fluctuates between a maximum size, a medium size and a minimum size during the time period of less than six minutes.

Abstract: A method includes initiating an accelerated daily light and darkness cycle experience at a first color palette position within the accelerated daily light and darkness cycle that corresponds to a current time at a destination geographic location that a user will travel to. The accelerated daily light and darkness cycle experience is executed at a second color palette position within the accelerated daily light and darkness cycle that corresponds to the current time at the destination geographic location of the user. The accelerated daily light and darkness cycle is less than six minutes and includes projecting a dark virtual sky in a digital space, transitioning the dark virtual sky to a dawn virtual sky in the digital space, altering the dawn virtual sky to introduce a daytime virtual sky in the digital space and modifying the daytime virtual sky to produce a dusk virtual sky in the digital space.

Abstract: A method includes projecting a dark virtual sky in a digital space. The dark virtual sky is transitioned to a dawn virtual sky in the digital space. The dawn virtual sky is altered to introduce a daytime virtual sky in the digital space. The daytime virtual sky is modified to produce a dusk virtual sky in the digital space. These operations are performed via color palette transitions in the virtual sky in the digital space in a time period of less than six minutes. The color palette transitions are in proportional time segments of a twenty-four hour day punctuated by periods of light and darkness of variable length corresponding to the revolution of the earth around the sun. A gaze point is formed in the digital space. The gaze point experiences size changes between a minimum size and a maximum size during a gaze point size change cycle. The gaze point size change cycle is repeated throughout the time period of less than six minutes.

Abstract: A method includes projecting a dark virtual sky in a digital space. The dark virtual sky is transitioned to a dawn virtual sky in the digital space. The dawn virtual sky is altered to introduce a daytime virtual sky in the digital space. The daytime virtual sky is modified to produce a dusk virtual sky in the digital space. These operations are performed via color palette transitions in the virtual sky in the digital space in a time period of less than six minutes. The color palette transitions are in proportional time segments of a twenty-four hour day punctuated by periods of light and darkness of variable length corresponding to the revolution of the earth around the sun. A collection of gaze points is formed in the digital space. Each gaze point in the collection experiences cyclic changes between a minimum position and a maximum position during a gaze point size change cycle.

Abstract: A method includes projecting a dark virtual sky in a digital space. The dark virtual sky is transitioned to a dawn virtual sky in the digital space. The dawn virtual sky is altered to introduce a daytime virtual sky in the digital space. The daytime virtual sky is modified to produce a dusk virtual sky in the digital space. These operations are performed via color palette transitions in the virtual sky in the digital space in a time period of less than six minutes. The color palette transitions are in proportional time segments of a twenty-four hour day punctuated by periods of light and darkness of variable length corresponding to the revolution of the earth around the sun. A gaze point is formed in the digital space. The gaze point experiences size changes between a minimum size and a maximum size during a gaze point size change cycle. The gaze point size change cycle is repeated throughout the time period of less than six minutes.

Abstract: A method includes projecting a dark virtual sky in a digital space. The dark virtual sky is transitioned to a dawn virtual sky in the digital space. The dawn virtual sky is altered to introduce a daytime virtual sky in the digital space. The daytime virtual sky is modified to produce a dusk virtual sky in the digital space. These operations are performed via color palette transitions in the virtual sky in the digital space in a time period of less than six minutes. The color palette transitions are in proportional time segments of a twenty-four hour day punctuated by periods of light and darkness of variable length corresponding to the revolution of the earth around the sun. A collection of gaze points is formed in the digital space. Each gaze point in the collection experiences cyclic changes between a minimum position and a maximum position during a gaze point size change cycle.

Abstract: A method includes projecting a dark virtual sky in a digital space. The dark virtual sky is transitioned to a dawn virtual sky in the digital space. The dawn virtual sky is altered to introduce a daytime virtual sky in the digital space. The daytime virtual sky is modified to produce a dusk virtual sky in the digital space. All of the virtual sky transitions are performed in a time period of less than six minutes.

Abstract: A method includes projecting an object in a digital space. The object is transitioned to a final viewable peripheral location in the digital space. The object is removed from the digital space to define an unviewable path segment. The object is introduced to an initial viewable peripheral location in the digital space substantially opposite the final viewable peripheral location in the digital space. The initial viewable peripheral location to the final viewable peripheral location defines a viewable path segment. The object is returned to the center of the digital space. The operations are performed in an aggregate object path including the viewable path segment and the unviewable path segment. The object has a pre-configured object velocity and a pre-configured cycle time period in the aggregate object path.

Abstract: Disclosed are methods for alleviating, relieving, inhibiting, and eliminating acute or chronic pain in a patient suffering from such pain by contacting epithelial tissue of the patient with exogenous GABA (gamma-amino butyric acid). The epithelial tissue involves skin. The GABA is provided in compositions such as water, saline, buffered saline, lotions, semi-solids such as, gels, creams, pastes, salves, ointments, solids such as impregnated patches, impregnated rub-on solid compositions from which GABA may be applied onto the skin.

Abstract: Disclosed are methods for alleviating, relieving, inhibiting, and eliminating acute or chronic pain in a patient suffering from such pain by contacting epithelial tissue of the patient with exogenous GABA (gamma-amino butyric acid). The epithelial tissue includes skin, nasal mucosa or membranes and other epithelial tissue such as buccal, palatal, sublingual, rectal, vaginal, thecal and the like. The GABA is supplied in compositions such as water, saline, buffered saline, parenteral solutions, lotions, semi-solids such as, gels, creams, pastes, salves, ointments, solids such as impregnated patches, impregnated rub-on solid compositions from which layers of GABA may be rubbed onto the skin, sublingual pills, suppositories and the like.