A method of determining and presenting a protocol for adjusting a circadian rhythm of a user comprising receiving an indication of an intended circadian shift comprising a shift magnitude, receiving an indication of a user circadian phase, defining a user circadian shift protocol responsive to the shift magnitude and the indication of the user circadian phase, the user circadian shift protocol comprising one or more activities scheduled to be performed at a certain date and time, the activities comprising at least one of a light exposure or light avoidance activity, a chronobiotic activity, a nutritional consumption activity, a physical activity, and a rest activity. The method may further provide an indication to perform each activity on a user device.

Environmental characteristics of habitable environments (e.g., hotel or motel rooms, spas, resorts, cruise boat cabins, offices, hospitals and/or homes, apartments or residences) are controlled to eliminate, reduce or ameliorate adverse or harmful aspects and introduce, increase or enhance beneficial aspects in order to improve a wellness or sense of wellbeing provided via the environments. Control of intensity and wavelength distribution of passive and active Illumination addresses various issues, symptoms or syndromes, for instance to maintain a circadian rhythm or cycle, adjust for jet lag or season affective disorder, etc. Air quality and attributes are controlled. Scent(s) may be dispersed. Hypoallergenic items (e.g., bedding, linens) may be used. Water quality is controlled. Noise is reduced and sounds (e.g., masking, music, natural) may be provided. Passive and active pathogen controls are employed. Controls are provided for the occupant and/or facility personnel, as is instruction, and surveys, including assessing wellness.

A system comprises a flexible pad, an antenna wire disposed within the flexible pad, and an electronics unit connected to or capable of being connected to the antenna wire. The electronics unit can include circuitry configured to access a stored playlist representing a sequence of tones at different frequencies, and to generate signals representing the tones such that two or more of the tones are generated in the sequence according to the stored playlist. The electronics unit further can include an oscillator to generate a carrier signal and coupled so that the signals representing the tones modulate the carrier signal according to the sequence when applied to an input of the oscillator, where the oscillator has an output connected to transmit the modulated carrier signal onto an antenna when the electronics unit is in operation.

The present disclosure pertains to a system configured to deliver sensory stimulation to a user to enhance a target cognitive domain during a sleep session. Example target cognitive domains include memory consolidation, vigilance, verbal fluency, sleepiness, and/or other target cognitive domains. The stimulation is adjusted based on the target cognitive domain to be enhanced. Responsive to one or more brain activity parameters indicating the user is in sufficiently deep sleep, the system is configured to cause one or more sensory stimulators to provide sensory stimulation to the user according to a stimulation strategy associated with the target cognitive domain. The system is configured to determine the effect of the sensory stimulation provided to the user using a quantification method associated with the stimulation strategy and the target cognitive domain. The system includes one or more sensory stimulators, one or more sensors, one or more hardware processors, and/or other components.

A sensor is for measuring skin conductance. An amplifier is used to convert the skin conductance into an analog output voltage which is then converted into the digital domain, so that the increase in tonic skin conductance and the phasic skin conductance response are obtained in the digital domain. The amplifier has a non-linear logarithmic gain, with a decreasing gain for increasing skin conductance values. The sensor enables detection of both increase in tonic and phasic signals and over a wide range of skin conductance. It provides optimal use of the analog to digital converter so that a lower resolution and therefore lower cost convener can be used.

Environmental characteristics or scenes of habitable environments (e.g., hotel or motel rooms, spas, resorts, cruise boat cabins, offices, hospitals and/or homes, apartments or residences, or other spaces or sub-spaces) are controlled to facilitate certain activities of a user in the environment by increasing focus, preparing for sleep, directing movement, masking ambient noise, and improving air quality, among others. Controllable characteristics include, for example, lighting, CO.sub.2/O.sub.2 levels, humidity levels, sound, aroma, and air temperature. Controls are provided for the occupant and/or facility personnel to select activities or scenes, or sensors detect the activity and implement an appropriate scene.

A method of conditioning a living body of a patient to associate the unconditioned stimulus (US) of decreased sympathetic nerve activity (SNA) with the conditioned stimulus (CS) or offending agent to cease or reduce defensive reactions or symptoms. The US involves non-invasive, mechanical stimulation of the sympathetic ganglia, which is paired with the offending stimuli or representation of the offending stimuli to modify pathologically conditioned reflexes of various systems involved in a reaction. In addition, conditions are treated by using digital representations, preferably provided via a computer, to represent the offending stimulus in order to engage the multimodal functioning of the brain. Sensory stimulation is used in conjunction with the various modalities of stimuli to condition the body to respond more appropriately to the stimulus.

A virtual reality ride system including a headset, a control unit, and a dynamic platform. The headset includes a display unit configured to display a video of an animated virtual environment. The control unit includes one or more processors configured to perform render processing that renders the video of the virtual environment; event motion processing that generates first data representing motions associated with events in the virtual environment; and low-frequency motion processing that generates second data representing low-frequency vibrations unrelated to the events in the virtual environment. The dynamic platform is configured to produce the motions associated with the events in the virtual environment based on the first data, and to produce the low-frequency vibrations based on the second data. The low-frequency vibrations include a frequency between about 5 Hz and 70 Hz.

Virtual reality method intended to be implemented in a virtual reality system, the method including the production of a stimulus in the system during a period of stimulation, the stimulus including: a projection of an image sequence; a production of a first sound signal including a soundtrack linked to the progress of the image sequence; a production of a second sound signal having a first frequency and a third sound signal having a second frequency, the second sound signal being audible from one ear and the third sound signal being audible from the other ear of the user; a production of a fourth sound signal including a spoken presentation; during an initial portion of said predetermined period, the stimulus further including an induction signal; and during a final portion of said predetermined period, the intensity of the sound signals decreasing in intensity until a zero intensity, and the image sequence decreasing in intensity until a zero intensity.

One or more sensors are configured to sense physiological phenomena of a user of the bed; and generate one or more data streams based on the sensing of the physiological phenomena of the user. A computing system may include at least one processor and computer memory, the computing-system configured to: receive the one or more data streams for a plurality of night's sleep for the same user; generate, using the one or more data streams, digital cognitive behavioral therapy for insomnia (dCBTI) parameters for the user; and cause a computing device to operate a dCBTI treatment for the user according to the dCBTI parameters.