A system and method for targeted neurological treatment using brainwave entrainment therapy with passive treatment that allows for targeted treatment of particular areas of the brain, particular neurological functions, particular neurological states, and combinations of areas, functions, and states. The system and method receive gait parameters for an individual and compare those against a database of historical gait data to determine if an onset neurodegenerative condition is present, and applies a brainwave entrainment therapy responsive to the determination of the condition. The system and method receive a neurological assessment identifying areas of the brain or neurological functions to be treated, select one or more treatment modalities and frequencies, select a treatment regimen, and apply brainwave entrainment using a treatment regimen while the subject engages in dual-task activities selected to stimulate the areas of the brain, neurological functions, or neurological states to be treated, enhanced, or altered.

A system and method for a cloud-based gaming platform with integrated health-related data collection capabilities. In an embodiment, the system and method comprise a cloud-based gaming platform comprising a frontend accessible from various game clients which operates a gaming environment on one or more game servers, a backend that provides the game database and analytics used by the game servers to operate the gaming environment, and a HIPPA-compliant security gateway configured to route health-related data from gaming to a healthcare diagnostics and treatment module integrated into the platform. Exercising on an exercise machine compatible with the cloud-based gaming platform entertains the user while simultaneously capturing data about the user's physical and mental performance which can later be used to diagnose medical conditions and, depending on configuration, implement treatment regimens comprising exercise routines and mental simulation via tasks in the gaming environment.

Methods and systems are provided for interactive gaming platform scene generation utilizing captured visual data and artificial intelligence-generated environment, with the gaming platform including at least a user device that has or is coupled to a display, with the gaming platform configured to obtain recorded footage associated with an environment pertinent to a game playable via the user device, to generate, based on the recorded footage, one or more video frames for use during playing of the game via the user device, and to display the one or more video frames via the display during the playing of the game via the user device. The recorded footage may be processed using artificial intelligence, and the one or more video frames may be generated using the artificial intelligence and based on the processing of the recorded footage.

A system and method for therapeutic stimulation using virtual objects and gamification, in which multi-modality stimulus is applied using some combination of virtual elements, attention is enhanced by virtue of the user's active participation, and long-term use is encouraged by virtue of the entertaining nature of the gamification. Depending on configuration, the system and method may comprise a display comprising virtual objects, a light-producing device (other than the display), an audio-producing device such as speakers or headphones, a haptic feedback device such as a vibratory motor, a means for monitoring the user's attention, and a software application which applies therapeutic stimulation using some combination of the display, the light-producing device, the audio-producing device, and the haptic feedback device.

A system and method for therapeutic stimulation using virtual objects and gamification, in which multi-modality stimulus is applied using some combination of virtual elements, attention is enhanced by virtue of the user's active participation, and long-term use is encouraged by virtue of the entertaining nature of the gamification. Depending on configuration, the system and method may comprise a display comprising virtual objects, a light-producing device (other than the display), an audio-producing device such as speakers or headphones, a haptic feedback device such as a vibratory motor, a means for monitoring the user's attention, and a software application which applies therapeutic stimulation using some combination of the display, the light-producing device, the audio-producing device, and the haptic feedback device.

Systems and methods for reducing hops associated with a head mounted display are described. The head mounted display includes a communications circuit for receiving and transmitting interactive media associated with a game program via a network. The interactive media is processed by the game cloud system and streamed directly to the communications circuit of the head mounted display. The head mounted display further includes a user input circuit for receiving an action from a user to generate an input, which includes position and motion detected by the user input circuit. The head mounted display includes a game processing circuit for decoding the interactive media received from the network. The game processing circuit drives a portion of interactivity associated with the game program. The portion of interactivity is generated based on the input.

Systems and methods for reducing hops associated with a head mounted display are described. The head mounted display includes a communications circuit for receiving and transmitting interactive media associated with a game program via a network. The interactive media is processed by the game cloud system and streamed directly to the communications circuit of the head mounted display. The head mounted display further includes a user input circuit for receiving an action from a user to generate an input, which includes position and motion detected by the user input circuit. The head mounted display includes a game processing circuit for decoding the interactive media received from the network. The game processing circuit drives a portion of interactivity associated with the game program. The portion of interactivity is generated based on the input.

Systems and methods to provide a mobile computing platform as a physical interface for an interactive space are presented herein. The interactive space may be experienced by a user of a host device (e.g., headset). The interactive space may include views of virtual content. A position and/or heading of the mobile computing platform relative to a perceived position and/or heading of the virtual content of the interactive space may be determined. Remote command information may be determined based on the relative position information and/or user input information conveying user entry and/or selection of one or more input elements of the mobile computing platform. The remote command information may be configured to effectuate user interactions with the virtual content in the interactive space based on user interactions with the mobile computing platform.

Systems and methods to provide a mobile computing platform as a physical interface for an interactive space are presented herein. The interactive space may be experienced by a user of a host device (e.g., headset). The interactive space may include views of virtual content. A position and/or heading of the mobile computing platform relative to a perceived position and/or heading of the virtual content of the interactive space may be determined. Remote command information may be determined based on the relative position information and/or user input information conveying user entry and/or selection of one or more input elements of the mobile computing platform. The remote command information may be configured to effectuate user interactions with the virtual content in the interactive space based on user interactions with the mobile computing platform.

A gesture-recognition (GR) device is disclosed that includes a capacitive touch sensor panel and a controller. The capacitive touch sensor panel comprises a plurality of sensing pads arranged in a cylindrical pattern inside a handle of the GR device and detects a multi-factor touch assertion at a set of sensing pads of the plurality of sensing pads. The controller transmits a driving signal to each of the plurality of sensing pads for the detection of the multi-factor touch assertion, generates an assertion signal, determines a signal sequence based on the assertion signal, and converts a current inactive state of the GR device to an active state based on a validation of the determined signal sequence corresponding to the multi-factor touch assertion and an inferred user intent.