Abstract: Aspects relate to systems and methods for providing information about a person's physiological signals to that person (and/or others) as they travel through various venues of their daily work and play life. Ubiquitous physiological feedback incentivizes the person to regulate their cognitive and/or emotional states to better perform various tasks. The feedback also provides them with practice opportunities throughout their day to further develop a psychophysiological self-regulation skill set. Obtaining pervasive physiological feedback throughout the environment may be achieved through the person's use and/or interaction with wearable or otherwise mobile physiological monitoring devices or systems and with other systems that may be embedded in environments through which the traveler visits during the course of their day. Such systems may experience functionality changes in response to an individual's physiological signals via biocybernetic adaptation.

Abstract: The invention is an apparatus and method of biofeedback training for attaining a physiological state optimally consistent with the successful performance of a task, wherein the probability of successfully completing the task is made is inversely proportional to a physiological difference value, computed as the absolute value of the difference between at least one physiological signal optimally consistent with the successful performance of the task and at least one corresponding measured physiological signal of a trainee performing the task. The probability of successfully completing the task is made inversely proportional to the physiological difference value by making one or more measurable physical attributes of the environment in which the task is performed, and upon which completion of the task depends, vary in inverse proportion to the physiological difference value.

Abstract: Disclosed are methods and apparatuses provided for modifying the effect of an operator controlled input device on an interactive device to encourage the self-regulation of at least one physiological activity by a person different than the operator. The interactive device comprises a display area which depicts images and apparatus for receiving at least one input from the operator controlled input device to thus permit the operator to control and interact with at least some of the depicted images. One effect modification comprises measurement of the physiological activity of a person different from the operator, while modifying the ability of the operator to control and interact with at least some of the depicted images by modifying the input from the operator controlled input device in response to changes in the measured physiological signal.

Abstract: The invention is an apparatus and method of biofeedback training for attaining a physiological state optimally consistent with the successful performance of a task, wherein the probability of successfully completing the task is made is inversely proportional to a physiological difference value, computed as the absolute value of the difference between at least one physiological signal optimally consistent with the successful performance of the task and at least one corresponding measured physiological signal of a trainee performing the task. The probability of successfully completing the task is made inversely proportional to the physiological difference value by making one or more measurable physical attributes of the environment in which the task is performed, and upon which completion of the task depends, vary in inverse proportion to the physiological difference value.

Abstract: The invention is an apparatus and method of biofeedback training for attaining a physiological state optimally consistent with the successful performance of a task, wherein the probability of successfully completing the task is made is inversely proportional to a physiological difference value, computed as the absolute value of the difference between at least one physiological signal optimally consistent with the successful performance of the task and at least one corresponding measured physiological signal of a trainee performing the task. The probability of successfully completing the task is made inversely proportional to the physiological difference value by making one or more measurable physical attributes of the environment in which the task is performed, and upon which completion of the task depends, vary in inverse proportion to the physiological difference value.

Abstract: Disclosed are methods and apparatuses provided for modifying the effect of an operator controlled input device on an interactive device to encourage the self-regulation of at least one physiological activity by a person different than the operator. The interactive device comprises a display area which depicts images and apparatus for receiving at least one input from the operator controlled input device to thus peiiiiit the operator to control and interact with at least some of the depicted images. One effect modification comprises measurement of the physiological activity of a person different from the operator, while modifying the ability of the operator to control and interact with at least some of the depicted images by modifying the input from the operator controlled input device in response to changes in the measured physiological signal.

Abstract: A system and method for incorporating biofeedback training into each user's interaction with a multi-user virtual environment, such as a multi-user videogame or a multi-user computer-simulated task, and for enhancing each user's sense of immersion in the multi-user virtual environment, by using measured values of physiological functions received as real-time outputs from at least one biosensory device operatively connected to each user while each user is interacting with the multi-user virtual environment to influence a score of each user's performance, such that each user demonstrating relatively superior physiological self-regulatory skill is rewarded and each user demonstrating relatively inferior physiological self-regulatory skill is penalized.

Abstract: A system and method for incorporating biofeedback training into each user's interaction with a multi-user virtual environment, such as a multi-user videogame or a multi-user computer-simulated task, and for enhancing each user's sense of immersion in the multi-user virtual environment, by using measured values of physiological functions received as real-time outputs from at least one biosensory device operatively connected to each user while each user is interacting with the multi-user virtual environment to influence a score of each user's performance, such that each user demonstrating relatively superior physiological self-regulatory skill is rewarded and each user demonstrating relatively inferior physiological self-regulatory skill is penalized.

Abstract: Apparatus and methods for modulating the control authority (i.e., control function) of a computer simulation or game input device (e.g., joystick, button control) using physiological information so as to affect the user's ability to impact or control the simulation or game with the input device. One aspect is to use the present invention, along with a computer simulation or game, to affect physiological state or physiological self-regulation according to some programmed criterion (e.g., increase, decrease, or maintain) in order to perform better at the game task. When the affected physiological state or physiological self-regulation is the target of self-regulation or biofeedback training, the simulation or game play reinforces therapeutic changes in the physiological signal(s).