Abstract: Systems and methods for applying and/or receiving electrical, magnetic, magnetoelectric, vibratory, or electromagnetic signals to biological tissues are described. In some embodiments, one or more of a conductive tip and a base may be provided. The tip may include a channel and an outer surface that approximates a portion of a sphere or cone and may be sized to fit within a user's ear. The base may be configured to be coupled to the tip and may include a conductor in electrical contact with the tip such that an electrical signal may pass between the base and the tip.

Abstract: Systems and methods for applying and/or receiving electrical, magnetic, magnetoelectric, vibratory, or electromagnetic signals to biological tissues are described. In some embodiments, one or more of a body, a conductor, an electrode, and a magnetic element may be provided. The conductor may be configured to be electrically coupled to at least one of a power source and a detector. The electrode may include a surface configured to contact a biological tissue portion and apply and/or receive an electrical signal to and/or from the biological tissue portion. The magnetic may selected from a group consisting of a magnet, a toroid, a conductive coil, a magnetic powder, and a magnetic fluid.

Abstract: Systems and methods for obtaining and analyzing biological data are described. In some embodiments, a local user system may perform steps such as receiving a first message including an indication of a stimulus to be applied, applying the stimulus, detecting a biological response to the stimulus, generating first data including an indication of the detected biological response, and transmitting a second message comprising the first data.

Abstract: Systems and methods for applying and/or receiving electrical, magnetic, magnetoelectric, vibratory, or electromagnetic signals to biological tissues are described. In some embodiments, one or more of a body, a conductor, and an electrode may be provided. In some embodiments, a filament may be used as an electrode and may be placed in contact with a biological tissue portion. In some embodiments, a signal may be applied and/or received via the filament or other electrode.

Abstract: Systems and methods for applying and/or receiving electrical, magnetic, magnetoelectric, vibratory, or electromagnetic signals to biological tissues are described. In some embodiments, one or more of a body, a conductor, an electrode, and a magnetic element may be provided. The conductor may be configured to be electrically coupled to at least one of a power source and a detector. The electrode may include a surface configured to contact a biological tissue portion and apply and/or receive an electrical signal to and/or from the biological tissue portion. The magnetic may selected from a group consisting of a magnet, a toroid, a conductive coil, a magnetic powder, and a magnetic fluid.

Abstract: Systems and methods for applying and/or receiving electrical, magnetic, magnetoelectric, vibratory, or electromagnetic signals to biological tissues are described. In some embodiments, one or more of a body, a conductor, and an electrode may be provided. In some embodiments, a filament may be used as an electrode and may be placed in contact with a biological tissue portion. In some embodiments, a signal may be applied and/or received via the filament or other electrode.

Abstract: Systems and methods for obtaining and analyzing biological data are described. In some embodiments, a local user system may perform steps such as receiving a first message including an indication of a stimulus to be applied, applying the stimulus, detecting a biological response to the stimulus, generating first data including an indication of the detected biological response, and transmitting a second message comprising the first data.

Abstract: Systems and methods for applying and/or receiving electrical, magnetic, magnetoelectric, vibratory, or electromagnetic signals to biological tissues are described. In some embodiments, a system including a body and an electrode may be placed in contact with a biological tissue portion. A force may be applied to the body such that the body plastically deforms to adapt to a shape of the biological tissue portion, and the electrode may be used to apply and/or receive an electrical signal via the biological tissue portion.

Abstract: Systems and methods for applying and/or receiving electrical, magnetic, magnetoelectric, vibratory, or electromagnetic signals to biological tissues are described. In some embodiments, one or more of a conductive tip and a base may be provided. The tip may include a channel and an outer surface that approximates a portion of a sphere or cone and may be sized to fit within a user's ear. The base may be configured to be coupled to the tip and may include a conductor in electrical contact with the tip such that an electrical signal may pass between the base and the tip.