The inventive concept relates to a wearable hand robot mounted on a finger to bend the finger by an external force transmitted through a wire. The wearable hand robot is capable of preventing an injury to a user's hand by the wire, achieving simplification of the structure of a finger cap and an improvement in a wearing sensation, and stably moving the finger while having a tactile sensation.

An extender for a massage device handle has an adjustable and pivotal sleeve to be removably attached to different sized massage device handles via a hinge assembly. A first longitudinal extender section is removably attached to the hinge assembly. A first laterally extending handle is removably attached to the first longitudinal extender section. The first longitudinal extender section has one end adapted to removably receive another extender section to extend the length of the extender.

An extender for a massage device handle has an adjustable and pivotal sleeve to be removably attached to different sized massage device handles via a hinge assembly. A first longitudinal extender section is removably attached to the hinge assembly. A first laterally extending handle is removably attached to the first longitudinal extender section. The first longitudinal extender section has one end adapted to removably receive another extender section to extend the length of the extender.

Systems and methods of controlling a device using detected changes in a neural-related signal of a subject are disclosed. In one embodiment, a method of controlling a device or software application comprises detecting a first change in a neural-related signal of a subject, detecting a second change in the neural-related signal, and transmitting an input command to the device upon or following the detection of the second change in the neural-related signal. The neural-related signal can be detected using a neural interface implanted within a brain of the subject.

A method of and system for visualizing a sound source is disclosed. The method may include analyzing an audio signal received by a sound transducer to determine a positional direction of the sound source, determining whether the positional direction of the sound source falls outside a field of view of a user, and in response to determining that the positional direction of the sound source falls outside the field of view of the user, rendering on a display unit a visual representation of the sound source. The visual representation of the source is rendered on a virtual surface at a location within the field of view of the user, the location corresponding to at least one of a distance of the source from the user and a positional direction of the source with respect to the user.

The present disclosure relates generally to systems, methods, and devices for interpreting neural signals to determine a desired movement of a target, transmitting electrical signals to the target, and dynamically monitoring subsequent neural signals or movement of the target to change the signal being delivered if necessary, so that the desired movement is achieved. In particular, the neural signals are decoded using a feature extractor, decoder(s) and a body state observer to determine the electrical signals that should be sent.

The present disclosure relates generally to systems, methods, and devices for interpreting neural signals to determine a desired movement of a target, transmitting electrical signals to the target, and dynamically monitoring subsequent neural signals or movement of the target to change the signal being delivered if necessary, so that the desired movement is achieved. In particular, the neural signals are decoded using a feature extractor, decoder(s) and a body state observer to determine the electrical signals that should be sent.

An apparatus for manually impaired individuals. The apparatus includes a top element having a base and at least two pairs of arms extending outwardly from the base. The base includes a first aperture and a second aperture. The apparatus further includes a handle connecting to the top element at a distal end of the top element. The handle includes an end part. The end part includes a third aperture and a slot connected by a “V” shaped portion. The apparatus further includes a restraint having a first end securing at an interior of the handle via the first aperture of the base and a second end of the restraint exposed outside the handle.

An input apparatus for operating and/or controlling a technical device includes a plurality of sensor elements which can be arranged spatially distributed in the oral cavity of a user. An interface circuit is coupled to the sensor elements and is configured to detect a respective current tongue position and/or tongue movement by means of the sensor elements. The interface circuit generates one or more control signals depending on the respective current tongue position and/or tongue movement and transmits the one or more control signals to the technical device. Advantageously, the sensor elements each include a transponder which is configured to receive an interrogation signal from the interface circuit and, in response thereto, to transmit an individually coded response signal to the interface circuit.

Systems and methods for operating a controlled device via a wearable activation accessory that includes a sensor configured to detect relaxed and flexed conditions of muscles associated with clenching, flexing, and/or lateral displacement of a wearer's muscle, thereby allowing the wearer to generate control signals for a controlled element. The sensor is coupled to a controller, which has an output coupled to a control signal interface. The controller is programmed to receive and evaluate input signals from the sensor to determine whether or not they represent a command for the controlled device by assessing the input signals for a signal pattern indicative of a plurality of volitional muscle motion actions of a wearer of the wearable activation accessory. If/when the processor determines that the input signals represent a valid command, it decodes the command and transmits an associated control signal to the controlled device via the control signal interface.