One variation of a system for locating electrodes on a head of a user includes a headset defining a set of electrode bodies elastically interconnected by a unique set of spring elements configured to locate the set of electrode bodies at electrode positions of the international 10-20 standard, irrespective of the size of the head of the user. The spring elements are configured to carry electrical signals between interconnected electrode bodies and ultimately to a controller. An electrode tip is mechanically and electrically coupled to each electrode body. The electrode tip comprises a thin conductive probe mounted at the distal end of an elastic beam and is configured to extend from a base of the electrode tip, bypass hair, and electrically couple to the head of the user, and an insulative boss, configured to rest on and transfer the weight of the headset to the head of the user.

One variation of a system for locating electrodes on a head of a user includes a headset defining a set of electrode bodies elastically interconnected by a unique set of spring elements configured to locate the set of electrode bodies at electrode positions of the international 10-20 standard, irrespective of the size of the head of the user. The spring elements are configured to carry electrical signals between interconnected electrode bodies and ultimately to a controller. An electrode tip is mechanically and electrically coupled to each electrode body. The electrode tip comprises a thin conductive probe mounted at the distal end of an elastic beam and is configured to extend from a base of the electrode tip, bypass hair, and electrically couple to the head of the user, and an insulative boss, configured to rest on and transfer the weight of the headset to the head of the user.

A feature amount extractor extracts a feature amount representing the feature of a brain wave from the brain wave of a subject, the brain wave being measured when a magnetic stimulation is applied to the brain of the subject. A mental disorder determiner determines whether or not the subject has a predetermined mental disorder on the basis of a feature amount variation that is a differential value between a feature amount extracted from a brain wave measured immediately before the magnetic stimulation and a feature amount extracted from a brain wave measured immediately after the magnetic stimulation.

A feature amount extractor extracts a feature amount representing the feature of a brain wave from the brain wave of a subject, the brain wave being measured when a magnetic stimulation is applied to the brain of the subject. A mental disorder determiner determines whether or not the subject has a predetermined mental disorder on the basis of a feature amount variation that is a differential value between a feature amount extracted from a brain wave measured immediately before the magnetic stimulation and a feature amount extracted from a brain wave measured immediately after the magnetic stimulation.

Provided are embodiments of systems, computer medium and computer-implemented methods for sensing health characteristics of a user using a computer mouse including, a computer medium including program instructions executable by a to cause the steps of: activating set of health sensors integrated within a computer mouse, collecting health sensor data output by the set of health sensors, determining an updated health profile for an employee using the collected health sensor data, updating health information for the employee to reflect the updated health profile for the employee, and displaying the updated health profile for the employee.

Provided are embodiments of a computer mouse for sensing health characteristics of a user. The computer mouse including a location sensor adapted to sense movement of the computer mouse, a temperature sensor adapted to sense a body temperature of the user, a blood condition sensor adapted to sense a blood saturation level of the user, and a blood pressure sensor adapted to sense a blood pressure of the user. The computer mouse including a controller to transmit, to a computer workstation, location data corresponding to the sensed movement of the computer mouse, temperature data corresponding to the sensed body temperature, blood condition data corresponding to the sensed blood saturation level, and blood pressure data corresponding to the sensed blood pressure, for determining movement of the mouse and body temperature, blood saturation level, and the blood pressure of the user.

An information processing apparatus includes a retaining unit, an image acquisition unit, an image processor, a comparator, and an image generator. The retaining unit is configured to retain a defined attachment position being an attachment position of a biological detection sensor with respect to a body site of a user, the defined attachment position being defined in advance. The image acquisition unit is configured to acquire a capture image captured by an imaging unit. The image processor is configured to extract, from the capture image, a body shape of the user. The comparator is configured to compare the body shape with the defined attachment position. The image generator is configured to generate, based on a comparison result by the comparator, a display image to be displayed on a display unit.

Provided are embodiments of systems, computer medium and computer-implemented methods for sensing health characteristics of a user using a computer mouse having a location sensor configured to sense movement of the computer mouse relative to a work surface on which the computer mouse is located, a temperature sensor, a blood condition sensor and a blood pressure sensor. A method including transmitting, to a computer workstation, location data corresponding to sensed movement of the computer mouse for use in determining movement of the mouse, receiving temperature data from the temperature sensor, blood condition data from the blood condition sensor and blood pressure data from the blood pressure sensor, and transmitting, to the computer workstation, health data corresponding to the temperature data, the blood condition data, and the blood pressure data for use in determining the body temperature, the blood saturation level, and the blood pressure of the user.

Provided are embodiments of systems, computer medium and computer-implemented methods for sensing health characteristics of a user using a computer mouse including, a temperature sensor, a blood condition sensor and a blood pressure sensor. A method for sensing health characteristics of a user using a computer mouse including receiving, from the temperature sensor, temperature data corresponding to a sensed body temperature of the user, receiving, from the blood condition sensor, blood condition data corresponding to a sensed blood saturation level of the user, receiving, from the blood pressure sensor, blood pressure data corresponding to a sensed blood pressure of the user, and transmitting, to the computer workstation, health data corresponding to the temperature data, the blood condition data, and the blood pressure data for use in determining the body temperature, the blood saturation level, and the blood pressure of the user.

A mind-controlled switch is described, which comprises input circuitry for receiving mind state data from a first external device, an actuator, responsive to user actuation to set one or more threshold mind state values, and control circuitry for controlling a second external device in dependence on the mind state data and the mind state value(s). Notably, the mind-controlled switch is provided separately both from a first external device (which actually collects the mind state data from the user) and the second external device, which is the device being controlled by the switch. Accordingly, the second external device need not have its own mind-controllable functionality, but can instead be a conventional device which is imbued with this functionality by way of the separate mind-controlled switch.