Various examples are provided related to devices for human-computer interactions. In one example, a human computer interaction device includes a sensing platform with at least one inner zone and an outer zone. The sensing platform can provide control inputs to a computing device in response to detecting movement of a foot of a user on the sensing platform and can provide haptic feedback to the user in response to the detected movement. The haptic feedback can be provided via the at least one inner zone, the outer zone or a combination thereof.

The information processing apparatus is connected to a controller apparatus provided with a push button which moves from a first position to a second position by being pushed by a user's finger. The information processing apparatus acquires the push-in amount of the push button of the controller apparatus, determines whether or not the push-in amount is in a range that excludes the first position and the second position and is configured by two threshold values set between the first position and the second position, and performs predetermined processing on the basis of the result of the determination.

One or more embodiments of the invention is a program that is executed on an electronic device, the program causing the electronic device to execute: holding data points indicated by values on a first axis and values on a second axis, obtained on the basis of touch events; terminating the holding of a data point for which a predefined holding period has expired among the held data points; determining the slope of a regression line on the basis of the held data points; determining an amount of rotation by which the determined slope of the regression line is to be rotated, on the basis of a displacement direction of the set of the held data points; and determining an angle by which the user controls an object being operated in a virtual space, on the basis of the determined slope of the regression line and the determined amount of rotation.

One or more embodiments of the invention is a program that is executed on an electronic device, the program causing the electronic device to execute: holding data points indicated by values on a first axis and values on a second axis, obtained on the basis of touch events; terminating the holding of a data point for which a predefined holding period has expired among the held data points; determining the slope of a regression line on the basis of the held data points; determining an amount of rotation by which the determined slope of the regression line is to be rotated, on the basis of a displacement direction of the set of the held data points; and determining an angle by which the user controls an object being operated in a virtual space, on the basis of the determined slope of the regression line and the determined amount of rotation.

A board game system comprises a game board, having a surface adapted to receive a board game overlay, a detector array adapted to detect the respective positions of a plurality of game pieces placed on top of the board game overlay, and a transmitter adapted to transmit data indicating the respective positions to an entertainment device; and an entertainment device, having a receiver adapted to receive from the game board data indicating the respective positions of the plurality of game pieces, a game state analyser operable to update the state of a game in dependence upon the indicated respective positions of the plurality of game pieces, and an image generator operable to generate an image for output to a display, the content of the image being responsive to the detected state of the game.

Methods and apparatus provide for controlling an operating device, wherein the operating device includes: (i) a grip part to be gripped by a user; and (ii) an operation part for activation by a finger of the user gripping the grip part, where the operation part includes: (i) a movable part capable of moving from a resting position toward another position in response to a force applied by the finger of the user, (ii) a biasing element operating to urge the movable part toward the resting position, (iii) a sensor operating to measure the force applied by the finger of the user to the movable part and produce a sensing signal therefrom, and (iv) a motorized assembly operating to receive a drive signal, and in response, apply an amount of force to the movable part in opposition to the force applied by the finger of the user, and where the drive signal is a variable dependent on variations in the sensing signal, such that the amount of force applied to the movable part in opposition to the force applied by the finger of the user provides the user with haptic feedback.

Disclosed herein is an operating device connected to an information processing device, the operating device including an information transmitting section configured to receive an operation of a user and transmit operation information indicating content of the operation to the information processing device and a control processing section configured to perform control processing determined in advance according to the operation of the user, the information transmitting section transmitting state information indicating an execution state of the control processing to the information processing device.

Disclosed herein is an operating device connected to an information processing device, the operating device including an information transmitting section configured to receive an operation of a user and transmit operation information indicating content of the operation to the information processing device and a control processing section configured to perform control processing determined in advance according to the operation of the user, the information transmitting section transmitting state information indicating an execution state of the control processing to the information processing device.

System for mechanically assisting rehabilitation of a patient. The system includes: a manipulator having at least five degrees of freedom and defining a free end; a limb support for supporting a limb of the patient, and secured relative to the free end of the manipulator; a force sensor operatively connected to the limb support to allow measuring input forces applied by the patient; and a processor communicatively connected to the force sensor, the manipulator, and a memory store which defines a scale factor. The processor is configured to control operation of the manipulator to move the limb support, and further configured so that responsive to receiving an input force measurement from the force sensor, the processor determines an applied force as a function of the input force and the scale factor.

System for mechanically assisting rehabilitation of a patient. The system includes: a manipulator having at least five degrees of freedom and defining a free end; a limb support for supporting a limb of the patient, and secured relative to the free end of the manipulator; a force sensor operatively connected to the limb support to allow measuring input forces applied by the patient; and a processor communicatively connected to the force sensor, the manipulator, and a memory store which defines a scale factor. The processor is configured to control operation of the manipulator to move the limb support, and further configured so that responsive to receiving an input force measurement from the force sensor, the processor determines an applied force as a function of the input force and the scale factor.