The present invention relates to a haptic information provision device. The haptic information provision device (100) according to the present invention comprises: a receiver (120) for receiving external notification information; a controller (130) for converting the notification information to a haptic signal; and an operation unit (110) for transferring haptic information to a user according to the haptic signal, wherein the operation unit (110) includes a plurality of operation units (110a-110j), the respective operation units (110a-110j) operating in response to different notification information and thus transferring different haptic information to the user.

An ultrasonic haptic control system for a motor vehicle is provided. The system includes a steering wheel assembly comprising a ring-shaped member configured to be held by an occupant of the vehicle, and rotated about a central axis in order to steer the vehicle; and a plurality of ultrasound emitters associated with the steering wheel. The ultrasound emitters are configured to focus ultrasound waves within a central region about which the ring-shaped member circumferentially extends and/or radially outside of and adjacent to the ring-shaped member. The focused ultrasound waves are configured to form one or more haptic control surfaces. A method of operating a haptic control system is also provided.

A tactile sensation presentation device includes a panel including an operation surface, an actuator configured to apply vibration to the operation surface, and a controller configured to control the actuator to apply an attenuated vibration to the operation surface such that a tactile sensation indicating an end of a function of an operation target as a state of the operation target is presented to an operator. The controller discontinuously may vibrate the operation surface. The controller may be configured to vibrate the operation surface at a certain interval, not to attenuate waveforms of vibration regarded as one lump, and to attenuate vibration to be applied to the operation surface by a tactile sensation pattern making an amplitude smaller for each solitary waveform being a lump of waveforms.

The present disclosure relates to an input/output device mounted on a vehicle having a plurality of displays, and the input/output device may include a touch panel configured to sense a touch input, a haptic module configured to generate a tactile effect on the touch panel, a communication unit configured to perform communication with any one of the displays, and a processor configured to set one or more feedback regions on the touch panel based on a screen being displayed on the display, and control the haptic module to generate a tactile effect when a touch is applied to the one or more feedback regions, wherein the one or more feedback regions vary according to the screen being displayed on the display.

A vehicle shifter interface including a protruding contoured member including an outer surface having a first contour with a round shape and a second contour; a first set of capacitive touch sensor pads disposed on an inner surface of the protruding contoured member in an area underlying the first contour, the first set of capacitive touch sensor pads arranged to provide output signals in response to a rotary movement of a driver's fingers about the round shape of the first contour thereby indicating a change in gear selection; and a second set of capacitive touch sensor pads disposed on the inner surface in an area underlying the second contour, the second set of capacitive touch sensor pads arranged and configured to provide output signals in response to at least one of a position of a driver's finger on the second contour and a change of position of a driver's finger.

The indicator apparatus (30) for a vehicle component, in particular for a human-human interface for the indicator and, where necessary, for entering operating parameters for a vehicle component, is provided with a housing (12) comprising a front side (14) and a display unit (10), which is arranged on the front side (14) of the housing (12) and/or forms the front side (14) of the housing (12), for displaying operating parameters of a vehicle component and possibly symbols fields for entering commands and operating parameters for a vehicle component. The indicator apparatus (30) is furthermore provided with a deformable delay element (32), arranged in the housing (12) behind the display unit (10), for delaying acceleration movements that act on the display unit (10) in the direction of the interior of the housing (12) as a result of an object striking the display unit (10). The delay element (32) has a greater stiffness in a center region (34) that is in alignment with the region of the center of the display unit (10) than in a region (36, 38) of the delay element (32) that is in alignment with a region of the display unit (10) that adjoins the region of the center of the display unit (10) and extends in the direction of the edge of the display unit (10) and/or as far as the edge thereof.

A method, apparatus and computer program for producing driver information, where at least some of the driver information is produced in the form of haptic driver information on a control means of a vehicle, includes ascertaining a measure of a haptic contact between the driver of the vehicle and the control means for controlling the vehicle and producing the driver information based on the ascertained measure of the haptic contact between the driver and the control means on the control means as haptic driver information and/or producing auxiliary driver information that corresponds to the driver information and that is perceptible to the driver via a different perception channel.

A system for managing devices includes a portable device with a human-machine interface (HMI) controller having a first input receiving first input data, a movable portion having an adjustable haptic feedback mechanism and a plurality of tactile mechanisms, a second input disposed within the portable device, the second input generating second input data, a third input receiving the second input data from the second input, the third input providing access to a standardized function catalog on each of the devices based on the second input data, and based on the first input data received by the first input, the system selectively accesses a subset of the plurality of functions on each of the devices, and the haptic feedback mechanism and the plurality of tactile mechanisms access and select preferences within the plurality of functions on the devices.

A touch-sensitive surface is provided on an operator control device that includes a way to detect a force applied by a user to at least one area of the touch-sensitive surface. An actuator generates haptic feedback to the user when the force applied exceeds a threshold value. An evaluation unit of the operator control device determines a time-related gradient of the force and changes the threshold value of the force according to the time-related gradient.

In a display manipulation apparatus, a boundary line is defined around a detection target image to partition an inner area and an outer area. Under tracing manipulation in which a finger is moved continuously to trace two or more detection target images, in response to that a moving speed of the finger is equal to or less than a predetermined speed, a control circuit controls a vibration generator to be in an actuated state each time the finger passes through a position of the boundary line, whereas in response to that the moving speed is greater than the predetermined speed, the control circuit controls the vibration generator to be in a de-actuated state either (i) when the finger passes through a position of the boundary line and enters the inner area, or (ii) when the finger passes through a position of the boundary line and exits to the outer area.