The present invention relates to a watch-type electronic device and a manufacturing method therefor, the electronic device comprising: a main body including a display unit; a frame provided to the main body and having an upper surface, a lower surface formed to face the upper surface, and side surfaces formed so as to cover the upper surface and the lower surface; and a touch sensor formed on the frame, wherein the upper surface comprises: a planar part formed to be parallel to the lower surface; and a curved part formed so as to be inclined toward the end of the lower surface from an end portion of the planar part, the touch sensor is formed on the curved part so as to be spaced apart from the display unit, the display unit is placed on the planar part, the frame includes a laser direct structuring (LDS) material, and the touch sensor is formed of a metal thin film.

In exemplary implementations of this invention, a shape controller controls the shape of a bladder as the bladder inflates. The shape controller includes a first set of regions and a second set of regions. The second set of regions is more flexible than the first set of regions. The shape controller is embedded within, or adjacent to, a wall of the bladder. When the bladder is inflated, the overall shape of the bladder bends in areas adjacent to the more flexible regions of the shape controller. For example, the shape controller may comprise paper and the more flexible regions may comprise creases in the paper. Or, for example, the more flexible regions may comprise notches or indentations. In some implementations of this invention, a multi-state shape display changes shape as it inflates, with additional bumps forming as pressure in the display increases.

Methods, apparatuses, systems, and computer-readable media for integrating sensation functionalities into a mobile device using a haptic sleeve are presented. According to one or more aspects of the disclosure, a computing device may receive, via a haptic sleeve, sensation input captured by one or more haptic components of the haptic sleeve. Subsequently, the computing device may store haptic data corresponding to the received sensation input. For example, in storing such haptic data, the computing device may store information describing one or more electrical signals received via the one or more haptic components of the haptic sleeve during a period of time corresponding to a particular event, and this stored information may reflect various characteristics of the sensation input received by the computing device in connection with the particular event, such as the magnitude(s), position(s), duration, and/or type(s) of sensation(s) captured during the period of time.

Device especially for a display for visually impaired people and display including such a device. The device includes a tactile screen, especially for a display for visually impaired people, said screen including, on one of the edges thereof, a line of icons that each correspond to a piece of software. The surface of the said tactile screen is divided at least into as many columns as icons, and the device includes an element for determining the position of the finger of a user on said tactile screen in order to control the implementation of the software corresponding to the determined position of the user's finger.

An interface device for a computerised system, the interface device including an engagement element configured for operable engagement with a region on a touchscreen of the computerised system to enable interfacing with the computerised system via the touchscreen, wherein the engagement element includes a viewing surface configured to allow a representation of content that is displayed at the region on the touchscreen with which the engagement element is operably engaged, to be visible through the viewing surface.

One variation of a dynamic tactile interface for a computing device includes: a tactile layer defining a peripheral region and a deformable region adjacent the peripheral region; a substrate including a transparent base material exhibiting a first optical dispersion characteristic, coupled to the tactile layer at the peripheral region, defining a fluid conduit adjacent the peripheral region and a fluid channel fluidly coupled to the fluid conduit; a volume of transparent fluid contained within the fluid channel and the fluid conduit and exhibiting a second optical dispersion characteristic different from the first optical dispersion characteristic; a volume of particulate contained within the transparent base material of the substrate, biased around the fluid conduit, and exhibiting a third optical dispersion characteristic different from the first optical dispersion characteristic; and a displacement device displacing fluid into the fluid channel to transition the deformable region from a retracted setting into an expanded setting.

A tactile display device comprises a first electrode, a second electrode, supports between a first and a second electrodes, and an electroactive polymer filled between a supports.

A vehicle computing system may provide a vehicle safety warning in a vehicle, using a vehicle processor and a three dimensional accelerometer of the vehicle. A touch display may display windows with different vibrations to provide the vehicle safety warning. A vibration may vary in relation to data from the three dimensional accelerometer based on motion of the vehicle.

A haptic effect enabled device for simulating a tactile sensation on a surface. In some cases, the haptic effect enabled device may be a user interface device, and the tactile sensation may be simulated on a surface of the user interface device. The interface device may include a haptic output device configured to generate a haptic effect, such as a periodic haptic effect, at the surface. The interface device may include a drive module configured to generate a periodic drive signal based on a touch input at the surface of the interface device and based on the tactile sensation to be simulated at the surface. The interface device may include a drive circuit operatively coupled to the drive module and the haptic output device and configured to apply the periodic drive signal to the haptic output device. In some cases, the surface may be separate from the device.

The invention provides systems, devices and methods for improved guidance or assistance of data input into a touch screen enabled device such as a mobile phone, tablet, payment terminal etc. The invention is particularly beneficial for use in situations where visual observation of the screen is impaired or not possible, either because of a user's disability or environmental factors. One aspect the disclosure provides a data input assistance device comprising: a body for placement adjacent to a touch screen of an electronic device; at least one input zone provided in the body and arranged to facilitate a user to operate an area of the touch screen via contact with a surface of the screen; and at least one location indicator arranged to communicate, to a software component associated with the electronic device, the location of the input assistance device relative to the touch screen. The invention enables the provision of a virtual input arrangement such as a virtual pinpad, keyboard or keypad, at a location specified by a user. It also enables movement of the virtual input arrangement during use.