A wrist support apparatus (100) for computer work, includes: a main body (110) which is a frame; and a support member (120), wherein the main body (110) includes a bottom portion (113), and side portions (111) extending upward from both sides of the bottom portion (113) in the width direction and facing each other. The support member (120) includes a support main body (121) made of an extendable material. The support main body (121) extends along the outer surfaces of the bottom portion (113) and the both side portions (111), is spaced apart from the bottom portion (113) in the upward direction so as to extend in the width direction between the both side portions (111), and forms a closed loop.

A touch conductive facemask for touch screen devices includes a nonconductive facemask body comprising breathable material and having an inner surface facing a user when the facemask is worn and an outer surface facing away from the user. The facemask also includes a plurality of elastic straps coupled to the facemask body and configured to be placed around a head of the user. In addition, electrically conductive material such as conductive stitching or a conductive coating proximate a center portion of the facemask body passes from the inner surface to the outer surface of the facemask and is configured for bioelectricity from skin of the user that comes in contact with electrically conductive material on the inner surface to pass through to the outer surface to be sensed by a touch screen device.

A mouse pad with usable double surface includes a pad main body having a first pad plate and a second pad plate stacked on the first pad plate, and a thickness of the first pad plate is greater than a thickness of the second pad plate. Accordingly, two surfaces of the pad main body have different smoothness, and a user may freely choose the desired surface to use to increase the usable convenience of the mouse pad.

An input detection system includes a detection device including a plurality of sensor electrodes arrayed in a detection region, an input support device including an LC circuit, a first electrode coupled to one end side of the LC circuit, and a second electrode coupled to another end side of the LC circuit, and a control circuit including a drive signal supply circuit supplying a drive signal to the sensor electrodes and an adjustment circuit coupled to the sensor electrodes. The adjustment circuit adjusts a circuit constant that is added to a capacitance between the sensor electrode and the first electrode or the second electrode facing the sensor electrode.

Various systems, methods and apparatus are described, such as for engaging a touchscreen user interface. A first example includes a multi-function transceiver device having comprehensive and scalable mapping capabilities for use in a control environment. A second example includes a or the multi-function transceiver device being further equipped to perform specialized functions, such as Internet-based information-kiosk-type function(s). A third example includes a or the multi-function transceiver device, which may be Internet-connected, capable of being wirelessly and remotely controlled by a user via an app (e.g., via a teleoperation comprising a tablet, smartphone or mobile device (having said app)). A fourth example includes an apparatus performing one or a series of mechanical gestures (mechanical touch-induced control operations—such as single-touch, multi-touch, etc.) on a display screen and/or a user interface (UI). A fifth example includes technology that can turn any surface into touch-enabled controls for (wirelessly) controlling UIs, apps, etc. These are just some examples (as non-limiting embodiments).

Various systems, methods and apparatus are described for actuating a touchscreen user interface. A first exemplification comprises an intermediary-transceiver or mediating device; wherein said device is wirelessly capable of providing a scalable mapping interface to a touchscreen user environment. A second exemplification includes one or more conductive interfaces that are operatively coupled with a touchscreen device using at least one of a wireless interface and a conductive actuator at endpoint. Beyond the first and second exemplification above, other exemplary control modalities are also advanced and embodied by the inventor of the present invention.

A system that incorporates the subject disclosure may include, for example, a processor that performs operations including detecting a first depression range of a button that includes an electro-mechanical sensor for detecting the first depression range, comparing the first depression range to a first actuation threshold, and asserting a first actuation state when the first depression range is at or exceeds the first actuation threshold. Additional embodiments are disclosed.

Disclosed is an arrangement for detection by a touch-sensitive sensor matrix, comprising an electrically conductive structure, the structure having an annular touch surface and a marker, and an electrically insulating substrate material on which the structure is applied or in which the structure is embedded. Also disclosed is a method for detecting the arrangement on a touch-sensitive sensor matrix, a method for manufacturing the arrangement, a method for manufacturing a group of arrangements, and a system comprising the arrangement.

A system for tracking one or more peripherals operable by a user in a real environment includes: a camera, mountable upon the user, operable to capture images of the real environment, a feature identification unit operable to identify features in images belonging to a first set of images captured by the camera, a peripheral identification unit operable to identify the image position of one or more peripherals in one or more images belonging to a second set of images captured by the camera, and a position determining unit operable to generate first position information for the camera in the real environment in dependence upon one or more of the identified features, and to generate respective second position information for the one or more peripherals relative to the camera in dependence upon the identified image position of the one or more peripherals. The first set of images and the second set of images captured by the camera are interleaved such that groups of one or more images from each set are captured in turn, and the position determining unit is operable to generate third position information identifying the position of the one or more peripherals in the real environment by combining the second position information corresponding to a given group of images in the second set of images with a function of the first position information corresponding to a group of images in the first set of images preceding the given group of images and the first position information corresponding to a group of images in the first set of images following the given group of images.

A system for tracking one or more peripherals operable by a user in a real environment includes: a camera, mountable upon the user, operable to capture images of the real environment, a feature identification unit operable to identify features in images belonging to a first set of images captured by the camera, a peripheral identification unit operable to identify the image position of one or more peripherals in one or more images belonging to a second set of images captured by the camera, and a position determining unit operable to generate first position information for the camera in the real environment in dependence upon one or more of the identified features, and to generate respective second position information for the one or more peripherals relative to the camera in dependence upon the identified image position of the one or more peripherals. The first set of images and the second set of images captured by the camera are interleaved such that groups of one or more images from each set are captured in turn, and the position determining unit is operable to generate third position information identifying the position of the one or more peripherals in the real environment by combining the second position information corresponding to a given group of images in the second set of images with a function of the first position information corresponding to a group of images in the first set of images preceding the given group of images and the first position information corresponding to a group of images in the first set of images following the given group of images.