Disclosed are a portable read-write pen and a control method for a portable read-write pen. The control method for a portable read-write pen includes the following steps: step S1 of detecting a state of a pen point of the portable read-write pen; and step S2 of controlling, according to the state of the pen point of the portable read-write pen, the portable read-write pen to enable a touch-read mode or a write-record mode.

Systems and methods for a machine-readable symbol reader that includes a scan engine, a finger mount, and a wrist mount. The scan engine couples to and moves with the finger mount, which is sized and dimensioned to accommodate at least a portion of one or more fingers. The wrist mount accommodates at least a portion of a wrist and releasably secures the wrist mount to the wrist. The wrist mount includes an electrical interface to a power source. A flexible substrate extends between the finger mount and the wrist mount, and may carry one or more electrically conductive paths that extend between the wrist mount and at least one of the finger mount and the scan engine to provide power from the power source to the scan engine. The finger mount may include a user input device to trigger the scan engine to scan within the field of view.

An electronic garment (1) with a textile element (3), in particular a glove, a hand cover, a gauntlet or the like, and with a first hook-and-loop fastener member firmly connected to the textile element (3), preferably in the form of a loop strip (11), and with an electronic unit (4), wherein the electronic unit (4) comprises a reading unit (6) for reading a code, wherein the electronic unit (4) comprises a trigger (7), wherein the trigger (7) is electrically connected to the reading unit (6) via an electric line (8), wherein the reading unit (6) for reading the code starts upon actuation of the trigger (7), wherein the electronic unit (4) comprises a second hook-and-loop fastener part, preferably in the shape of a hook strip (12), wherein, in a working position (9), the hook strip (12) is firmly connected to the loop strip (11) and thus, the electronic unit (4) is firmly connected to the textile element (3), and wherein, in a pause position (10), the hook strip (12) is detached from the loop strip (11) and thus, the electronic unit (4) is separated from the textile element (3).

The present invention proposes a dot pattern on which code information and x and y coordinate information can be defined even if the dot pattern is extremely small, and proposes an information reproducing method and an information reproducing device based on the dot pattern. More specifically, a medium such as a printed material on which is formed a dot pattern portion by arranging in accordance with a given rule dots generated by a dot code generating algorithm in order to recognize various kinds of multimedia information is scanned as image data by scanning means. Then, the image data is converted into code data. Multimedia information corresponding to the code data is read out of storing means to be reproduced.

Systems and methods for a machine-readable symbol reader that includes a scan engine, a finger mount, and a wrist mount. The scan engine couples to and moves with the finger mount, which is sized and dimensioned to accommodate at least a portion of one or more fingers. The wrist mount accommodates at least a portion of a wrist and releasably secures the wrist mount to the wrist. The wrist mount includes an electrical interface to a power source. A flexible substrate extends between the finger mount and the wrist mount, and may carry one or more electrically conductive paths that extend between the wrist mount and at least one of the finger mount and the scan engine to provide power from the power source to the scan engine. The finger mount may include a user input device to trigger the scan engine to scan within the field of view.

This present invention discloses an optical mouse and a parameter calibration method thereof. The optical mouse includes: a light source, an image capturing unit, a memory unit and a processing unit, and the parameter calibration method of the optical mouse includes: capturing images formed by the reflective light projected from the mouse pad when the optical mouse is placed upon the mouse pad and has a relative displacement between the mouse pad, and then producing image frames according to the images; determining if any pattern information is found in the image frames; further, setting parameters of the optical mouse when at least one of the pattern information is found in the frames, in which, the pattern information is composed of a pattern of the mouse pad.

The present invention proposes a dot pattern on which code information and x and y coordinate information can be defined even if the dot pattern is extremely small, and proposes an information reproducing method and an information reproducing device based on the dot pattern. More specifically, a medium such as a printed material on which is formed a dot pattern portion by arranging in accordance with a given rule dots generated by a dot code generating algorithm in order to recognize various kinds of multimedia information is scanned as image data by scanning means. Then, the image data is converted into code data. Multimedia information corresponding to the code data is read out of storing means to be reproduced.

A surgical robot arm (10) comprises a mounting portion (18). The mounting portion (18) comprises a reader (20) configured for reading location identifiers (26). The mounting portion (18) fits into a socket (22) comprising a location identifier (26). A signal output from the reader (20) allows determination of the location of the robot arm (10).

This present invention discloses an optical mouse and a parameter calibration method thereof. The optical mouse includes: a light source, an image capturing unit, a memory unit and a processing unit, and the parameter calibration method of the optical mouse includes: capturing images formed by the reflective light projected from the mouse pad when the optical mouse is placed upon the mouse pad and has a relative displacement between the mouse pad, and then producing image frames according to the images; determining if any pattern information is found in the image frames; further, setting parameters of the optical mouse when at least one of the pattern information is found in the frames, in which, the pattern information is composed of a pattern of the mouse pad.

A method and apparatus for capturing an image of at least one object appearing in a field of view (FOV). A housing may be provided having an image sensor at least partially disposed therein. The imaging sensor has a central imaging axis. A first and a second aim line unit are each offset from the image sensor. The first aim line unit is oriented to project a first bounded light pattern that intersects the central imaging axis at an imaging plane. The second aim line unit is oriented to project a second bounded light pattern that intersects the first light pattern and the central imaging axis at the imaging plane.