A foldable sales terminal includes at least one sale operation interface and a mainframe module. The sale operation interface is a flat panel, and the outward surface thereof is provided with a touch display panel. The sale operation interface is connected to the mainframe module via a pivot connection portion. The mainframe module is provided with a mainboard disposed therein and one side, away from the pivot connection portion, of the mainframe module has an output/input connection port, so that the sale operation interface and the mainframe module can rotate relative to each other to change the angle therebetween, allow the sale operation interface fold to cover inward the mainframe or open outwards far away from the mainframe. The design is simple and effective, such that the sales terminal can be folded to reduce the volume thereof for conveniently packaging, storing, carrying, and transporting the sales terminal.

The disclosed embodiments include wearable devices and methods for performing courier services. In one implementation, the device includes a depth camera for detecting object depths in a field of view, a scanner for decoding visual codes, a speaker for producing audible sounds in response to an electrical signal, memory, and a processor. The processor may execute instructions to detect a scanning event based on a first signal received from the depth camera, determine a scan region associated with the scanning event, provide a second signal to the scanner causing the scanner to decode a visual code located within the scan region, generate scan data based on a third signal received from the scanner, and provide a fourth signal to the speaker causing the speaker to emit a notification sound. The wearable device may also capture signatures, dimension objects, and disable device functions based on time and place restrictions.

The disclosed embodiments include wearable devices and methods for performing courier services. In one implementation, the device includes a depth camera for detecting object depths in a field of view, a scanner for decoding visual codes, a speaker for producing audible sounds in response to an electrical signal, memory, and a processor. The processor may execute instructions to detect a scanning event based on a first signal received from the depth camera, determine a scan region associated with the scanning event, provide a second signal to the scanner causing the scanner to decode a visual code located within the scan region, generate scan data based on a third signal received from the scanner, and provide a fourth signal to the speaker causing the speaker to emit a notification sound. The wearable device may also capture signatures, dimension objects, and disable device functions based on time and place restrictions.

An electronic device includes a display module including: a housing; a display including a first panel including a first surface, a second surface opposite the first surface, and a plurality of pixels interposed between the first surface and the second surface; a cover layer disposed on the first surface of the first panel; a second panel disposed on the second surface of the first panel; and a sensor coupled to the second surface of the first panel to provide a sensing area on the one surface of the housing.

The disclosed embodiments include wearable devices and methods for performing courier services. In one implementation, the device includes a depth camera for detecting object depths in a field of view, a scanner for decoding visual codes, a speaker for producing audible sounds in response to an electrical signal, memory, and a processor. The processor may execute instructions to detect a scanning event based on a first signal received from the depth camera, determine a scan region associated with the scanning event, provide a second signal to the scanner causing the scanner to decode a visual code located within the scan region, generate scan data based on a third signal received from the scanner, and provide a fourth signal to the speaker causing the speaker to emit a notification sound. The wearable device may also capture signatures, dimension objects, and disable device functions based on time and place restrictions.

Disclosed is an electronic device. An electronic device according to various embodiments may include: a housing including a front face and a rear face opposite the front face; a transparent plate defining the front face of the housing; a display panel disposed below the transparent plate; a fingerprint sensor disposed between the display panel and the rear face of the housing and configured to acquire biometric information about an external object that is within a specified proximity of the transparent plate; and a conductive pattern disposed adjacent to the fingerprint sensor and configured to detect whether the external object is within a specified proximity of the fingerprint sensor.

A device having a fingerprint reader and a first heart rate monitor which are co-located such that a person's heart rate is obtained at the same time as this fingerprint. The device is integral to yet another heart rate monitor for monitoring the performance of the person in exercise. The readings of the other heart rate monitor correlates to the readings of the first heart rate monitor if the person whose fingerprint is read is the same person wearing the second heart rate monitor, in which case the fingerprint is deemed acceptable for identifying the person. Other biometric identification besides fingerprint can be used such as iris recognition.

Disclosed herein are system, method, and computer program product embodiments for a cloud-based point-of-sale system and a multi-function point-of-sale (POS) device. In an embodiment, the POS device includes an interactive display that switches between a first position oriented towards and for use by an operating clerk, and a second position oriented towards and for use by a customer. The POS device is able to detect the switch between the first position and the second position. A processor in the POS device outputs a first graphical user interface (GUI) on the interactive display in response to detection of the first position and a second GUI in response to detection of the second position. In an embodiment, the components of the POS device are combined together in a unified assembly.

A device having a fingerprint reader and a first heart rate monitor which are co-located such that a person's heart rate is obtained at the same time as this fingerprint. The device is integral to yet another heart rate monitor for monitoring the performance of the person in exercise. The readings of the other heart rate monitor correlates to the readings of the first heart rate monitor if the person whose fingerprint is read is the same person wearing the second heart rate monitor, in which case the fingerprint is deemed acceptable for identifying the person. Other biometric identification besides fingerprint can be used such as iris recognition.

An image forming apparatus includes a rotatable operation portion including a switchable display screen portion, a frame holding the display screen portion; a light-emitting diode to light up, flashes, or turns off; a light source substrate provided with the light emitting diode; a light guide member which is fixed to an edge on a front side of the main assembly with respect to the display screen portion and which is provided with an emission opening through which the light emitted by the light emitting diode is directed to an outside. The light guide member is fixed such that a plane of the light emission opening of the light guide member is within a range of 45°±15° with respect to the display screen portion. The emission opening of the light guide member faces the light emitting surface of the light emitting diode.