A reading device according to an embodiment includes a scanner configured to read code information indicated by a code symbol, a holder configured to detachably hold the scanner, a detecting unit configured to detect a first state in which the scanner is held by the holder and a second state in which the scanner is detached from the holder, and a setting-condition changing unit configured to, if the detecting unit detects the second state, set setting conditions relating to the reading by the scanner such that a reading distance of the scanner is shorter than the reading distance in the first state.

A reading device according to an embodiment includes a scanner configured to read code information indicated by a code symbol, a holder configured to detachably hold the scanner, a detecting unit configured to detect a first state in which the scanner is held by the holder and a second state in which the scanner is detached from the holder, and a setting-condition changing unit configured to, if the detecting unit detects the second state, set setting conditions relating to the reading by the scanner such that a reading distance of the scanner is shorter than the reading distance in the first state.

The described mobile device for optically reading a machine-interpretable code, used for example in an order picking system for consumer and/or consumable goods, includes a head-mountable scanner with a code reader and a control unit controlling the head-mounted scanner to switch the code reader between a detection mode and a reading mode. In the detection mode, the code reader operates in a low power mode sufficient to detect the presence of a machine-interpretable code. The control unit switches the code reader into the higher-powered reading mode when the code is detected to optically read the code. A wireless communication device may also be provided to wirelessly transmit information corresponding to the scanned code to a remote receiving unit for storage and/or data processing.

Disclosed are a method and terminal for scanning. The method for scanning of the terminal, provided by the embodiments of the present disclosure, includes: monitoring whether the terminal opens a bar code identification function or not; if monitoring that the bar code identification function of the terminal is opened, scanning a bar code by utilizing an edge touch area of the terminal; and executing a corresponding operation according to the scanned bar code. The technical solution provided by the embodiments of the present disclosure is used for solving the problems that long time consumption and low bar code scanning efficiency existed in the prior art, which is caused by the bar code being scanned using the camera, the camera needs to be focused first and then the bar code is acquired.

An asset movement and localization system deploys gateways to communicate with transmitters that are attached to an asset. The transmitters communicate with the system to provide the location of the asset. The system uses the location to determine if the asset is in the proper or desired location for a process or for presentation.

A method of automatically triggering scanning operation through specific motion includes steps as follows. A specific motion trajectory of a scanning device is sensed to determine whether the scanning device is moved along a predetermined path. If so, an image sensor of the scanning device is switched on. A determination is made as to whether the scanning device is moved down to a lower position. If so, the image sensor of the scanning device is switched off.

A method of automatically triggering scanning operation through specific motion includes steps as follows. A specific motion trajectory of a scanning device is sensed to determine whether the scanning device is moved along a predetermined path. If so, an image sensor of the scanning device is switched on. A determination is made as to whether the scanning device is moved down to a lower position. If so, the image sensor of the scanning device is switched off.

A system includes a plurality of lighting devices connected in a network to communicate in a service area, and a smart tag configured to communicate with one or more of the lighting devices. Each respective lighting device is configured to transmit a radio frequency signal including a device identifier of the respective lighting device. In response to expiration of a time period or an occurrence of an event, the smart tag is configured to transition from a low power consumption sleep mode to an awake mode. During the awake mode, the smart tag is configured to provide information that enables a processor or other computing device to determine a position of the smart tag or any asset associated with the smart tag in the service area. Upon transmission of the information, the smart tag is transitioned from the awake mode back to the low power consumption sleep mode.

An asset movement and localization system deploys gateways to communicate with transmitters that are attached to an asset. The transmitters communicate with the system to provide the location of the asset. The system uses the location to determine if the asset is in the proper or desired location for a process or for presentation.

An apparatus includes a distance sensor, an image sensor, one or more processors, and memory. The memory stores one or more programs configured for execution by the one or more processors. The apparatus measures a baseline depth. The apparatus measures a first depth subsequent to measuring the baseline depth. The apparatus determines that the first depth is different from the baseline depth. In response to the determination, the apparatus activates a read cycle. Subsequent to activating the read cycle, the apparatus measures a second depth. The apparatus detects that the second depth is within a threshold range of the baseline depth. In response to the detection, the apparatus deactivates the read cycle.