In aspects of object tracking based on UWB tags, a system includes ultra-wideband (UWB) tags located for association with respective objects in an environment, where each UWB tag is identified with a digital label indicative of the association with one or more of the objects. A tracking service is implemented to receive initial location data for the objects from each of the UWB tags that are associated with the objects, and generate an object identity database in which each of the objects are identified by their respective initial location data. The tracking service can monitor for movement of an object that is identified by the initial location data based on subsequent positioning data associated with the object. The movement of an object is monitored for an unauthorized relocation of the object, for a cluster of multiple objects moving together, and/or for an abnormal proximity of multiple objects in the environment.

Embodiments described herein relate to an anti-theft device. Some embodiments comprise a cover seat which is provided with an acoustomagnetic coil and a circuit board and formed with a guide slot, an arm hook which is a curved hook and has a long arm movably inserted into the guide slot, a plug which is mounted on the cover seat and used to lock the arm hook in a moving state, and a cable which is mounted at one end of the cover seat, penetrates through a YETI® vacuum cup and is electrically connected to the circuit board, wherein a monitoring assembly for protecting the tag against damage is mounted on the tag and comprises a Hall® switch arranged on the circuit board and magnetic steel arranged on a short arm of the arm hook.

Embodiments described herein relate to an anti-theft device. The anti-theft device may comprise an arm hook which has a long arm movably inserted into a guide slot, a cable which penetrates through a vacuum cup and is electrically connected to a circuit board, and a monitoring assembly for protecting the anti-theft device against damage is mounted on the anti-theft device and comprises a switch arranged on the circuit board and magnetic steel arranged on a short arm of the arm hook.

Embodiments described herein relate to an anti-theft device. Some embodiments comprise a cover seat which is provided with an acoustomagnetic coil and a circuit board and formed with a guide slot, an arm hook which is a curved hook and has a long arm movably inserted into the guide slot, a plug which is mounted on the cover seat and used to lock the arm hook in a moving state, and a cable which is mounted at one end of the cover seat, penetrates through a YETI® vacuum cup and is electrically connected to the circuit board, wherein a monitoring assembly for protecting the tag against damage is mounted on the tag and comprises a Hall® switch arranged on the circuit board and magnetic steel arranged on a short arm of the arm hook.

Example implementations include a method, apparatus, and computer-readable medium for electronic article surveillance (EAS), comprising transmitting an acousto-magnetic (AM) interrogation signal into an AM interrogation zone of an EAS system. The AM interrogation zone and a wireless communication zone overlapping to form a zone of interest. The wireless communication zone employing a wireless communication technology other than AM. Indicating, by the EAS system, a presence of a first tag of the EAS system in the zone of interest upon a concurrent detection of both i) a response signal of the first tag via the wireless communication technology and ii) an AM response signal of the first tag in response to the AM interrogation signal.

Embodiments described herein relate to an anti-theft device. Some embodiments comprise a cover seat which is provided with an acoustomagnetic coil and a circuit board and formed with a guide slot, an arm hook which is a curved hook and has a long arm movably inserted into the guide slot, a plug which is mounted on the cover seat and used to lock the arm hook in a moving state, and a cable which is mounted at one end of the cover seat, penetrates through a YETI® vacuum cup and is electrically connected to the circuit board, wherein a monitoring assembly for protecting the tag against damage is mounted on the tag and comprises a Hall® switch arranged on the circuit board and magnetic steel arranged on a short arm of the arm hook.

Example implementations include a method, apparatus, and computer-readable medium for electronic article surveillance (EAS), comprising transmitting concurrently, an acousto-magnetic (AM) interrogation signal into an AM interrogation zone of an EAS system, and a radio frequency identification (RFID) interrogation signal into an RFID interrogation zone of the EAS system, the AM interrogation zone and the RFID interrogation zone overlapping to form a zone of interest. The implementations further include indicating, by the EAS system, a presence of a first tag of the EAS system in the zone of interest upon a concurrent detection of both an RFID response signal of the first tag in response to the RFID interrogation signal and an AM response signal of the first tag in response to the AM interrogation signal.

Example implementations include a method, apparatus, and computer-readable medium for electronic article surveillance (EAS), comprising transmitting concurrently, an acousto-magnetic (AM) interrogation signal into an AM interrogation zone of an EAS system, and a radio frequency identification (RFID) interrogation signal into an RFID interrogation zone of the EAS system, the AM interrogation zone and the RFID interrogation zone overlapping to form a zone of interest. The implementations further include indicating, by the EAS system, a presence of a first tag of the EAS system in the zone of interest upon a concurrent detection of both an RFID response signal of the first tag in response to the RFID interrogation signal and an AM response signal of the first tag in response to the AM interrogation signal.

A device (10, 100) for handling and/or machining a workpiece (1) having a non-metal surface, comprising: a workpiece identification device (20) which is designed to irradiate electromagnetic radiation inside the workpiece (1) and to receive electromagnetic radiation reflected from the inside of the workpiece (1); and a data processing unit (30) which is configured to determine information from the inside of the workpiece (1) on the basis of measured data of the reflected electromagnetic radiation. Also disclosed is a method with which it is possible to determine a characteristic material parameter, preferably a component-specific reflection value of the workpiece (1), on the basis of the received electromagnetic radiation.

The present disclosure discloses an acousto-magnetic (AM) anti-theft marker and use thereof. The AM anti-theft marker includes at least one resonator(s), where when the resonator(s) does not include cobalt, a weight percentage of nickel is 0 wt % to 39 wt %; or when the resonator(s) includes cobalt, a total weight percentage of nickel and cobalt is higher than 0 wt % and no more than 36 wt %. Although this AM anti-theft marker's resonator(s) of the present disclosure does not include or only includes a very small amount of nickel and cobalt, it still has good alarm performance; and the existing detectors can effectively detect the AM anti-theft marker of the present disclosure within a predetermined security alarming distance. It can be seen that this AM anti-theft marker has a commercial value, and can reduce the loss prevention cost of business and the consumption of earth resources.