The present invention relates to an electronic label with a burglarproof function for goods which includes a coupling structure having a ring form directly hung on a product and in which another coupling structure having the ring form is used in place of the coupling structure even when the coupling structure having the ring form is damaged.

The present invention comprises a plug-bolt set with a circuit board and a detection antenna on a bolt-piece and a lock-seat set with a main antenna. The circuit board is set with a chip, a main circuit, and a secondary circuit. When the lock-seat and the bolt-piece are engaged and locked; the chip, the main circuit, and the main antenna are electrically connected to emit a first signal for providing the identification host to monitor, and controlling the secondary circuit to be electrically connected with the chip and the detection antenna to emit a second signal. The second signal can be used for the mobile phone software to do the quality control of the first signal. The first and second signals can be cut-off simultaneously when the plug-bolt is broken. This allows the end customer to do the actual test and quality control using the mobile phone.

Features are disclosed for sealing system which is dynamically activated based on a vehicle's location within a geofence via a custom access application. Mobile application features are provided to securely adjust the seal state. Requests to change state are verified against location permissions indicating time or place where the seal may be disabled. The requests may also include specific a code known only to system users for authenticating requests.

The present invention comprises a plug-bolt set with a circuit board and a detection antenna on a bolt-piece and a lock-seat set with a main antenna. The circuit board is set with a chip, a main circuit, and a secondary circuit. When the lock-seat and the bolt-piece are engaged and locked; the chip, the main circuit, and the main antenna are electrically connected to emit a first signal for providing the identification host to monitor, and controlling the secondary circuit to be electrically connected with the chip and the detection antenna to emit a second signal. The second signal can be used for the mobile phone software to do the quality control of the first signal. The first and second signals can be cut-off simultaneously when the plug-bolt is broken. This allows the end customer to do the actual test and quality control using the mobile phone.

A sensor tag for attachment to at least a portion of a tracked container is disclosed. The sensor tag comprises a wireless transceiver, a logistics sensor, a power source, and a breakable link. The wireless transceiver reports an electronic identifier for the sensor tag. The power source provides power to the sensor tag. The breakable link removably attaches to the container. Removal of the sensor tag from the tracked container is determined with data from the logistics sensor. The removal of the sensor tag is reported by the wireless transceiver away from the sensor tag.

The present disclosure relates to a sealing device (10) for a container. The sealing device comprises a housing (12) housing an integrated circuit (14). A locking member (16) is slidably attached to the housing (12) and includes an electrical conductor (19) embedded therein. The electrical conductor (19) and the integrated circuit (14) form an RFID circuit when the locking member (16) is in a locking position. The electrical connection between the electrical conductor (19) and the integrated circuit (14) is broken when the locking member (16) is cut or forcibly removed from the housing (12) and cannot be re-established. In this manner, a manipulation of the sealing device (10) can be reliably prevented.

Systems and methods for a tamper-evident cargo container seal bolt lock are disclosed herein. The device can include a bolt member having a conductive medium running the axial length of the bolt, and a receiving member for locking the bolt into place. A battery-driven sensory circuit including a memory means, a processor, and a timing circuit can be disposed within the receiving member such that a continuous circuit is formed from one circuit pin over the conductive medium through the length of the bolt and back to a second pin. The sensory circuit is configured to sense whether the circuit has been interrupted (e.g., if the bolt has been cut). In the event of an interruption, the circuit can record the time and/or date in memory. This information can then be transmitted to an RFID reader/interrogator if a dispute arises as to when the lock had been broken.

An electronic bolt seal assembly for locking a hasp of a cargo container, the assembly comprising: a bolt member comprising a head and an elongate shank extending therefrom; a locking body with a housing comprising a cavity for engaging the shank of the bolt member such that during use in a locking configuration the locking body is operable to lock the shank to the locking body in response to axial displacement of the shank within the housing; an electronic module arranged at or adjacent the head in a housing, the electronic module having one or more tracking and communication devices and an electronic circuit to communicate the electronic bolt seal assembly's location to a remote communication center wherein the one or more sensors further comprise an accelerometer for sensing movement and orientation of the bolt member.

A sensor tag for attachment to at least a portion of a tracked container is disclosed. The sensor tag comprises a wireless transceiver, a logistics sensor, a power source, and a breakable link. The wireless transceiver reports an electronic identifier for the sensor tag. The power source provides power to the sensor tag. The breakable link removably attaches to the container. Removal of the sensor tag from the tracked container is determined with data from the logistics sensor. The removal of the sensor tag is reported by the wireless transceiver away from the sensor tag.

The disclosed embodiments provide a method for tamper-proof protection of containers used for shipment of goods. An optical fiber is embedded in an Optical Shield Wallpaper which lines all interior surfaces of any size of a shipping container, package, box, barrel or other shaped container. Wallpaper is manufactured using large scale rollers that press fibers with encapsulated adhesives onto an appropriate medium. Small medicine containers are protected with a fiber optic shield and sensors manufactured using ink jet printing techniques. Light is applied to the optical fiber and a measurement of optical fiber characteristics is performed. Digital signal processing is used to generate pedigree information, which may include items such as shipping location, serial numbers and lot numbers for the goods. The status of the autonomous anti-tampering system is monitored real-time for unauthorized intrusions. Intrusions detected are relayed to an authorized recipient via a variety of communication channels.