According to a first aspect of the present disclosure, an electronic tamper detection device is provided, comprising a tamper loop and a deformable component, wherein a deformation of said component indicates that the tamper loop has been broken. According to a second aspect of the present disclosure, a corresponding method of producing a tamper detection device is conceived.

A seal assembly for a container includes a locking assembly and a gateway. The locking assembly includes a body and an elongated cable. The elongated cable extends from a proximal end to a distal end. The proximal end is restrained by the body. The distal end is movable from an unlocked position spaced from the body to a locked position restrained by the body. The gateway is configured for selectively interlocking with the locking assembly. The gateway includes a power supply, a radio communication device, a sensor, and a processor electrically coupled therewith. The processor is configured to operate the radio communication device to transmit a first signal upon detection by the sensor of interlocking of the gateway with the locking assembly, and to transmit a second signal upon detection by the sensor that the elongated cable has been cut. Locking assemblies, gateways, devices and methods are also provided.

The disclosed embodiments provide a method for tamper-evident shipment or storage of goods. An Electrical Shield pattern is embedded in or printed on a substrate with other electrical, optical, and electronic components, communication components, semiconductors, which are attached or printed on a substrate to form a shipment bag used as a shipping container. The shield pattern can be made variable between different bags by using algorithms entered into a printer control system. The shipment bag with its components can then be assigned a unique signature which differentiates each bag. Application of encryption methods serves to guarantee the shipped goods are authentic and that were not tampered with during shipment. Digital signal processing is used to generate pedigree information, which may include items such as shipping location, serial numbers, sensor information, and lot numbers for the goods. The information related to the history of tampering attempts and other sensor status can be placed in encrypted form in an RFID tags or control or monitoring electronics which can be read by a mobile phone application or sent to a remote cloud-based server.

There is disclosed an electronic article surveillance label and a cover label for an electronic article surveillance label for small high value hard goods such as, but no limited to, cosmetics, perfumes, medication, health-care items, DIY accessories and the like. The electronic article surveillance label and cover label include a flexible support having a bottom section with a soft glue area and a top section with a strong glue area.

The invention relates to a device for administering a medicament, comprising a first appliance part; at least a second appliance part, which can be moved from a first state to at least a second state relative to the first appliance part before, during or after administration; an activatable identification element having a carrier; a RFID circuit with an antenna port and at least one signal terminal; at least one sensor which comprises at least two operatively linked sensor elements; at least one sensor element being connected to the at least one signal terminal, as well as an antenna which is connected to the antenna port. According to the invention, the carrier receives or connects the RFID circuit, the antenna and the at least one sensor element, wherein at least a region or section of the carrier is connected at least to the first appliance part.

A smart label including a communication device and a continuity sensor, and methods of manufacturing and using the same, are disclosed. The smart label includes a substrate having a preferential tearing direction, an antenna or display, an integrated circuit, and a sensing line configured to sense or determine a continuity state of a container on which the communication device is placed or to which the communication device is fixed or adhered. The sensing line has at least one section oriented perpendicularly or substantially perpendicularly to the preferential tearing direction of the substrate. The antenna is configured to receive a first wireless signal and/or transmit or broadcast a second wireless signal. The communication device (or integrated circuit) may further include a receiver and/or transmitter, in which case the integrated circuit may be configured to process the first wireless signal and/or information therefrom and/or generate the second wireless signal and/or information therefor. Alternatively, the smart label may include a display (and optionally a battery) instead of the antenna. The display may be configured to display the continuity state of the container.

According to a first aspect of the present disclosure, an electronic tamper detection device is provided, comprising a radio frequency antenna, a tamper loop, a power level determination unit and a tamper measurement unit, wherein: the power level determination unit is configured to determine a power level of the tamper detection device; the tamper measurement unit is configured to generate a measurement signal and to transmit said measurement signal through the tamper loop; the tamper measurement unit is further configured to adapt the measurement signal in dependence on the power level. According to a second aspect of the present disclosure, a corresponding tamper detection method is conceived. According to a third aspect of the present disclosure, a corresponding non-transitory computer-readable storage medium comprising instructions is provided.

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.

A safety lock (100) comprising a transponder (1) and a shackle (2). The transponder (1) comprises an inlay (10) including an IC (13) and antenna coupling elements (14). The inlay (10) is arranged in a base member (8). The safety lock (100) further comprises a housing (6), wherein the base member (8) comprises a reduction zone (9) the mechanical strength of which is reduced compared to portions of the base member (8) next to said reduction zone (9). The reduction zone (9) is arranged under the IC (13) and/or the antenna coupling elements (14) of the inlay (10). The force striving the shackle (2) from the locked state to the open state is arranged to being transmitted to the reduction zone (9).

An improved method for molding a plastic container within a mold including an RFID tag to generate a container which leaves a mold having an RFID tag bonded between the container and a label. This method provides for an improved integrally, extrusion blow molded container, label and RFID tag combination.