The invention relates to a label comprising an electronic chip for applying to a bottle of liquid, said label comprising; a first layer (S), called a support layer (S), a second layer (E), called an electronic chip layer (E), comprising at least an electronic chip and an antenna connected to the electronic chip, and a third layer (P), called customization layer (P), in which each layer (S, E, P) has two faces, and the three layers (S, E, P) are placed one above the other in a stacking direction, and in which the customization layer (P) comprises at least one sublayer (C5), called metal sublayer (C5), made of a metal material, the thickness of the metal sublayer (C5) along the stacking direction being less than or equal to 35 m.

A transaction card includes an anodized card body having a front and rear face. Various information and security features may be provided on the front face and on the rear face. A magnetic stripe may be provided on the rear face of the anodized card body. The magnetic stripe may be adhered within a slot formed within the rear face of the anodized body. Alternatively, the magnetic stripe may be provided via an overlay that is adhered to the rear face of the anodized body, and the magnetic stripe may be integral with the overlay or adhered to the overlay after the overlay is applied to the anodized card body. The transaction card may also include a hologram. The hologram may be integral with the overlay or may be applied to the overlay that has been arranged on the anodized card body.

Smart processing devices and systems for controlling functionality of smart processing devices are provided. In some examples, a smart processing device may include a central segment and a plurality of removable segments. The removable segments may be connected to the central segment in a plurality of different configurations. In some examples, each configuration may enable or disable functionality associated with the smart processing device. Further, a system may receive data associated with a current physical configuration of a smart processing device. The current physical configuration data may be compared to pre-stored configuration data in order to identify one or more functions to be enabled or disabled for the smart processing device. The system, computing platform, or the like, may generate an instruction, command or signal enabling or disabling functionality and may transmit the signal to the smart processing device for execution and control of functions provided by the smart processing device.

An object processing machine for processing a plurality of objects, the machine comprising: a plurality of processing modules, each processing module having a modular structure co-operable with the modular structure of another processing module to form a modular assembly constituting the object processing machine; each processing module being operable to perform a corresponding processing operation on an object and being provided with at least one transfer unit located at a respective port of the processing module; each transfer unit being arranged to transfer an object to or from the corresponding processing module and/or to or from a transfer unit of another processing module of the modular assembly; the transfer units being arranged to co-operate with one another and/or with another processing unit such that objects can be guided from an input of the machine to an output of the machine via a plurality of different transport pathways through the machine, wherein the transport pathway taken by a said object being processed corresponds to the pre-determined processing operations to be performed on the said object. A method of processing a plurality of objects using such a machine is also described.

In one embodiment the present invention comprises a smartphone and encoders for commissioning RFID transponders. The present invention further includes novel systems, devices, and methods for commissioning RFID transponders with unique object class instance numbers without requiring a realtime connection to a serialization database.

Aspects described herein may allow for prompting a user to access an on-line tool to create an identification element to be added to an exterior surface of a personal card. A server device may prompt the user to select a location for the identification element from a plurality of pre-selected locations on the personal card, each of the plurality of pre-selected locations being proximate edges of the personal card and outward of any of magnetic strips, chips, text, photos, and images on the personal card. The server device may modify an exterior surface of the personal card to include the identification element at the selected location, and deliver the personal card to the user.

A method for automatically electronically associating vessel identity information of a vessel with an unassociated telemetric device, the unassociated telemetric device comprising a processor and being configured to detect and transmit quantity or usage data and being configured with a location sensing device, wherein the unassociated telemetric device is configured to communicate with a remote server, the method comprising the steps of: the remote server receiving the vessel identity information comprising a deployment location for the unassociated telemetric device; the unassociated telemetric device operating in accordance with an automatic action rule; in response to the unassociated telemetric device operating in accordance with the automatic action rule, the processor receiving location information of the unassociated telemetric device from the location sensing device; the unassociated telemetric device transmitting the location information; the remote server receiving the location information; the remote server correlating the location information with the vessel identity information when resolving that the location information represents that the unassociated telemetric device is within a proximity to the deployment location, and the remote server automatically electronically associating the unassociated telemetric device with the vessel identity information, resulting in the unassociated telemetric device becoming an associated telemetric device, so that when the associated telemetric device generates quantity or usage information, the quantity or usage information transmitted by the associated telemetric device is applied to a data store of the remote server related to the vessel identity information.

An identification device to be adhered to the skin of an animal having a top side and a bottom side comprising: a substrate with a printable surface with biocompatible pigment displaying visually discernible information disposed on the top side of the substrate; biocompatible adhesive on bottom side of substrate; an electronic component below the top side of the substrate comprising an electronic device with the ability to send, receive, and store information; and a carrier sheet, wherein the substrate and the adhesive are flexible, elastic, biocompatible, breathable, and comprised of material allowing for transmission of moisture and vapor at a rate that allows the device stay affixed to the skin for its pre-determined useful timeframe to slow down deterioration of components below substrate and to minimize skin irritation.

A method for automatically electronically associating vessel identity information of a vessel with an unassociated telemetric device, the unassociated telemetric device comprising a processor and being configured to detect and transmit quantity or usage data and being configured with a location sensing device, wherein the unassociated telemetric device is configured to communicate with a remote server, the method comprising the steps of: the remote server receiving the vessel identity information comprising a deployment location for the unassociated telemetric device; the unassociated telemetric device operating in accordance with an automatic action rule; in response to the unassociated telemetric device operating in accordance with the automatic action rule, the processor receiving location information of the unassociated telemetric device from the location sensing device; the unassociated telemetric device transmitting the location information; the remote server receiving the location information; the remote server correlating the location information with the vessel identity information when resolving that the location information represents that the unassociated telemetric device is within a proximity to the deployment location, and the remote server automatically electronically associating the unassociated telemetric device with the vessel identity information, resulting in the unassociated telemetric device becoming an associated telemetric device, so that when the associated telemetric device generates quantity or usage information, the quantity or usage information transmitted by the associated telemetric device is applied to a data store of the remote server related to the vessel identity information.

A method for automatically electronically associating vessel identity information of a vessel with an unassociated telemetric device, the unassociated telemetric device comprising a processor and being configured to detect and transmit quantity or usage data and being configured with a location sensing device, wherein the unassociated telemetric device is configured to communicate with a remote server, the method comprising the steps of: the remote server receiving the vessel identity information comprising a deployment location for the unassociated telemetric device; the unassociated telemetric device operating in accordance with an automatic action rule; in response to the unassociated telemetric device operating in accordance with the automatic action rule, the processor receiving location information of the unassociated telemetric device from the location sensing device; the unassociated telemetric device transmitting the location information; the remote server receiving the location information; the remote server correlating the location information with the vessel identity information when resolving that the location information represents that the unassociated telemetric device is within a proximity to the deployment location, and the remote server automatically electronically associating the unassociated telemetric device with the vessel identity information, resulting in the unassociated telemetric device becoming an associated telemetric device, so that when the associated telemetric device generates quantity or usage information, the quantity or usage information transmitted by the associated telemetric device is applied to a data store of the remote server related to the vessel identity information.