The present invention is an underground gas line protective barrier to help prevent damage by common excavation. The core components of the invention include a protective barrier, warning text on the protective barrier, and a locatable wire, which is commonly referred to as a tracer wire, which, generally speaking, are configured as follows: a woven protection barrier with warning text and a locatable wire positioned beside the barrier but attached to the protective barrier. The protective barrier is placed directly on the underground line with the tracer wire to the side of the protective barrier. With respect to the associated method, in order to carry out the method the following core steps are followed: unroll the product directly over the gas line, apply dirt on the product as needed to hold it in place, and continue with normal backfill procedure to cover the device.

A system for managing well production equipment, the system comprising a) an RFID tag reader associated with a production well within a production well field, said RFID tag reader being positioned to read RFID tags associated with well production equipment as the well production equipment is run into said production well; and b) a data processing unit in communication with said RFID tag reader associated with a production well.

A method for monitoring a condition includes providing a list of machines including a first machine and a second machine each having a rotatable component, attaching an adhesive label to the first machine, the adhesive label including a QR code or barcode that contains information identifying the rotatable component of the first machine and a processor configured to collect information concerning a condition of the rotatable component of the first machine and a transmitter configured to automatically transmit the collected information. Also, selecting the first machine from the list of machines, scanning the QR code or barcode of the first machine, associating the information represented by the scanned QR code or barcode with the first machine, wirelessly transmitting the collected information to a receiver, receiving the transmitted information at the receiver, and associating the transmitted collected information with the at least one rotatable component of the first machine.

A system and method provides for one or more of tracking of an object and providing automatic access to applications or data. Depending upon the embodiment, the system includes a personal digital key (PDK), a reader, a computing device and one or more of an auto login server and a tracking server. The PDK stores one or more profiles in memory. A reader is configured to wirelessly communicate with the PDK. The computing device is coupled to the reader and one or more of the auto login server and tracking server. The auto login server is configured to communicate with the reader and launches one or more applications associated with a user name identified by a profile received from the PDK. The tracking server is configured to communicate with the reader and to track and log information received from the PDK associated with the object.

A token (100, 703, 705, 707) for use with an item handling system (109) is provided herein. The token can be encoded with data. The data can define a further second token (801), wherein the data comprises an identifier associated with an item. The identifier can be associated with the item for processing by the item handling system.

Disclosed are methods and apparatus for identifying non-metallic subterranean structures using amorphous metal markers associated with the structures. Some examples will include the amorphous metal in the form of one or more sections of an amorphous metal foil within a protective enclosure sufficient to physically isolate the amorphous metal foil from the surrounding Earth. The amorphous metal foil and enclosure may be in the form of a tape which either will be secured to, or placed proximate the subterranean structure, which may be, for example, a pipe or conduit, or other non-metallic structure.

Disclosed are methods and apparatus for identifying non-metallic subterranean structures using amorphous metal markers associated with the structures. Some examples will include the amorphous metal in the form of one or more sections of an amorphous metal foil within a protective enclosure sufficient to physically isolate the amorphous metal foil from the surrounding Earth. The amorphous metal foil and enclosure may be in the form of a tape which either will be secured to, or placed proximate the subterranean structure, which may be, for example, a pipe or conduit, or other non-metallic structure.

A method and apparatus for a connection interface between a reservoir or syringe, infusion set tubing, and an infusion pump is provided. The reservoir, a base and a cap are connected to form an integrated unit that is capable of being inserted and secured in an infusion pump housing. The cap and the infusion pump are each provided with at least one sensor or at least one detectable feature, arranged to interact with at least one corresponding detectable feature or sensor on the other of the cap and infusion pump device, to detect one or more of the presence, position or other characteristic of the cap when the cap is aligned or coupled with the infusion pump housing. The detectable feature and sensor may be magnetic, RF, mechanical, optical or any combination.

A method and apparatus for a connection interface between a reservoir or syringe, infusion set tubing, and an infusion pump is provided. The reservoir, a base and a cap are connected to form an integrated unit that is capable of being inserted and secured in an infusion pump housing. The cap and the infusion pump are each provided with at least one sensor or at least one detectable feature, arranged to interact with at least one corresponding detectable feature or sensor on the other of the cap and infusion pump device, to detect one or more of the presence, position or other characteristic of the cap when the cap is aligned or coupled with the infusion pump housing. The detectable feature and sensor may be magnetic, RF, mechanical, optical or any combination.

According to an aspect, there are provided a mobile device for wireless people flow management. The mobile device comprises at least one processor; at least one memory; and a near field communication, NFC, reader; wherein the at least one memory comprises program code which, when executed on the at least one processor causes the mobile device to receive, from the NFC reader, information encoded in an NFC tag associated with a specific location in a building; determine control information to trigger at least one state change associated with the location based on the information encoded to the NFC tag; and send the control information to a control system of the building.