Abstract: Opto-electrical connection systems including opto-electrical cables providing configurable connectivity between electrical devices having electrical interfaces are disclosed. Related assemblies and methods are also disclosed. By using configurable connection assemblies having at least one configurable connection device adapted to accept optical connectors of optical fibers of opto-electrical cables, many electrical devices having electrical interfaces may be configurably connected. For example, the configurable opto-electrical connection system may be configured to provide more bandwidth and/or connect electrical devices with less power consumption than would be associated with conventional copper cabling solutions. In this manner, the high bandwidth, lower power consumption, and long distance signal capability of optical fibers may be provided to connect electronic devices which were originally designed with electrical interfaces meant to be connected with copper cables.

Abstract: In particular implementations, a mobile device management system allows network administrators to control the distribution and publication of applications to mobile device users in an enterprise network. A user profile is accessed to determine a user attribute. A catalog of applications is filtered based at least in part on the user attribute and an enterprise application availability policy to determine a set of applications to be returned and provided via an enterprise mobile device application management interface.

Abstract: In particular implementations, a mobile device management system allows network administrators to control the distribution and publication of applications to mobile device users in an enterprise network. A user profile is accessed to determine a user attribute. A catalog of applications is filtered based at least in part on the user attribute and an enterprise application availability policy to determine a set of applications to be returned and provided via an enterprise mobile device application management interface.

Abstract: A metrology system is configured to provide visual inspection of a workpiece, three-dimensional magnetic field map, and height measurement. A stage is configured to bring points of interest at the workpiece under the desired tool for measurement. The optical field, magnetic field, and height information can be used independently or together in order to correlate defects in the manufacturing process of the workpiece. This abstract is provided to comply with rules requiring an abstract that will allow a searcher or other reader to quickly ascertain the subject matter of the technical disclosure. It is submitted with the understanding that it will not be used to interpret or limit the scope or meaning of the claims.

Abstract: Secure application-to-application communication is disclosed. A shared encryption key may be used to encrypt data to be transferred from a first mobile application to a second mobile application. The encrypted data is provided to a shared storage location. The second mobile application is configured to retrieve the encrypted data from the shared storage location.

Abstract: In particular implementations, a mobile device management system allows network administrators to control the distribution and publication of applications to mobile device users in an enterprise network. A user profile is accessed to determine a user attribute. A catalog of applications is filtered based at least in part on the user attribute and an enterprise application availability policy to determine a set of applications to be returned and provided via an enterprise mobile device application management interface.

Abstract: In particular implementations, a mobile device management system allows network administrators to control the distribution and publication of applications to mobile device users in an enterprise network.

Abstract: Excess radio-frequency (RF) power storage and power sharing RF Identification (RFID) tags, and related RFID tag connection systems and methods are disclosed. The excess RF power storage and power sharing RFID tags and related RFID tag connection systems and methods in embodiments disclosed herein allow connected RFID tags to store excess energy derived from excess received RF power in a shared energy storage device. In this manner, an individual RFID tag or a group of connected RFID tags in the RFID tag connection system can continue operation during temporary times when sufficient RF power is not being received from a RFID reader. Sharing stored energy derived from excess received RF power in a shared energy storage device among connected RFID tags in a RFID tag connection system can significantly mitigate problems of RF power interruption.

Abstract: Discontinuous loop antennas and related components, radio-frequency identification (RFID), tags, systems, and methods are disclosed. A discontinuous loop antenna is an antenna loop structure that includes a discontinuity portion. The discontinuous loop antenna can be coupled to an RFID chip to provide an RFID tag. The discontinuity portion decreases the loop inductance and tag capacitance, thus enabling the discontinuous loop antenna to have significantly larger loop area while still matching the chip impedance, resulting in dramatic increases in near-field sensitivity. Increased near-field sensitivity provides increased power harvesting efficiency during near-field coupling. As one non-limiting example, an RFID tag having a discontinuous loop antenna may achieve significantly more power harvesting from a RF signal than an RFID tag having a continuous loop antenna tuned to the same or similar resonant frequency.

Abstract: Discontinuous loop antennas and related components, radio-frequency identification (RFID), tags, systems, and methods are disclosed. A discontinuous loop antenna is an antenna loop structure that includes a discontinuity portion. The discontinuous loop antenna can be coupled to an RFID chip to provide an RFID tag. The discontinuity portion decreases the loop inductance and tag capacitance, thus enabling the discontinuous loop antenna to have significantly larger loop area while still matching the chip impedance, resulting in dramatic increases in near-field sensitivity. Increased near-field sensitivity provides increased power harvesting efficiency during near-field coupling. As one non-limiting example, an RFID tag having a discontinuous loop antenna may achieve significantly more power harvesting from a RF signal than an RFID tag having a continuous loop antenna tuned to the same or similar resonant frequency.

Abstract: Excess radio-frequency (RF) power storage in RF identification (RFID) tags, and related systems and methods are disclosed. The RFID tag is configured to operate with RF power received in wireless RF signals from a RFID tag antenna if received RF power meets or exceeds an operational threshold power for the RFID tag. The RFID tag is also configured to store excess energy derived from excess received RF power in an energy storage device if the received RF power exceeds the operational threshold power for the RFID tag. Thus, when RF power received by the RFID tag is not sufficient for operation, the RFID tag can operate from power provided by previously stored excess energy in the energy storage device.

Abstract: There is provided a passive RFID transponder assembly that includes a condition responsive device adapted to read a condition relating to the component that is associated with the RFID transponder assembly. The condition that is read by the condition responsive device relates to physical contact with a field technician or a mating component, relates to electrical connection between an integrated circuit chip and an antenna, relates to one or more environmental conditions, or the like. The components with which the RFID transponder assemblies are associated include components of telecommunications equipment, such as fiber optic connectors, fiber optic adapters, fiber optic patch panels, copper connectors, and copper adapters to list some non-limiting examples.

Abstract: An optical-fiber-network (OFN) radio-frequency identification (RFID) method for deploying and/or provisioning service and/or locating faults in an OFN. The method includes providing at least one RFID tag on at least one OFN component of a plurality of OFN components that constitute an OFN and writing OFN component data to the at least one RFID tag that relates to at least one property of the OFN component associated with the RFID tag. The RFID tag data is written to and read from the RFID tags using one or more mobile RFID readers. The OFN component data is recorded and stored in an OFN database unit. The plurality of OFN components are deployed and operations of the OFN are provisioned using the OFN component data. The method may also include using the OFN component data and a plurality of locations on a spatial map to locate a fault in the OFN.

Abstract: In particular implementations, a mobile device management system allows network administrators to control the distribution and publication of applications to mobile device users in an enterprise network.

Abstract: Disclosed herein are radio-frequency identification (RFID) tag event occurrence detection, generation, and monitoring. Related components, RFID readers, systems, and methods are also disclosed. The RFID tags are configured to sense an event(s) that occurred in the RFID tag or in proximity thereto. In response, the RFID tags are configured to set an event occurrence indicator(s) in a memory of the RFID tag indicating the occurrence of the sensed event(s). A RFID reader is configured to perform a query of a population of RFID tags in communication range to detect which RFID tags have a set event occurrence indicator(s), so a RFID reader can then specifically communiate with RFID tags that experienced an event(s) to request and service the event(s) type without having to perform those same operations for the entire RFID tag population. The RFID reader can be configured to take desired actions based on detection of events.

Abstract: Radio frequency (RF)-enabled latches and related components, assemblies, systems, and methods are disclosed that affect control of mating and/or demating of components. In one embodiment, a component is provided that includes a body configured to be mated to a second component to establish a connection. A latch is disposed in the body and configured to either affect demating of the body from the second component or mating of the body to the second component, when the latch is not actuated. A transponder disposed in the body can be configured to actuate the latch to either affect demating of the body from the second component or mating of the body to the second component. The transponder can also be configured to actuate the latch based on the identification information of the second transponder received through the communication connection or lack of receiving identification information from a second transponder or reader.

Abstract: Components having one or more sensors adapted to provide sensor data relating to a condition(s) of the component are disclosed. The component is adapted to communicate with another mating component to associate sensor data with identity information of the mating component. The sensor and identity information can be communicated remotely including via radio-frequency communications employing RF identification devices (RFIDs). Location of the mating component can be determined using the identity information of the mating component. In this manner, the sensor data can be associated with the location of the mating component using the identity information in a “component-to-component” configuration to provide location-specific sensor data.

Abstract: An optical-fiber-network (OFN) radio-frequency identification (RFID) system for deploying and/or maintaining and/or provisioning service and/or locating faults in an OFN. The system includes a plurality of OFN components, and at least one RFID tag that includes RFID tag data that has at least one property of the OFN component associated with the RFID tag. The RFID tag data is written to and read from the RFID tags using one or more mobile RFID readers either prior to, during or after deploying the OFN components. An OFN-component-data database unit is used to store and process the RFID tag data and is automatically updated by the one or more mobile RFID readers. This allows for different maps of the OFN to be made, such as an inventory map and a maintenance map, and for the maps to be automatically updated. The OFN-RFID system allows for mobile automated operations and management of OFN components by service personnel, and provides for faster and more accurate OFN system deployment and maintenance.

Abstract: Protocols, systems, and methods are disclosed for two or more RFID tags to communicate with each other and a device using direct connections. A disclosed system includes a first RFID tag, a second RFID tag, and a device. The first and second RFID tags are configured to mate to each other and directly exchange information. The second RFID tag is further configured to directly exchange information with the device such that information received directly at the second RFID tag from the first RFID tag may then be directly exchanged with the device. The first RFID tag may send a first tag identification directly from the first RFID tag to the second RFID tag. The second RFID tag may then send a first acknowledgement to the first RFID tag if the first tag identification was correctly received by the second RFID tag.

Abstract: In particular implementations, a mobile device management system allows network administrators to control the distribution and publication of applications to mobile device users in an enterprise network.