In some implementations, a point of sale (POS) system may store a card read failure indication based on detecting that a transaction terminal failed to read information associated with a transaction card, wherein the card read failure indication includes information that indicates whether the transaction terminal failed to read the information associated with the transaction card from a chip, a magnetic stripe, or a contactless device. The POS system may transmit information associated with the card read failure indication to an external device based on detecting a successful transaction subsequent to the transaction terminal failing to read the information associated with the transaction card, wherein the information associated with the card read failure indication is transmitted to enable the external device to determine whether one or more of the transaction card or the transaction terminal is defective.

A feedback control system for RFID assembly production. The control system can include a measurement system and a control system. The measurement system may take measurements of one or more electrical properties of an RFID chip assembly, for example an RFID strap or RFID antenna. The measurement system may then communicate to the control system to adjust one or more parameters affecting the electrical properties. Once the desired set of electrical properties is achieved, the chip assembly may be cured. The feedback control system may be implemented dynamically, either for precision assembly of individual chip assemblies or in batch for controlling the average properties of assemblies on a rolling production line. The feedback control system can also be implemented in a step-wise fashion and be used to collect data and iteratively self-improve.

An automatic card connection method. The method comprises: when an Android device scans an NFC card to be tested, obtaining a carried tag; receiving an intent request sent by the tag; determining, on the basis of an Intent publishing system, an activity for processing the intent request of the tag; processing the intent request according to the determined activity to obtain an intent request result; searching for application programs installed in the device to obtain application programs matched with the intent request result; starting a target application program according to the selection of a user; calling a fourth preset method to obtain a tag value of said NFC card; and performing data communication connection with said NFC card on the basis of the tag value. According to the present invention, after the user selects the required target application program, data communication between the NFC card and the target application program is directly achieved, the communication fluency and the communication efficiency are improved, and the use experience of the user is improved.

The present technology includes calculating the 3-D RF propagation pattern in a space for at least one Wi-Fi access point and displaying a visualization of the RF propagation pattern in augmented reality (AR). The augmented reality view of the space can be created by capturing at least one image of the space and displaying at least one image of the space on a display with the visualization of the Wi-Fi access point RF propagation pattern on the display overlaid at least one image of the space. The disclosed technology further can calculate the RF propagation properties and render a visualization of the RF propagation patterns in a 3D space by utilizing hardware on a user device. The AR display is useful in visualizing, in-person aspects of a Wi-Fi network and coverage, and can be used in troubleshooting, maintenance, and simulations of equipment variations.

A payment terminal evaluator includes a contact structure and a card structure. The contact structure intersects a rectangular space such that part of the contact structure is within the rectangular space and part of the contact structure is outside of the rectangular space. The card structure extends from the contact structure and is positioned entirely within the rectangular space. The card structure includes a top surface, a bottom surface, a first side surface between the top surface and the bottom surface, a second side surface between the top surface and the bottom surface, a first tab defined in part by the top surface, the bottom surface and the first side surface, a second tab defined in part by the top surface, the bottom surface and the second side surface, and an opening between the first tab and the second tab.

Systems and methods for integrating tags with items. The methods comprise: dynamically determining a length of each metal thread to be incorporated into or trace to be disposed on a item to optimize tag performance in view of dielectric and tuning properties of the item. In the metal thread scenarios, the methods also involve: creating a metal thread having the length that was dynamically determined; and sewing the metal thread into the item being produced to form an antenna for a first tag. In the trace scenarios, the methods also involve forming the trace on the item being produced to form an antenna for a first tag. Next, at least a communications enabled device is attached to the item so as to form an electrical coupling or connection between the communications enabled device and the at least one antenna.

An incontinence detection system includes an incontinence detection pad for placement beneath a person to be monitored. The incontinence detection pad has a passive radio frequency identification (RFID) tag. A reader is provided and a plurality of antennae is coupled to the reader. The reader includes a bistatic radio frequency (RF) switch matrix which is operable to establish a first antenna of the plurality of antennae as a transmit antenna that is used to wirelessly energize the passive RFID tag and to establish a second antennae of the plurality of antennae as a receive antenna that is used to read backscattered data that may be emitted from the passive RFID tag. The first and second antennae are situated in respective housings that are spaced apart from each other. An arrangement of first and second electrodes on an electrical sheet of an incontinence pad is also provided.

An Apparatus and Method for reliably sorting RFID chips, in inlays, labels, tags or other units of manufacture, into rows and columns, and using that information to report their exact position on a moving web, in support of further manufacturing processes, in the presence of crosstalk, with speed and accuracy exceeding prior art.

The present invention extends to methods, systems, and computer program products for testing proximity card readers. Aspects include proximity card reader test bed environments configured to test proximity card readers with a plurality of proximity cards while minimizing human involvement. A proximity card reader can be tested to determine a likelihood of the proximity card reader functioning as intended over time and to determine proximity card reader compatibility with different proximity card formats. Proximity card reader failures (e.g., crashes) and incompatibilities can be detected in the testbed environment reducing the likelihood of deploying defective and/or incompatible card readers into operation.

An information processing system includes an information bearing medium and an information reading unit. The information bearing medium has a two-dimensional array of unit data zones. Marks are provided on some of the unit data zones so as to form a digital code. Mark patterns of any two Y-directional adjacent unit data zone strings based on the arrangement of marks in an X-direction differ from each other. The information reading unit generates a data string on the basis of a unit signal formed from a plurality of signals output from a group of detection units that detect the marks in synchronization and recognizes the digital code of the information bearing medium on the basis of a group of the data strings sequentially obtained from the array of the unit data zones.