Abstract: This disclosure relates to tagging of materials and objects and analysis for authentication thereof. An example method includes analyzing separately a number of locations distributed across a given surface of a solid object according to one or more analysis technologies to determine feature data for each of the locations. The feature data are indicative of a respective chemical property and/or mechanical property of the solid object at each of the locations, corresponding to a feature tag, and the feature data depend on the one or more analysis technologies. The method also includes determining a tag signature for the solid object based on the feature data determined for each of the locations.
Type:
Grant
Filed:
March 12, 2020
Date of Patent:
April 26, 2022
Assignees:
CASE WESTERN RESERVE UNIVERSITY, UNIVERSITY OF FLORIDA RESEARCH FOUNDATION, INC.
Abstract: Methods and systems for using barcodes to determine item dimensions are disclosed herein. An example method includes a scanner identifying a barcode in an image of an object, and determining a datum associated with the barcode. A physical feature of the object located outside of the barcode is identified. A comparison of the datum associated with the barcode to the physical feature is made; and, in response, at least one dimension of the object is determined.
Type:
Grant
Filed:
May 29, 2020
Date of Patent:
April 19, 2022
Assignee:
Zebra Technologies Corporation
Inventors:
Charles Burton Swope, Edward Barkan, Mark Drzymala, Darran Michael Handshaw
Abstract: RFID tags are provided for incorporation into the packaging of a microwavable food item, with the RFID tag being configured to be safely microwaved. The RFID tag includes an antenna defining a gap and configured to operate at a first frequency. An RFID chip is electrically coupled to the antenna across the gap. A shielding structure is electrically coupled to the antenna across the gap and overlays the RFID chip. The shielding structure includes a shield conductor and a shield dielectric at least partially positioned between the shield conductor and the RFID chip. The shielding structure is configured to limit the voltage across the gap when the antenna is exposed to a second frequency that is greater than first frequency. In additional embodiments, RFID tags are provided for incorporation into the packaging of a microwavable food item, with the RFID tag being configured to be safely microwaved. The RFID tag includes an RFID chip and an antenna electrically coupled to the RFID chip.
Type:
Grant
Filed:
December 28, 2017
Date of Patent:
April 19, 2022
Assignee:
Avery Dennison Retail Information Services LLC
Inventors:
Ian J. Forster, Norman Howard, Brad Cumby, James Orlowski, Brian Strohmeier, Hu Duan, Cameron Higgins, John Feltz
Abstract: A transaction card having a metal layer, an opening in the metal layer for a transponder chip, and at least one discontinuity extending from an origin on the card periphery to a terminus in the opening. The card has a greater flex resistance than a card having a comparative discontinuity with the terminus and the origin the same distance from a line defined by a first long side of the card periphery in an absence of one or more strengthening features. Strengthening features include a discontinuity wherein one of the terminus or the origin are located relatively closer to the first long side of the card periphery than the other, a plurality of discontinuities wherein fewer than all extend from the card periphery to the opening, a self-supporting, non-metal layer disposed on at least one surface of the card, or one or more ceramic reinforcing tabs surrounding the opening.
Type:
Grant
Filed:
August 3, 2020
Date of Patent:
April 12, 2022
Assignee:
CompoSecure, LLC
Inventors:
Adam Lowe, Michele Logan, Dori Skelding, Syeda Hussain
Abstract: An induction system for filtering the induction of objects to an object processing system is disclosed. The induction system includes an evaluation means for evaluating at least one characteristic of an object, and a routing system for routing the object in one of a plurality of directions responsive to the evaluated characteristic, at least one of the plurality of directions leading to the object processing system.
Type:
Grant
Filed:
January 8, 2020
Date of Patent:
April 12, 2022
Assignee:
Berkshire Grey Operating Company, Inc.
Inventors:
Thomas Wagner, Matthew T. Mason, Christopher Geyer, John Richard Amend, Jr., Kyle Maroney, Joseph Romano, Victoria Hinchey, Jeffrey Kittredge, Andrew Gauthier, Lakshman Kumar, Prasanna Velagapudi
Abstract: An inspection system of a chip includes a reading device and a determining unit. The reading device is configured to count a number of chips stored in a storage case, the chips associated with a table game and including a chip having a radio tag, read the radio tag while the chips are stored in the storage case, and acquire chip information. The determining unit is configured to compare the chip information of the chips in the storage case with a physical number of the chips in the storage case, determine that there is an abnormal chips among the chips stored in the storage case based on a determination that the counted number of the chips does not match a physical number of the chips in the storage case, and output a result associated with an indication of the abnormal chip.
Abstract: Method, device and system for data transfer between a mobile device (3) and a reader device (2), the method of data transfer comprising: transmitting (S3) a request value from an ultra-wideband communications module (1) to the reader device (2); determining (S4) a distance between the ultra-wideband communications module (1) and the reader device (2); generating (S5) a validation value in the reader device using the request value and transmitting (S6) the validation value from the reader device (2) to the mobile device (3), if the distance is smaller than a predefined value; verifying (S7), in the mobile device (3), the validation value; and enabling (S8), in the mobile device (3), further data transfer (S9) between the mobile device (3) and the reader device (2), upon affirmative verifying of the validation value.
Abstract: A smart driver card device and data management system that includes a card and reader that facilitates both people and traffic officials to accumulate, fetch driver and vehicle details, such as driver license, vehicle registration, and insurance documents, through a wireless medium; allows authorized persons, such as users, to store additional information about their medical insurance and benefits, health issue history, their recent check-up details, and related or similar information; verifies data sets by an authorized administration personnel and stored in a centralized database; and provides users with complete authorization details to update their vehicle and medical data in a timely manner but are limited to certain documents.
Abstract: Various switchable RFID devices are disclosed. These switchable RFID devices may include one or more RFID tags and one or more switches. Some of these one or more switches are optionally wireless. In various embodiments, the switchable RFID devices include cellular phones, security devices, identity devices, financial devices, remote controls, and the like. The switchable RFID devices are optionally disposed in a passport.
Abstract: A method for reading ultrahigh frequency RFID (Radio Frequency Identification) tags is provided, wherein: an ultrahigh frequency RFID scanning system includes an ultrahigh frequency RFID reader and an antenna group; antennas are distributed around a scanned object; the RFID tags are in the scanned object; the ultrahigh frequency RFID scanning system continuously scans the scanned object, till no new data is added to a scan set A, and then counting is started; if no new data is added to the scan set A for N consecutive scan cycles, it is considered that the ultrahigh frequency RFID scanning system has read all the RFID tags in the scanned object. The present invention overcomes the problem that neither the setting of “reading time” nor the setting of “number of times of reading” can determine whether the ultrahigh frequency RFID scanning system has actually read all the RFID tags.
Abstract: A computer-implemented method comprises: committing a transaction amount t of a transaction with a commitment scheme to obtain a transaction commitment value T, the commitment scheme comprising at least a transaction blinding factor r_t; encrypting a combination of the transaction blinding factor r_t and the transaction amount t with a public key PK_B of a recipient of the transaction; and transmitting the transaction commitment value T and the encrypted combination to a recipient node associated with the recipient for the recipient node to verify the transaction.
Abstract: A security device and a method for verifying such a security device are disclosed. The security device has at least two security features. At least one of the security features is a tamper-evident security feature, which is configured to alter irreversibly upon mechanical tampering with the security device. At least one other of the security features is a robust security feature, which is robust against tampering with the security device. The at least two security features can be extracted from at least one image of the security device with a programmable device having a camera at least in an intact state of the security device.
Abstract: New systems, devices and methods for extremely precise aiming and shooting of firearms by relatively unskilled users are provided. In some embodiments, shots may be planned in advance. In some embodiments, a device including specialized computer hardware and software aids a user in planning a shot(s), evaluating the accuracy of the planned shot(s), adjusting the location of the planned shot(s), and executing the planned shots. In some embodiments, the system may prevent shots where motion, acceleration and positioning of the device and/or firearm relative to the planned shot location(s) and/or the surrounding environment may cause an inaccurate shot, but execute shots where those factors facilitate a highly accurate shot. In some embodiments, the control system may similarly account for, counteract and/or otherwise adjust for any other relevant ballistic and other accuracy-impacting factors with a position-actuable firing mechanism to maintain a projected flight path of such a point of impact.
Abstract: An imaging system for capturing an object includes a plurality of light sources for illuminating the object and a plurality of optical sensors. The plurality of light sources emit light radiation and the plurality of optical sensors are arranged to detect light radiation reflected from the object.
Abstract: An electronic voting identity authentication system a method employing a voting kiosk is provided for facilitating electronic voting using a three-part voter identity authentication thereby enhancing voter identity authentication and the reduction of voter fraud. The voting kiosk employs a palm vein scanner and a QR code reader that employ a user profile comprising at least a DNA sample, a set of genealogical information and a palm vein scan that are specific to a particular registered voter. Upon arriving at a polling site to vote, the registered voter employs the voting kiosk to capture a palm vein scan that is employed to authenticate the identity of the voter.
Abstract: A reader device for attachment to a smart device comprising a display, the reader comprising an antenna, processing and reading circuitry, and a communications module, wherein the antenna, the processing and reading circuitry, the processor and the communications module are coupled to each other, and whereby the antenna encloses said display. When a card is tapped on the display, the antenna receives a signal and transmits the signal to the processing and reading circuitry. The processing and reading circuitry processes the signal to produce data, and the produced data is transmitted to a device external to the reader device by the communications module.
Abstract: A method of processing a purchase transaction includes generating a transaction file containing a product code, which is transmitted from a user computing device when an image of a product code identifier is captured by the user computing device, a first user ID of the customer, and an indicator of whether or not the customer has opted in to receive electronic receipts. The method further includes generating an electronic receipt based on the transaction file, storing a conversion table containing the first and second user IDs of the customer, converting the first user ID contained in the transaction file to the second user ID based on the conversion table, when the indicator indicates that the customer has opted in, and storing the electronic receipt in association with the second user ID. The electronic receipt is transmitted in response to a request for electronic receipts associated with the second user ID.
Abstract: This disclosure relates to advanced signal processing technology including signal encoding and digital watermarking. Image areas are selected in an encoded digital design, and corresponding areas from a printed version of the encoded digital design are evaluated to determined signal robustness after printing.
Type:
Grant
Filed:
August 7, 2020
Date of Patent:
February 15, 2022
Assignee:
Digimarc Corporation
Inventors:
Yang Bai, Vojtech Holub, Vahid Sedighianaraki
Abstract: An RFID tag includes an RFID device, an output device and a controller. The RFID device includes a storage from and into which information is readable and writable from a reading/writing apparatus through wireless communication. The output device outputs information. The controller reads information for output from the storage and controls the output device. The storage includes a first region into which the information for output is written and a second region separate from the first region. The controller updates data of the second region in response to updating output of the output device.