Abstract: According to one embodiment, a license management device and system are provided to facilitate management of a license for a printing device. The license management device includes a first communication interface, a second communication interface, a memory, and a processor. The first communication interface communicates with a management server. The second communication interface communicates with the printing device that has a specific function whose use may be license-restricted but permitted by a license issued by the management server. The memory stores a license management table that stores the license issued by the management server through the first communication interface. The processor provides the printing device with the license stored in the license management table in response to a request from the printing device through the second communication interface.

Abstract: A method for determining whether data on a device has changed from an original version of the data (“the original data”) is provided. The method comprising: converting the data to a first three-dimensional (3D) spatial representation of the data, wherein the first 3D spatial representation represents multiple characteristics of the data using a position of a point and/or vacancy in the first 3D spatial representation; wherein converting the data to the first 3D spatial representation comprises converting the data using a same process used to generate a second 3D spatial representation from the original data; analyzing the first 3D spatial representation using one or more spatial processes; and determining whether the data has changed based on the analysis of the first 3D spatial representation.

Abstract: Methods, apparatus, and systems for two-factor authentication leveraging graphical passwords and behavioral data are provided. Methods may include creating a two-factor authentication model for logging into a user account. The two-factor authentication model may include a first graphical password and first behavioral data corresponding to biometric characteristics of the creating of the graphical password. Methods may include receiving a login request from the user. Methods may include receiving, from the user, a second graphical password and second behavioral data. Methods may include identifying first comparison points between the second graphical password and the first graphical password. In parallel, methods may include identifying second comparison points between the second behavioral data and the first behavioral data. Methods may include logging the user into the account in response to a determination that a sum of the first and second comparison points is greater than a threshold value.

Abstract: A method for monitoring an Integrated Circuit (IC). The method includes a Root-Of-Trust (ROT) module to actuate a monitoring process to monitor at least one feature being performed in ongoing operations of the IC in accordance with a policy. The ROT module receives data that defines the policy that includes at least one feature being performed. A validating process is applied by the ROT module to data by using firmware and by using at least one built-in key of a plurality of built-in keys retrieved from a secure storage. The ROT module determines whether at least one feature is being performed in the ongoing operations of the IC in compliance with the policy. The ROT module applies an impairing process to impair at least one feature of the plurality of features being performed to attempt to place the performance of the ongoing operations of the IC in compliance with the policy.

Abstract: Anomalous loading of a dynamic-link library (DLL) is detected on a desktop computer. When the file of the DLL is not a known normal file, the locality sensitive (LSH) values of files of known versions of a known normal DLL that corresponds to the DLL are obtained from an LSH repository and compared to the LSH value of the file of the DLL. The smallest distance between the LSH value of the file of the DLL and each of the LSH values from the repository is selected for comparison to a risk threshold. The Loading of the DLL is detected to be an anomaly when the smallest distance is not less than the risk threshold.

Abstract: A computer device creates a first snapshot of a storage system at a first moment at which an abnormal operation behavior for the storage system is detected; creates a second snapshot of the storage system at a second moment at which it is determined that the storage system meets an attack detection condition; and then determines, based on a result of comparison between the first snapshot and the second snapshot and data content of one or more groups of operation abnormality data generated by the storage system between the first moment and the second moment, whether the storage system is attacked by ransomware.

Abstract: A radio frequency circuit includes: a first filter having a passband that includes a downlink band of a first band and a downlink band of a second band; a second filter having a passband that includes the downlink band of the first band and a downlink band of a third band; and a first switch that includes a first terminal connected to an antenna connection terminal, a second terminal connected to the first filter, and a third terminal connected to the second filter. The downlink band of the first band, the downlink band of the second band, and the downlink band of the third band at least partially overlap one another, and a combination of the first band and the second band and a combination of the first band and the third band are included in predefined band combinations for simultaneous communication.

Abstract: In distributor and assembly bank of a transmitter a predetermined quantity of an input payload from a source is repeatedly written according to a first distributor permutation to create as many input vectors as there are electromagnetic propagation pathways. Into a staging bank each input vector available from the assembly bank are repeatedly written according to a second distributor permutation. A presentation bank exists into which each input vector available from the staging bank are repeatedly written according to a third distributor permutation. One or more encoders repeatedly encode input vectors from the presentation bank; there being as many encoders as electromagnetic propagation pathways; each encoder makes available each encoded series of output levels for communication over the pathways. The banks and encoders are in up to four timing domains. A corresponding receiver, decoder, and reception, staging and disassembly banks and a sink are at the end of the pathways.

Abstract: Methods and systems for correcting distortions of audio transmissions are provided. In one embodiment, a method is provided that includes receiving an audio transmission that includes symbols. A first portion of the audio transmission including a first subset of the symbols may be identified and compared to an expected sequence having expected symbols. One or more differences may be determined between the first subset of the symbols and the expected symbols and a movement speed between a transmitter and a receiver of the audio transmission may be determined based on the differences. A second portion of the audio transmission may be identified including a second subset of the symbols in the second subset of the symbols may be corrected based on the movement speed between the transmitter and the receiver.

Abstract: A method for providing an electronic device includes manufacturing the electronic device at a manufacturing location, wherein manufacturing the electronic device includes connecting a wireless receiver system to the electronic device. The method further includes packaging the electronic device at a packaging location. The method further includes wirelessly transmitting data to the electronic device at a data transmission site, wherein wirelessly transmitting the data to the electronic device is performed by transferring data via near field magnetic induction utilizing a wireless transmission system and transmitting data via an out of band communications system, the wireless transmission system configured to magnetically connect with the wireless receiver system associated with the electronic device.

Abstract: Mobile device (1) for wireless communication with another device in the HF frequency area, which mobile device (1) comprises: a communication stage (3) with a communication unit (4) connected via a first matching unit with a first antenna to optimize for a load modulated communication with the other device; a charge stage (13) with a charge unit (14) connected via a second matching unit with a second antenna to optimize for wireless charging of a battery (2) of the mobile device (1), wherein that the first and second antennas are realized as only one single antenna (9) and that the communication stage (3) comprises a first switch stage (6) arranged in the path between the communication unit (4) and the single antenna (9) to connect or disconnect the communication unit (4) to/from the single antenna (9) and that the charge stage (13) comprises a second switch stage (16) arranged in the path between the charge unit (14) and the single antenna (9) to connect or disconnect the charge unit (14) to/from the single

Abstract: Various aspects of the present disclosure relate to techniques for joint CSI training and PMI feedback for AI-enabled networks. A user equipment (UE)s configured to receive, based on a CSI reporting setting, a set of RSs for a channel measurement corresponding to an NZP CSI-RS resource, generate a CSI report based on the channel measurement, the CSI report comprising precoding matrix information for a precoding matrix and a set of coefficients that correspond to at least one dimension of the precoding matrix, and transmit the CSI report to a network.

Abstract: A method and apparatus for transmitting information, a method and apparatus for processing information, and a communication device. The method for transmitting information according to embodiments of the disclosure includes: determining, by a terminal, K groups of second channel information from first channel information based on first information; performing, by the terminal based on first AI network models corresponding to M groups of second channel information respectively, first processing on the M groups of second channel information, and obtaining M pieces of channel feature information, where the K groups of second channel information includes the M groups of second channel information; and transmitting, by the terminal, second information to a network side device, where the second information includes the M pieces of channel feature information.

Abstract: An apparatus for model management, applicable to a terminal equipment, includes: a first receiver configured to receive information on a configuration and/or a scenario transmitted by a network device; and managing processor circuitry configured to manage a model used by the terminal equipment according to the configuration and/or the scenario.

Abstract: A method of managing wireless communication between electronic devices includes, at a first electronic device, transmitting a first downlink transmission from the first electronic device to a second electronic device and receiving a first response from the second electronic device at the first electronic device, wherein the first response includes a downlink channel quality information (CQI). The method further includes determining a per-subcarrier CQI based at least partially on the downlink CQI and determining an output modulation and coding scheme (MCS) based at least partially on the per-subcarrier CQI. After determining the output MCS, the method includes selecting a selected MCS based at least partially on the output MCS and setting an MCS of the first electronic device to the selected MCS.

Abstract: A method is disclosed, performed by a radio network node, for configuring transmission resources for a user equipment is disclosed. The method comprises receiving, from the user equipment, a message indicative of one or more available transmit antenna combinations of the user equipment. In one or more example methods each transmit antenna combination is associated with one or more frequency bands. The method comprises transmitting, to the user equipment, based on the received message, information indicative of resources to be used by the user equipment for transmission.

Abstract: Aspects presented herein may improve the performance of ISAC systems by enabling one or more wireless devices to handle sensing-communication confliction in ISAC systems. In one aspect, a first apparatus transmits, to a second apparatus, a first phase continuity reset indication after determining to change a transmission beam for a periodic sensing signal from a first beam to a second beam, the first beam being different than the second beam. The first apparatus transmits, to the second apparatus, a second phase continuity reset indication after determining to change the transmission beam for the periodic sensing signal from the second beam back to the first beam.

Abstract: Beam failure recovery and conditional handover may utilize deployment information regarding cells/beams. A wireless transmit/receive unit (WTRU) may receive a beam recovery configuration. The beam recovery configuration may include an indication of candidate recovery beams, network deployment information, information regarding areas of coverage of the candidate recovery beams, at least one quality criterion, random access channel (RACH) parameters, or any appropriate combination thereof. The WTRU may detect a beam failure. The WTRU may select a recovery beam from the candidate recovery beams based on the beam failure and the beam recovery configuration.

Abstract: A real time, or near real-time, system and method for monitoring aircraft data link performance and comparing to compliance to mandated standards. For example, Controller Pilot Data Link Communications (CPDLC) and ADS-C traffic performance is monitored while the aircraft is in flight, in real time or near real-time. Datalink message exchange end-to-end performance is monitored and compared to mandated performance for a particular airspace. Out-of-compliance conditions may be immediately reported to a Network Operations Center (NOC) for immediate corrective action. The datalink monitoring tool of the present invention significantly simplifies the process of monitoring data link compliance by providing near-real time message exchange statistics, automated alerting and reports of compliance status, and when non-compliance occurs, identification of the individual component that contribute to the non-compliance.

Abstract: Synchronized satellite communications can include receiving, at a computer having a processor, a data request that identifies a requesting device, data to be received by the requesting device, and a time at which the data is to be received by the requesting device. The processor can determine a geographic location of the requesting device and locations of a plurality of satellites; identify, based on the geographic location of the requesting device and the locations of the plurality of satellites, satellites that are to provide the data to the requesting device; generate instructions for loading network requirements to the satellites; and provide, to at least one of the satellites, the instructions. Additionally, embodiments of the concepts and technologies disclosed herein can be used to provide the same data and/or different data to multiple devices at the same time.