Abstract: Embodiments of apparatus and methods for signaling for resource allocation and scheduling in 5G-NR integrated access and backhaul are generally described herein. In some embodiments, User Equipment configured for reporting a channel quality indicator (CQI) index in a channel state information (CSI) reference resource assumes a physical resource block (PRB) bundling size of two PRBs to derive the CQI index.

Abstract: Apparatus, system and method to provide switchable coils in a computing device, comprising: a plurality of electrically conductive coils to transfer electromagnetic energy; a sensor coupled to a processor, to select a coil from among the plurality of electrically conductive coils; a switch to energize the selected coil; and a switch controller coupled to the switch and to the processor. In some embodiments, the plurality of coils may comprise an inductive charging interface. Some embodiments may further include a communication interface between the processor to the plurality of electrically conductive coils, the plurality of coils comprising an interface for near-field communications (NFC). The antenna coils may be arranged to provide improved NFC coverage when the computing device is in a respective predetermined physical configuration. Sensors may be used to detect the configuration and switch NFC communications to use a preferred antenna coil for the detected configuration.

Abstract: Apparatus, system and method to provide switchable coils in a computing device, comprising: a plurality of electrically conductive coils to transfer electromagnetic energy; a sensor coupled to a processor, to select a coil from among the plurality of electrically conductive coils; a switch to energize the selected coil; and a switch controller coupled to the switch and to the processor. In some embodiments, the plurality of coils may comprise an inductive charging interface. Some embodiments may further include a communication interface between the processor to the plurality of electrically conductive coils, the plurality of coils comprising an interface for near-field communications (NFC). The antenna coils may be arranged to provide improved NFC coverage when the computing device is in a respective predetermined physical configuration. Sensors may be used to detect the configuration and switch NFC communications to use a preferred antenna coil for the detected configuration.

Abstract: Embodiments of apparatus and methods for signaling for resource allocation and scheduling in 5G-NR integrated access and backhaul are generally described herein. In some embodiments, User Equipment configured for reporting a channel quality indicator (CQI) index in a channel state information (CSI) reference resource assumes a physical resource block (PRB) bundling size of two PRBs to derive the CQI index.

Abstract: Disclosed herein are user equipment (UE) configured to communicate with a vehicle-to-everything (V2X) control function (CF) and a V2X Key Management Function (KMF). The UE includes processing circuitry configured to select a broadcast service from a plurality of available broadcast services and encode a key request message for transmission to the V2X KMF. The key request message includes a service identification (ID) of the selected broadcast service and identification of V2X security techniques supported by the UE. A key response message received from the V2X KMF in response to the key request message is decoded. The key response message identifies a V2X security technique of the V2X security techniques. The identified V2X security technique is execute to obtain security credentials provisioned by the V2X KMF. Data is encoded for transmission to a second UE during the selected broadcast service, where the encoding is based on the provisioned security credentials.

Abstract: This document discusses, among other things, a Cellular Internet-of-Things (CIoT) network architecture to enable communication between an apparatus of a CIoT User Equipment (UE) and a network through a CIoT enhanced Node B (eNB) according to a lightweight Non-Access Stratum (NAS) protocol. An apparatus of a CIoT eNB can process data for communication between the CIoT UE and the network. The lightweight NAS protocol supports a reduced set of NAS messages for communication between, for example, the CIoT UE and the CIoT eNB, such as using a modified NAS message, or one or more new messages.

Abstract: Some demonstrative embodiments include devices, systems and/or methods of communicating between a cellular manager and a User Equipment (UE) via a Wireless Local Area network (WLAN) node. For example, an Evolved Node B (eNB) may be configured to communicate with a User Equipment (UE) traffic of at least one Evolved Universal Mobile Telecommunications System (UMTS) Terrestrial Radio Access Network (E-UTRAN) Radio Access Bearer (E-RAB); to participate in establishment of an IP tunnel with the UE via a Wireless Local Area Network (WLAN) node; to encapsulate an IP payload comprising downlink traffic of the E-RAB in an IP tunneling packet; and to send the IP tunneling packet to the UE via the IP tunnel.

Abstract: Systems and methods of providing steering of roaming (SOR) information in a 5G VPLMN are described. A UE receives a REGISTRATION ACCEPT message from an AMF of the VPLMN during initial or mobility registration of the UE in the VPLMN and DL NAS TRANSPORT message thereafter. The message has a Payload container information element (IE) set to secured packet. The SOR information indicates a list of preferred PLMN/access technology combinations, which is uploaded to a memory after a successful security check to verify that the list of preferred PLMN/access technology combinations is provided by the UDM of the HPLMN and is not tampered with by the VPLMN. When the message also contains a request for acknowledgment of successful security check of the list of preferred PLMN/access technology combinations, the UE transmits to the AMF the acknowledgment in a REGISTRATION COMPLETE or a DL NAS TRANSPORT message.

Abstract: User equipment (UE) within dual connectivity (DC) architecture with a Master Node-B (MN) and a Secondary Node-B (SN) includes processing circuitry decoding connection reconfiguration information from the MN. The connection reconfiguration information includes signaling radio bearer type 3 (SRB3) configuration information. The SRB3 configuration information originates from the SN and configures a SRB3, the SRB3 for a radio resource control (RRC) connection between the UE and the SN. An RRC connection reconfiguration request message received from the SN via the SRB3 is decoded. The RRC connection reconfiguration request message includes UE new radio (NR) security capability information of the SN. The processing circuitry further determines whether the UE NR security capability information received from the SN matches UE NR security capability information received by the UE from the MN.

Abstract: Logic to register a personal point of sale (POS) device. Logic may communicate with the registration processor to establish a secure communication channel. Logic may access a basic input output system to obtain platform information. Logic may transmit the platform information to the registration processor to identify a certification associated with the device. Logic may communicate with a payment instrument via a card reader. Logic may transmit an encrypted message from the card reader to the registration processor to bind the payment instrument to the device. Logic may receive a communication from the device comprising platform information. Logic may perform a security protocol to establish a secure communication channel with the device. Logic may determine an existence of the certification for the device in the database based upon the platform information. And logic may register the platform in response to locating the certification of the platform.

Abstract: Some demonstrative embodiments include devices, systems and/or methods of communicating between a cellular manager and a User Equipment (UE) via a Wireless Local Area network (WLAN) node. For example, an Evolved Node B (eNB) may be configured to communicate with a User Equipment (UE) traffic of at least one Evolved Universal Mobile Telecommunications System (UMTS) Terrestrial Radio Access Network (E-UTRAN) Radio Access Bearer (E-RAB); to participate in establishment of an IP tunnel with the UE via a Wireless Local Area Network (WLAN) node; to encapsulate an IP payload comprising downlink traffic of the E-RAB in an IP tunneling packet; and to send the IP tunneling packet to the UE via the IP tunnel.

Abstract: A cellular IoT (CIoT) device can comprise a coverage and/or processing constrained device e.g., devices operating primarily MTC or M2M (e.g., sensor devices, controller devices, etc.). These devices can have limited or no user interface, and can be used for machines or devices with little mobility. CIoT devices can be deployed in usage scenarios such as home automation (e.g., security, appliances, energy packages, etc.), industry automation, and smart cities with low-power devices (e.g., devices having a battery life of several years), and can be easily installed and operated in challenging coverage conditions, such as lower or basement levels of buildings. CIoT devices can be provisioned to connect to a cellular carrier network and an associated CSP. The CSP can execute end2end solutions (e.g., service portal, service sign-up, etc.) while the cellular carrier can provide the bulk data pipe to the CSP.

Abstract: Apparatus, system and method to provide switchable coils in a computing device, comprising: a plurality of electrically conductive coils to transfer electromagnetic energy; a sensor coupled to a processor, to select a coil from among the plurality of electrically conductive coils; a switch to energize the selected coil; and a switch controller coupled to the switch and to the processor. In some embodiments, the plurality of coils may comprise an inductive charging interface. Some embodiments may further include a communication interface between the processor to the plurality of electrically conductive coils, the plurality of coils comprising an interface for near-field communications (NFC). The antenna coils may be arranged to provide improved NFC coverage when the computing device is in a respective predetermined physical configuration. Sensors may be used to detect the configuration and switch NFC communications to use a preferred antenna coil for the detected configuration.

Abstract: System and techniques for secure wireless association are described herein. A station (STA) may transmit a probe request for the wireless network that includes identification of a certificate. An access point (AP) receiving the probe request may obtain the identified certificate and use the certificate to encrypt a key. The encrypted key may then be included in a beacon by the AP. The STA may then obtain the encrypted key from the beacon, decrypt the key with the certificate, and then use the key to associate to the wireless network via the AP.

Abstract: Logic to register a personal point of sale (POS) device. Logic may communicate with the registration processor to establish a secure communication channel. Logic may access a basic input output system to obtain platform information. Logic may transmit the platform information to the registration processor to identify a certification associated with the device. Logic may communicate with a payment instrument via a card reader. Logic may transmit an encrypted message from the card reader to the registration processor to bind the payment instrument to the device. Logic may receive a communication from the device comprising platform information. Logic may perform a security protocol to establish a secure communication channel with the device. Logic may determine an existence of the certification for the device in the database based upon the platform information. And logic may register the platform in response to locating the certification of the platform.

Abstract: Technologies for one-tap connection and synchronization with a device in a non-active state are disclosed. When a user brings a first device enabled for Near Field Communication (NFC) to close proximity of a second NFC-enabled device when the second device is in a non-active state, the second device may be awakened, or placed in an active state, for a period of time to perform one or more operations before returning to the non-active state. These operations include, for example, allowing the first device to access data stored in the second device and synchronizing one or more applications installed on the second device with remote servers.

Abstract: This disclosure describes systems, methods, and apparatus related to receiving, at an access point and from a wireless communication station, a media access control (MAC) address of the wireless communication station; assigning, at the access point, a prefix to the MAC address of the wireless communication station; receiving, at the access point and from the wireless communication station, a frame comprising the prefix and a random MAC address; replacing, at the access point and using the prefix, the random MAC address in the frame with the MAC address of the wireless communication station, thereby resulting in a processed frame; and transmitting, at the access point and to a destination device, the processed frame.

Abstract: Methods and devices for NFC-tap file encryption, decryption and access via Near Field Communication (NFC) are disclosed. A user can select an unencrypted file stored in a computing device for encryption. Upon encryption, the file name of the selected file and the encryption key used to encrypt the selected file are transmitted to an NFC-enabled wireless device for storage. The user can select an encrypted file stored in the computing device for access. As the user taps the computing device with the wireless device, the file name of the selected file is transmitted to the wireless device, which in turn transmits a decryption key for decrypting the selected file to the computing device. The computing device decrypts the selected file with the decryption key. The user can now access the decrypted file.

Abstract: System and techniques for secure direct discovery UEs are described herein. A UE may initiate ProSe D2D discovery and create a discovery request that includes an asserted identity in clear text and a message integrity code. The discovery request may then be transmitted in a D2D discovery channel.

Abstract: A device is disclosed that may send at least one beacon to at least one device. The device may identify at least one handshake response received from the at least one device. The device may send a first multiband aggregation request to the at least one device, the multiband aggregation request including a received signal strength indication (RSSI) threshold. The device may identify a multiband aggregation response received from the at least one device, the multiband response including at least one RSSI value. The device may send association and security information associated with at least one second device to at least one third device. The device may send a second multiband aggregation request to the at least one third device. The device may send a data plane transition message to the at least one third device, the data plane transition message including a data plane transition trigger.