Patent application number | Description | Published |
20080259825 | METHOD AND APPARATUS FOR PERFORMING JRNSO IN FDD, TDD AND MIMO COMMUNICATIONS - A method and apparatus for performing Joint Randomness Not Shared by Others (JRNSO) is disclosed. In one embodiment, JRNSO is determined in Frequency Division Duplex (FDD) using a baseband signal loop back and private pilots. In another embodiment, JRNSO is determined in Time Division Duplex (TDD) using a baseband signal loop back and combinations of private pilots, private gain functions and Kalman filtering directional processing. In one example, the FDD and TDD JRSNO embodiments are performed in Single-Input-Single-Output (SISO) and Single-Input-Multiple-Output (SIMO) communications. In other examples, the FDD and TDD embodiments are performed in Multiple-Input-Multiple-Output (MIMO) and Multiple-Input-Single-Output (MISO) communications. JRNSO is determined by reducing MIMO and MISO communications to SISO or SIMO communications. JRNSO is also determined using determinants of MIMO channel products. Channel restrictions are removed by exploiting symmetric properties of matrix products. | 10-23-2008 |
20080267114 | HOME (e)NODE-B WITH NEW FUNCTIONALITY - A wireless communication device is configured as an in-home node-B (H(e)NB). The H(e)NB is configured to perform a locking function to control modification of carrier and user controlled parameters, and also configured to detect a change in location. | 10-30-2008 |
20090125996 | VIRTUAL SUBSCRIBER IDENTITY MODULE - A mobile trusted platform (MTP) configured to provide virtual subscriber identify module (vSIM) services is disclosed. In one embodiment, the MTP includes: a device manufacturer-trusted subsystem (TSS-DM) configured to store and provide credentials related to a manufacturer of the MTP; a mobile network operator-trusted subsystem (MNO-TSS) configured to store and provide credentials related to a mobile network operator (MNO); and a device user/owner-trusted subsystem (TSS-DO/TSS-U) configured to store and provide credentials related to user of the MTP. The TSS-MNO includes a vSIM core services unit, configured to store, provide and process credential information relating to the MNO. The TSS-DO/TSS-U includes a vSIM management unit, configured to store, provide and process credential information relating to the user/owner of the MTP. The TSS-DO/TSS-U and the TSS-MNO communicate through a trusted vSIM service. | 05-14-2009 |
20090141900 | METHOD AND APPARATUS FOR ENABLING PHYSICAL LAYER SECRET KEY GENERATION - A method and apparatus for generating physical layer security keys is provided. Channel impulse response (CIR) measurements are recorded. Each CIR measurement is associated with a time-stamp. Where possible, the time-stamps are paired with time-stamps that are associated with another plurality of CIR measurements. The CIR data associated with the paired time-stamps is aggregated. Each of the aggregated CIR measurements is aligned, and at least one CIR measurement is selected for use in secret key generation. | 06-04-2009 |
20090175214 | METHOD AND APPARATUS FOR COOPERATIVE WIRELESS COMMUNICATIONS - A method and apparatus for cooperation in wireless communications. Cooperation is considered among a number of network elements, including at least one wireless transmit-receive unit, at least one relay station, and at least one base station. | 07-09-2009 |
20090209232 | TECHNIQUES FOR SECURE CHANNELIZATION BETWEEN UICC AND A TERMINAL - The present invention is related to a wireless communication system. 3G UMTS mobile phone systems rely on a protected smart card called the UMTS integrated circuit card (UICC) that provides UMTS subscriber identity module (USIM) applications as a basis or root of various security measures protecting the communication path between the 3G mobile terminal and the UMTS wireless network (or UTRAN). Disclosed is a method by which the UICC exchanges information with a terminal, such as an Internal Key Center (IKC | 08-20-2009 |
20090313472 | SECURE SESSION KEY GENERATION - A method and apparatus for securing the interface between a Universal Integrated Circuit Card (UICC) and a Terminal in wireless communications is disclosed. The security of Authentication and Key Agreement (AKA) and application level generic bootstrapping architecture (GBA) with UICC-based enhancements (GBA_U) procedures is improved. A secure shared session key is used to encrypt communications between the UICC and the Terminal. The secure shared session key generated using authenticating or non-authenticating procedures. | 12-17-2009 |
20100011214 | METHOD AND APPARATUS FOR SECURE TRUSTED TIME TECHNIQUES - A method and apparatus to establish a trustworthy local time based on trusted computing methods are described. The concepts are scaling because they may be graded by the frequency and accuracy with which a reliable external time source is available for correction and/or reset, and how trustworthy this external source is in a commercial scenario. The techniques also take into account that the number of different paths and number of hops between the device and the trusted external time source may vary. A local clock related value which is protected by a TPM securely bound to an external clock. A system of Accuracy Statements (AS) is added to introduce time references to the audit data provided by other maybe cheaper sources than the time source providing the initial time. | 01-14-2010 |
20100062808 | UNIVERSAL INTEGRATED CIRCUIT CARD HAVING A VIRTUAL SUBSCRIBER IDENTITY MODULE FUNCTIONALITY - Universal integrated circuit card (UICC) having a virtual subscriber identity module functionality is disclosed. A wireless transmit/receive unit (WTRU) comprises a mobile equipment (ME) configured to perform wireless communication and a UICC. The UICC is configured to perform security functionalities. The UICC supports multiple isolated domains including UICC issuer's domain. Each domain is owned by a separate owner so that each owner stores and executes an application on the UICC under a control of an UICC issuer and the UICC issuer's domain controls creation and deletion of other domains and defines and enforces security rules for authorizing third parties to have an access to the domains. The UICC is configured to verify integrity of operating system functions and applications stored on the UICC. The UICC is configured to control an access to information regarding applications according to security policies stored within the UICC. | 03-11-2010 |
20100125732 | HOME NODE-B APPARATUS AND SECURITY PROTOCOLS - A Home Node B or Home evolved Node B (HN(e)B) apparatus and methods are disclosed. The HN(e)B includes a Trusted Environment (TrE) and interfaces including unprotected interfaces, cryptographically protected interfaces, and hardware protected interfaces. The H(e)NB includes security/authentication protocols for communication between the H(e)NB and external network elements, including a Security Gateway (SGW). | 05-20-2010 |
20100131751 | SUPPORT OF PHYSICAL LAYER SECURITY IN WIRELESS LOCAL AREA NETWORKS - A method and an apparatus for performing physical layer security operation are disclosed. A physical layer performs measurements continuously, and reports the measurements to a medium access control (MAC) layer. The MAC layer processes the measurements, and sends a security alert to a security manager upon detection of an abnormal condition based on the measurements. The security manager implements a counter-measure upon receipt of the security alert. The measurements include channel impulse response (CIR), physical medium power measurement, automatic gain control (AGC) value and status, automatic frequency control (AFC) gain and status, analog-to-digital converter (ADC) gain, Doppler spread estimate, and/or short preamble matched filter output. The security manager may switch a channel, switch a channel hopping policy, change a back-off protocol, or change a beamforming vector upon reception of the security alert. | 05-27-2010 |
20100153727 | ENHANCED SECURITY FOR DIRECT LINK COMMUNICATIONS - A method for secure direct link communications between multiple wireless transmit/receive units (WTRUs). The WTRUs exchange nonces that are used for generating a common nonce. A group identification information element (GIIE) is generated from at least the common nonce and is forwarded to an authentication server. The authentication server generates a group direct link master key (GDLMK) from the GIIE to match WTRUs as part of a key agreement group. Group key encryption key (GKEK) and a group key confirmation key (GKCK) are also generated based on the common nonce and are used to encrypt and sign the GDLMK so that base stations do not have access to the GDLMK. Also disclosed is a method for selecting a key management suite (KMS) to generate temporal keys. A KMS index (KMSI) may be set according to a selected KMS, transmitted to another WTRU and used to establish a direct link. | 06-17-2010 |
20110010543 | PLATFORM VALIDATION AND MANAGEMENT OF WIRELESS DEVICES - Methods, components and apparatus for implementing platform validation and management (PVM) are disclosed. PVM provides the functionality and operations of a platform validation entity with remote management of devices by device management components and systems such as a home node-B management system or component. Example PVM operations bring devices into a secure target state before allowing connectivity and access to a core network. | 01-13-2011 |
20110035584 | SECURE REMOTE SUBSCRIPTION MANAGEMENT - A method and apparatus are disclosed for performing secure remote subscription management. Secure remote subscription management may include providing the Wireless Transmit/Receive Unit (WTRU) with a connectivity identifier, such as a Provisional Connectivity Identifier (PCID), which may be used to establish an initial network connection to an Initial Connectivity Operator (ICO) for initial secure remote registration, provisioning, and activation. A connection to the ICO may be used to remotely provision the WTRU with credentials associated with the Selected Home Operator (SHO). A credential, such as a cryptographic keyset, which may be included in the Trusted Physical Unit (TPU), may be allocated to the SHO and may be activated. The WTRU may establish a network connection to the SHO and may receive services using the remotely managed credentials. Secure remote subscription management may be repeated to associate the WTRU with another SHO. | 02-10-2011 |
20110041003 | METHOD AND APPARATUS FOR H(e)NB INTEGRITY VERIFICATION AND VALIDATION - An apparatus and method for providing home evolved node-B (H(e)NB) integrity verification and validation using autonomous validation and semi-autonomous validation is disclosed herein. | 02-17-2011 |
20110099361 | Validation And/Or Authentication Of A Device For Communication With Network - A device may include a trusted component. The trusted component may be verified by a trusted third party and may have a certificate of verification stored therein based on the verification by the trusted third party. The trusted component may include a root of trust that may provide secure code and data storage and secure application execution. The root of trust may also be configured to verify an integrity of the trusted component via a secure boot and to prevent access to the certain information in the device if the integrity of the trusted component may not be verified. | 04-28-2011 |
20110099605 | SYSTEM OF MULTIPLE DOMAINS AND DOMAIN OWNERSHIP - Methods and instrumentalities are disclosed that enable one or more domains on one or more devices to be owned or controlled by one or more different local or remote owners, while providing a level of system-wide management of those domains. Each domain may have a different owner, and each owner may specify policies for operation of its domain and for operation of its domain in relation to the platform on which the domain resides, and other domains. A system-wide domain manager may be resident on one of the domains. The system-wide domain manager may enforce the policies of the domain on which it is resident, and it may coordinate the enforcement of the other domains by their respective policies in relation to the domain in which the system-wide domain manager resides. Additionally, the system-wide domain manager may coordinate interaction among the other domains in accordance with their respective policies. | 04-28-2011 |
20110265158 | METHOD AND APPARATUS FOR ENABLING MACHINE TO MACHINE COMMUNICATION - A method and apparatus for performing secure Machine-to-Machine (M2M) provisioning and communication is disclosed. In particular a temporary private identifier, or provisional connectivity identification (PCID), for uniquely identifying machine-to-machine equipment (M2ME) is also disclosed. Additionally, methods and apparatus for use in validating, authenticating and provisioning a M2ME is also disclosed. The validation procedures disclosed include an autonomous, semi-autonomous, and remote validation are disclosed. The provisioning procedures include methods for re-provisioning the M2ME. Procedures for updating software, and detecting tampering with the M2ME are also disclosed. | 10-27-2011 |
20110299450 | METHOD AND APPARATUS FOR MULTICASTING WITH FEEDBACK INFORMATION - A method for multicasting a packet begins by providing a buffer for each of two user equipments (UEs) in communication with a base station. A determination is made whether there is a previously unsent packet at the base station. A second determination is made whether both UE buffers are non-empty. A non-empty buffer is flushed if there is no previously unsent packet and if one of the buffers is non-empty. A packet is selected to be transmitted if there is a previously unsent packet or if both buffers are non-empty. The buffers are updated based on feedback received from the UEs. | 12-08-2011 |
20110302638 | Staged Control Release In Boot Process - Integrity validation of a network device may be performed. A network device comprising a secure hardware module, may receive a root key. The secure hardware module may also receive a first code measurement. The secure hardware module may provide a first key based on the root key and the first code measurement. The secure hardware module may receive a second code measurement and provide a second key based on the first key and the second code measurement. The release of keys based on code measurements may provide authentication in stages. | 12-08-2011 |
20120023568 | Method and Apparatus for Trusted Federated Identity Management and Data Access Authorization - Systems, methods, and instrumentalities are disclosed that may provide for integration of trusted OpenID (TOpenID) with OpenID. The authentication may be accomplished, in part, via communications between a trusted ticket server on a UE and a network application function. The UE may retrieve platform validation data (e.g., from a trusted platform module on the UE). The UE may receive a platform verification in response to the platform validation data. The platform verification may indicate that the network application function has verified the platform validation data and the user. The platform verification may indicate that the platform validation data matches a previously generated reference value. | 01-26-2012 |
20120047551 | Machine-To-Machine Gateway Architecture - Systems, methods, and instrumentalities are disclosed that provide for a gateway outside of a network domain to provide services to a plurality of devices. For example, the gateway may act as a management entity or as a proxy for the network domain. As a management entity, the gateway may perform a security function relating to each of the plurality of devices. The gateway may perform the security function without the network domain participating or having knowledge of the particular devices. As a proxy for the network, the gateway may receive a command from the network domain to perform a security function relating to each of a plurality of devices. The network may know the identity of each of the plurality of devices. The gateway may perform the security function for each of the plurality of devices and aggregate related information before sending the information to the network domain. | 02-23-2012 |
20120072979 | Method And Apparatus For Trusted Federated Identity - A trusted computing environment, such as a smartcard, UICC, Java card, global platform, or the like may be used as a local host trust center and a proxy for a single-sign on (SSO) provider. This may be referred to as a local SSO provider (OP). This may be done, for example, to keep authentication traffic local and to prevent over the air communications, which may burden an operator network. To establish the OP proxy in the trusted environment, the trusted environment may bind to the SSO provider in a number of ways. For example, the SSO provider may interoperate with UICC-based UE authentication or GBA. In this way, user equipment may leverage the trusted environment in order to provide increased security and reduce over the air communications and authentication burden on the OP or operator network. | 03-22-2012 |
20120246481 | VIRTUAL SUBSCRIBER IDENTITY MODULE - A mobile trusted platform (MTP) configured to provide virtual subscriber identify module (vSIM) services is disclosed. In one embodiment, the MTP includes: a device manufacturer-trusted subsystem (TSS-DM) configured to store and provide credentials related to a manufacturer of the MTP; a mobile network operator—trusted subsystem (MNO-TSS) configured to store and provide credentials related to a mobile network operator (MNO); and a device user/owner—trusted subsystem (TSS-DO/TSS-U) configured to store and provide credentials related to user of the MTP. The TSS-MNO includes a vSIM core services unit, configured to store, provide and process credential information relating to the MNO. The TSS-DO/TSS-U includes a vSIM management unit, configured to store, provide and process credential information relating to the user/owner of the MTP. The TSS-DO/TSS-U and the TSS-MNO communicate through a trusted vSIM service. | 09-27-2012 |
20120254959 | IDENTITY MANAGEMENT ON A WIRELESS DEVICE - A wireless device may perform a local authentication to reduce the traffic on a network. The local authentication may be performed using a local web server and/or a local OpenID provider (OP) associated with the wireless device. The local web server and/or local OP may be implemented on a security module, such as a smartcard or a trusted execution environment for example. The local OP and/or local web server may be used to implement a provisioning phase to derive a session key, associated with a service provider, from an authentication between the wireless device and the network. The session key may be reusable for subsequent local authentications to locally authenticate a user of the wireless device to the service provider. | 10-04-2012 |
20120281831 | Method and System for Enhancing Crytographic Capabilities of a Wireless Device Using Broadcasted Random Noise - A secret stream of bits begins by receiving a public random stream contained in a wireless communication signal at a transmit/receive unit. The public random stream is sampled and specific bits are extracted according to a shared common secret. These extracted bits are used to create a longer secret stream. The shared common secret may be generated using JRNSO techniques, or provided to the transmit/receive units prior to the communication session. Alternatively, one of the transmit/receive unit is assumed to be more powerful than any potential eavesdropper. In this situation, the powerful transmit/receive unit may broadcast and store a public random stream. The weaker transmit/receive unit selects select random bits of the broadcast for creating a key. The weaker transmit/receive unit sends the powerful transmit/receive unit the selected bit numbers, and powerful transmit/receive unit uses the random numbers to produce the key created by the weaker transmit/receive unit. | 11-08-2012 |
20120281834 | Generation of Perfectly Secret Keys in Wireless Communication Networks - A method and apparatus is used for generating a perfectly random secret key between two or more transceivers in a wireless communication network. In a point-to-point system, both transceivers produce an estimate of the channel impulse response (CIR) based on the received radio signal. The CIR estimation is synchronized and may include error correction and detection. A long secret key of bits is generated from a digitized version of the CIR estimate, from which a perfectly secret encryption key is derived by privacy amplification. | 11-08-2012 |
20120290870 | DEVICE VALIDATION, DISTRESS INDICATION, AND REMEDIATION - A wireless communications device may be configured to perform integrity checking and interrogation with a network entity to isolate a portion of a failed component on the wireless network device for remediation. Once an integrity failure is determined on a component of the device, the device may identify a functionality associated with the component and indicate the failed functionality to the network entity. Both the wireless network device and the network entity may identify the failed functionality and/or failed component using a component-to-functionality map. After receiving an indication of an integrity failure at the device, the network entity may determine that one or more additional iterations of integrity checking may be performed at the device to narrow the scope of the integrity failure on the failed component. Once the integrity failure is isolated, the network entity may remediate a portion of the failed component on the wireless communications device. | 11-15-2012 |
20120297473 | CERTIFICATE VALIDATION AND CHANNEL BINDING - A constrained network entity may determine, via an authentication procedure with a core network entity, the trustworthiness of an endpoint attempting to establish a secure channel with the constrained network entity. The constrained network entity may receive a certificate from the endpoint attempting to establish the secure channel and the constrained network entity may send the certificate asserted by the endpoint to a core network entity for validation. The core network entity may receive the certificate during a key exchange with the constrained network entity and the core network entity may indicate to the constrained network entity the validity of the certificate. The constrained network entity may determine whether to establish the secure channel with the endpoint based on the validity of the certificate. | 11-22-2012 |
20130007858 | AUTHENTICATION AND SECURE CHANNEL SETUP FOR COMMUNICATION HANDOFF SCENARIOS - Persistent communication layer credentials generated on a persistent communication layer at one network may be leveraged to perform authentication on another. For example, the persistent communication layer credentials may include application-layer credentials derived on an application layer. The application-layer credentials may be used to establish authentication credentials for authenticating a mobile device for access to services at a network server. The authentication credentials may be derived from the application-layer credentials of another network to enable a seamless handoff from one network to another. The authentication credentials may be derived from the application-layer credentials using reverse bootstrapping or other key derivation functions. The mobile device and/or network entity to which the mobile device is being authenticated may enable communication of authentication information between the communication layers to enable authentication of a device using multiple communication layers. | 01-03-2013 |
20130046980 | HOME NODE-B APPARATUS AND SECURITY PROTOCOLS - A method for authenticating a home nodeB/home evolved node B (H(e)NB) with a network is disclosed. The method includes securely storing H(e)NB location information in a Trusted Environment (TrE); and securely sending the stored H(e)NB location information to the network via the TrE | 02-21-2013 |
20130080769 | SYSTEMS AND METHODS FOR SECURING NETWORK COMMUNICATIONS - Secure communications may be established amongst network entities for performing authentication and/or verification of the network entities. For example, a user equipment (UE) may establish a secure channel with an identity provider, capable of issuing user identities for authentication of the user/UE. The UE may also establish a secure channel with a service provider, capable of providing services to the UE via a network. The identity provider may even establish a secure channel with the service provider for performing secure communications. The establishment of each of these secure channels may enable each network entity to authenticate to the other network entities. The secure channels may also enable the UE to verify that the service provider with which it has established the secure channel is an intended service provider for accessing services. | 03-28-2013 |
20130125226 | SSO FRAMEWORK FOR MULTIPLE SSO TECHNOLOGIES - Users desire useable security or a seamless means for accessing internet services whereby user interaction in the provisioning of credentials may be kept to a minimum or even eliminated entirely. The Single Sign-On (SSO) identity management (IdM) concept may be a means by which a user may be provided with such ease of use, while enabling user-assisted and network-assisted authentication for access to desired services. To enable seamless authentication services to users, a unified framework and a protocol layer interface for managing multiple authentication methods may be used. | 05-16-2013 |
20130156193 | Method and Apparatus for Determining Joint Randomness - A method and apparatus for performing Joint Randomness Not Shared by Others (JRNSO) is disclosed. In one embodiment, JRNSO is determined in Frequency Division Duplex (FDD) using a baseband signal loop back and private pilots. In another embodiment, JRNSO is determined in Time Division Duplex (TDD) using a baseband signal loop back and combinations of private pilots, private gain functions and Kalman filtering directional processing. In one example, the FDD and TDD JRSNO embodiments are performed in Single-Input-Single-Output (SISO) and Single-Input-Multiple-Output (SIMO) communications. In other examples, the FDD and TDD embodiments are performed in Multiple-Input-Multiple-Output (MIMO) and Multiple-Input-Single-Output (MISO) communications. JRNSO is determined by reducing MIMO and MISO communications to SISO or SIMO communications. JRNSO is also determined using determinants of MIMO channel products. Channel restrictions are removed by exploiting symmetric properties of matrix products. | 06-20-2013 |
20130174241 | AUTOMATED NEGOTIATION AND SELECTION OF AUTHENTICATION PROTOCOLS - Wireless telecommunications networks may implement various forms of authentication. There are a variety of different user and device authentication protocols that follow a similar network architecture, involving various network entities such as a user equipment (UE), a service provider (SP), and an authentication endpoint (AEP). To select an acceptable authentication protocol or credential for authenticating a user or UE, authentication protocol negotiations may take place between various network entities. For example, negotiations may take place in networks implementing a single-sign on (SSO) architecture and/or networks implementing a Generic Bootstrapping Architecture (GBA). | 07-04-2013 |
20130191884 | IDENTITY MANAGEMENT WITH LOCAL FUNCTIONALITY - A user equipment (UE) may perform functions locally, such as on a trusted module that resides within the UE. For example, a UE may perform functions associated with a single sign-on protocol, such as OpenID Connect for example, via a local identity provider function. For example, a UE may generate identity tokens and access tokens that can be used by a service provider to retrieve user information, such as identity information and/or user attributes. User attributes may be retrieved via a user information endpoint that may reside locally on the UE or on a network entity. A service provider may grant a user access to a service based on the information that it retrieves using the tokens. | 07-25-2013 |
20130198838 | METHOD AND APPARATUS FOR PROVIDING SECURITY TO DEVICES - Systems, methods, and apparatus are provided for generating verification data that may be used for validation of a wireless transmit-receive unit (WTRU). The verification data may be generated using a tree structure having protected registers, represented as root nodes, and component measurements, represented as leaf nodes. The verification data may be used to validate the WTRU. The validation may be performed using split-validation, which is a form of validation described that distributes validation tasks between two or more network entities. Subtree certification is also described, wherein a subtree of the tree structure may be certified by a third party. | 08-01-2013 |
20130227658 | OPENID/LOCAL OPENID SECURITY - Identity management, user authentication, and/or user access to services on a network may be provided in a secure and/or trustworthy manner, as described herein. For example, trustworthy claims may be used to indicate security and/or trustworthiness of a user or user device on a network. Security and/or trustworthiness of a user or a user device on a network may also be established using OpenID and/or local OpenID, a secure channel between a service and the user device, and/or by including a network layer authentication challenge in an application layer authentication challenge on the user device for example. | 08-29-2013 |
20130298209 | ONE ROUND TRIP AUTHENTICATION USING SNGLE SIGN-ON SYSTEMS - Systems, methods, and apparatus embodiments are described herein for enabling one-round trip (ORT) seamless user/device authentication for secure network access. For example, pre-established security associations and/or credentials may be leveraged between a user/device and a network entity (e.g., application server) on a network to perform an optimized fast authentication and/or to complete security layer authentication and secure tunnel setup in an on-demand and seamless fashion on the same or another network. | 11-07-2013 |
20130312125 | METHOD AND APPARATUS FOR SECURE TRUSTED TIME TECHNIQUES - A method and apparatus to establish a trustworthy local time based on trusted computing methods are described. The concepts are scaling because they may be graded by the frequency and accuracy with which a reliable external time source is available for correction and/or reset, and how trustworthy this external source is in a commercial scenario. The techniques also take into account that the number of different paths and number of hops between the device and the trusted external time source may vary. A local clock related value which is protected by a TPM securely bound to an external clock. A system of Accuracy Statements (AS) is added to introduce time references to the audit data provided by other maybe cheaper sources than the time source providing the initial time. | 11-21-2013 |
20140047528 | IDENTITY MANAGEMENT ON A WIRELESS DEVICE - A wireless device may perform a local authentication to reduce the traffic on a network. The local authentication may be performed using a local web server and/or a local OpenID provider (OP) associated with the wireless device. The local web server and/or local OP may be implemented on a security module, such as a smartcard or a trusted execution environment for example. The local OP and/or local web server may be used to implement a provisioning phase to derive a session key, associated with a service provider, from an authentication between the wireless device and the network. The session key may be reusable for subsequent local authentications to locally authenticate a user of the wireless device to the service provider. | 02-13-2014 |
20140050320 | ENHANCEMENTS TO ENABLE FAST SECURITY SETUP - WTRUs, ARSs, APs, WLG/AAA proxies, networks, and methods thereon are disclosed for fast security setup on a multi-RAT WTRU. Methods of sharing security associations between RATs on a multi-RAT WTRU are disclosed. Methods of caching security associations are disclosed. Methods are disclosed for alerting an ANDSF server of an AP that should be considered for association. Enhancements to advertisements from an AP are disclosed where the advertisements may include SSID with a FQDN, a HESSID type information, or TAI type information. Methods of resolving AP identities to a reachable address are disclosed. An address resolution protocol is disclosed for resolving AP identities. ARSs are disclosed that may resolve a BSSID to a network routable address. Protocols for carrying AP identities and security parameters are disclosed. Methods are disclosed of using ANDSF to provide the WTRU with security information and parameters of an AP. An RSN may indicate security capabilities. | 02-20-2014 |
20140082352 | LAYERED CERTIFICATION - A certification provenance tree (CPT) structure may provide information concerning a layered certification of a device that comprises a hierarchy of components. The CPT structure may include a hierarchy of secure certification provenance document (SCPD) structures. Each SCPD structure in the hierarchy may represent a given component at a given level of the hierarchy of components of the device. Each SCPD structure may include a field that stores a certification proof indicating that security properties of the given component have been certified by a certification authority. An SCPD structure may further include accreditation information fields that store a pointer to an SCPD structure of a component at a next layer of the hierarchy of components of the device. The pointer may provide an indication of assurance that the component at that next layer will perform securely within this component at said given layer. | 03-20-2014 |
20140129815 | VALIDATION AND/OR AUTHENTICATION OF A DEVICE FOR COMMUNICATION WITH NETWORK - A device may include a trusted component. The trusted component may be verified by a trusted third party and may have a certificate of verification stored therein based on the verification by the trusted third party. The trusted component may include a root of trust that may provide secure code and data storage and secure application execution. The root of trust may also be configured to verify an integrity of the trusted component via a secure boot and to prevent access to the certain information in the device if the integrity of the trusted component may not be verified. | 05-08-2014 |
20140133654 | METHOD AND SYSTEM FOR ENHANCING CRYPTOGRAPHIC CAPABILITIES OF A WIRELESS DEVICE USING BROADCASTED RANDOM NOISE - A secret stream of bits begins by receiving a public random stream contained in a wireless communication signal at a transmit/receive unit. The public random stream is sampled and specific bits are extracted according to a shared common secret. These extracted bits are used to create a longer secret stream. The shared common secret may be generated using JRNSO techniques, or provided to the transmit/receive units prior to the communication session. Alternatively, one of the transmit/receive unit is assumed to be more powerful than any potential eavesdropper. In this situation, the powerful transmit/receive unit may broadcast and store a public random stream. The weaker transmit/receive unit selects select random bits of the broadcast for creating a key. The weaker transmit/receive unit sends the powerful transmit/receive unit the selected bit numbers, and powerful transmit/receive unit uses the random numbers to produce the key created by the weaker transmit/receive unit. | 05-15-2014 |
20140173682 | AUTHENTICATION FOR SECURE WIRELESS COMMUNICATION - A method and apparatus for use in authentication for secure wireless communication is provided. A received signal is physically authenticated and higher layer processed. Physical authentication includes performing hypothesis testing using a channel impulse response (CIR) measurement of the received signal and predetermined referenced data. Higher layer processing includes validating the signal using a one-way hash chain value in the signal. Once a signal is authenticated, secure wireless communication is performed. | 06-19-2014 |
20140179271 | SMART CARD WITH DOMAIN-TRUST EVALUATION AND DOMAIN POLICY MANAGEMENT FUNCTIONS - Methods and instrumentalities are disclosed that enable one or more domains on one or more devices to be owned or controlled by one or more different local or remote owners, while providing a level of system-wide management of those domains. Each domain may have a different owner, and each owner may specify policies for operation of its domain and for operation of its domain in relation to the platform on which the domain resides, and other domains. A system-wide domain manager may be resident on one of the domains. The system-wide domain manager may enforce the policies of the domain on which it is resident, and it may coordinate the enforcement of the other domains by their respective policies in relation to the domain in which the system-wide domain manager resides. Additionally, the system-wide domain manager may coordinate interaction among the other domains in accordance with their respective policies. A domain application may be resident on one of the domains. The domain application may be ported to the platform based on a relationship between at least one domain owner and at least one other domain owner of the one or more domains. | 06-26-2014 |
20140201809 | Characteristics of Security Associations - Authentication of a user or a wireless transmit/receive unit may be based on an obtained measure of authentication strength, which may referred to as an assurance level. For example, a user, via a WTRU, may request access to a service controlled by an access control entity (ACE). The user may be authenticated with a user authenticator and assertion function (UAAF), producing a result. A user assertion may be provided that includes the user authentication result, a user assurance level, and/or a user freshness level. The WTRU may be authenticated with a device authenticator and assertion function (DAAF), producing an associated result. A device assertion may be provided that may include the device authentication result, a device assurance level, and/or a device freshness level. The assertions may be bound together to receive access to a service or resource. | 07-17-2014 |
20140289533 | Secure Time Functionality for a Wireless Device - The present invention is related to a wireless transmit/receive unit (WTRU) for providing advanced security functions. The WTRU includes trusted platform module (TPM) for performing trusted computing operations; and a secure time component (STC) for providing a secure measurement of a current time. The STC and the TPM are integrated to provide accurate trusted time information to internal and external to the WTRU. The STC may be located on an expanded a subscriber identity module (SIM), on the WTRU platform, or two STCs may be used, one in each location. Similarly, the TPM may be located on an expanded SIM, on the WTRU platform, or two TPMs may be used, one in each location. Preferably, the STC will include a real time clock (RTC); a tamper detection and power failure unit; and a time report and sync controller. | 09-25-2014 |
20140307875 | METHOD AND SYSTEM FOR SECURING WIRELESS COMMUNICATIONS - A method for transmitting an encrypted signal to a wireless transmit/receive unit (WTRU) such that decryption of the encrypted signal depends on a trust zone associated with the WTRU is disclosed. The encryption may be performed using hierarchical modulation, scrambling, authentication, location validation, or a combination thereof. The size of a trust zone may also be adjusted. | 10-16-2014 |
20140310528 | DIGITAL RIGHTS MANAGEMENT USING TRUSTED PROCESSING TECHNIQUES - The present invention discloses several methods to strengthen the integrity of entities, messages, and processing related to content distribution as defined by the Open Mobile Alliance (OMA) Digital Rights Management (DRM). The methods use techniques related to the Trusted Computing Group (TCG) specifications. A first embodiment uses TCG techniques to verify platform and DRM software integrity or trustworthiness, both with and without modifications to the DRM rights object acquisition protocol (ROAP) and DRM content format specifications. A second embodiment uses TCG techniques to strengthen the integrity of ROAP messages, constituent information, and processing without changing the existing ROAP protocol. A third embodiment uses TCG techniques to strengthen the integrity of the ROAP messages, information, and processing with some changes to the existing ROAP protocol. | 10-16-2014 |
20140359278 | Secure Remote Subscription Management - A method and apparatus are disclosed for performing secure remote subscription management. Secure remote subscription management may include providing the Wireless Transmit/Receive Unit (WTRU) with a connectivity identifier, such as a Provisional Connectivity Identifier (PCID), which may be used to establish an initial network connection to an Initial Connectivity Operator (ICO) for initial secure remote registration, provisioning, and activation. A connection to the ICO may be used to remotely provision the WTRU with credentials associated with the Selected Home Operator (SHO). A credential, such as a cryptographic keyset, which may be included in the Trusted Physical Unit (TPU), may be allocated to the SHO and may be activated. The WTRU may establish a network connection to the SHO and may receive services using the remotely managed credentials. Secure remote subscription management may be repeated to associate the WTRU with another SHO. | 12-04-2014 |
20140365777 | SYSTEMS AND METHODS FOR SECURING NETWORK COMMUNICATIONS - Secure communications may be established amongst network entities for performing authentication and/or verification of the network entities. For example, a user equipment (UE) may establish a secure channel with an identity provider, capable of issuing user identities for authentication of the user/UE. The UE may also establish a secure channel with a service provider, capable of providing services to the UE via a network. The identity provider may even establish a secure channel with the service provider for performing secure communications. The establishment of each of these secure channels may enable each network entity to authenticate to the other network entities. The secure channels may also enable the UE to verify that the service provider with which it has established the secure channel is an intended service provider for accessing services. | 12-11-2014 |
20150026471 | Staged Control Release in Boot Process - Integrity validation of a network device may be performed. A network device comprising a secure hardware module, may receive a root key. The secure hardware module may also receive a first code measurement. The secure hardware module may provide a first key based on the root key and the first code measurement. The secure hardware module may receive a second code measurement and provide a second key based on the first key and the second code measurement. The release of keys based on code measurements may provide authentication in stages. | 01-22-2015 |
20150065093 | Identity Management on a Wireless Device - A wireless device may perform a local authentication to reduce the traffic on a network. The local authentication may be performed using a local web server and/or a local OpenID provider (OP) associated with the wireless device. The local web server and/or local OP may be implemented on a security module, such as a smartcard or a trusted execution environment for example. The local OP and/or local web server may be used to implement a provisioning phase to derive a session key, associated with a service provider, from an authentication between the wireless device and the network. The session key may be reusable for subsequent local authentications to locally authenticate a user of the wireless device to the service provider. | 03-05-2015 |
20150067813 | Method and Apparatus for Trusted Federated Identity Management and Data Access Authorization - Systems, methods, and instrumentalities are disclosed that may provide for integration of trusted OpenID (TOpenID) with OpenID. The authentication may be accomplished, in part, via communications between a trusted ticket server on a UE and a network application function. The UE may retrieve platform validation data (e.g., from a trusted platform module on the UE). The UE may receive a platform verification in response to the platform validation data. The platform verification may indicate that the network application function has verified the platform validation data and the user. The platform verification may indicate that the platform validation data matches a previously generated reference value. | 03-05-2015 |
20150074411 | ENHANCED SECURITY FOR DIRECT LINK COMMUNICATIONS - A method and apparatus for secure direct link communication between multiple wireless transmit/receive units (WTRUs) are disclosed. The WTRUs may exchange nonces that are used for generating a common nonce. Group identification information may be generated from at least the common nonce and is forwarded to an authentication server. The authentication server may generate a master key from the group identification information to match WTRUs as part of a key agreement group. The common nonce may be a session key and be refreshed during communication with the second WTRU. A group key encryption key (GKEK) and a group key confirmation key (GKCK) may also be generated based on the common nonce and used to encrypt and sign the master key so that base stations do not have access to the master key. A first WTRU may generate a group direct link temporal key (GDLTK) for communicating with the second WTRU. | 03-12-2015 |
20150085741 | METHOD AND APPARATUS FOR COOPERATIVE WIRELESS COMMUNICATIONS - A method and apparatus for cooperation in wireless communications. Cooperation is considered among a number of network elements, including at least one wireless transmit-receive unit, at least one relay station, and at least one base station. | 03-26-2015 |