Patent application number | Description | Published |
20080291868 | ROUTE PROTOCOL - A route protocol is established whereby a mobile device can communicate to a multitude of (receiving) base stations though a tunnel created through a serving base station. A message that includes a Route Creation Header can be transmitted by the mobile device to create the tunnel. The Route Creation Header is reviewed by the receiving base station while the mobile device is in a Waiting-To-Open State. Various errors might occur with respect to the Route Creation Header. These errors can be conveyed to the mobile device by base station by setting one or more error code fields. Once the errors are resolved, another attempt to create a tunnel with base station can be made, if desired. | 11-27-2008 |
20080316969 | CARRIER SWITCHING IN A MULTI-CARRIER WIRELESS COMMUNICATION NETWORK - Techniques for performing carrier switching in a multi-carrier access network are described. A terminal may be assigned to a carrier among multiple carriers having different transmit power levels, e.g., by the access network during system access or handoff. The terminal may receive a switch threshold from the access network. The terminal may periodically measure the received signal strength of the assigned carrier and may compare the received signal strength against the switch threshold. The terminal may refrain from switching to a stronger carrier if the received signal strength exceeds the switch threshold and may switch to the stronger carrier if the received signal strength is below the switch threshold. This carrier switching scheme may prevent the terminal from switching to the strongest carrier when the assigned carrier can provide satisfactory performance. The access network may also switch the terminal to another carrier by sending a carrier switch message. | 12-25-2008 |
20090023464 | Methods and Apparatus for Resolving Pilot Pseudorandom Noise Code Conflicts in a Communication System - Automated PilotPN code conflict resolution using an access point with the assistance of one or more access terminals is disclosed. An exemplary method includes determining a set of access points, as well as determining a set of PilotPN codes used by the set of access points. Detection is then made concerning whether at least two access points of the set of access points have conflicting PilotPN codes. A first PilotPN code is allocated to one of the at least two access points having conflicting PilotPN codes. Additionally, one or more other PilotPN codes, which are distinct from the first PilotPN code, are allocating to remaining access points of the at least two access points having conflicting PilotPN codes. Corresponding apparatus and other exemplary methods are also disclosed. | 01-22-2009 |
20090029706 | RECOVERY FROM HANDOFF ERROR DUE TO FALSE DETECTION OF HANDOFF COMPLETION SIGNAL AT ACCESS TERMINAL - Systems and methodologies are described that facilitate recovering from error due to false detection of completion signals at an access terminal. An access terminal specific request signal can be sent to a target base station to initiate handoff or semi-connected state exit. A completion signal can be transferred in response to the access terminal specific request signal. To mitigate errors stemming from false detection of the completion signal at the access terminal, forward link and reverse link confirmation signals can be transferred to confirm successful handoff or connected state re-entry completion. For example, the access terminal can determine handoff or re-entry to be successful when a forward link confirmation signal is detected prior to expiration of a timer. Moreover, the forward link and reverse link confirmation signals can each include more CRC bits as compared to a number of CRC bits included in the completion signal. | 01-29-2009 |
20090034445 | METHOD AND APPARATUS FOR REDUCING POWER CONSUMPTION IN WIRELESS COMMUNICATION SYSTEMS - A method and apparatus for reducing power consumption in a wireless communication system is described. The monitoring of an access network is ceased by issuing a ControlChannelMAC.Deactivate command, a SharedSignallingMAC.Deactivate command and a ForwardTrafficChannelMAC.Deactivate command. Processing of resources is shut down to reduce power consumption. | 02-05-2009 |
20090040981 | METHODS AND APPARATUS FOR IN-ORDER DELIVERY OF DATA PACKETS DURING HANDOFF - Methods, apparatus, systems and computer program products are defined that provide for in-order deliver of data packets during hand-off. The aspects provide for in-order delivery at Forward Link Serving eBS/Data Attachment Point (FLSE/DAP) switch and Reverse Link Serving eBS/Data Attachment Point (RLSE/DAP) switch. As such, present aspects provide for significant improvement in the throughput of applications, such as applications relying on Transmission Control Protocol (TCP), during handoff, in such networks as Ultra Mobile Broadband (UMB) and the like. | 02-12-2009 |
20090046640 | METHOD AND APPARATUS OF TRANSMITTING AND RECEIVING ACTIVESETCOMPLETE IN WIRELESS COMMUNICATION SYSTEMS - A method and apparatus for transmission of ActiveSetComplete message in a wireless communication system, the method comprising generating a ActiveSetComplete message comprising a 8 bit message ID field and a 8 bit MessageSequence field, wherein the MessageSequence field indicates the MessageSequence field of the ActiveSetAssignment message whose receipt ActiveSetComplete message acknowledges and transmitting the ActiveSetComplete message over an OFDM communication link. Another embodiment of present invention relates to receiving and processing the received the ActiveSetComplete message. | 02-19-2009 |
20090075628 | METHOD AND APPARATUS FOR GENERATING A CRYPTOSYNC - A method and apparatus for generating a cryptosync is disclosed that generates a cryptosync with the desired variability without the overhead in complexity and size of prior cryptosyncs. The cryptosync is generated from a combination of fields including fields relating to the segmentation and reassembly of the data packets at a transmitting terminal and a receiving terminal. The resultant cryptosync does not repeat during the use of a particular security key. | 03-19-2009 |
20090129291 | CONFIGURING AN IDENTIFIER FOR AN ACCESS POINT - An access point is configured based on acquired information. An access point may be configured based on the configuration(s) of at least one other access point. An identifier to be transmitted by an access point may be selected based on the identifier(s) transmitted by at least one other access point. An access point may configure itself with assistance from a configuration server. For example, the access point may send information such as the location of the access point to a configuration server and the configuration server may respond with a list of neighboring access points for that access point. A configuration server may provide configuration information to an access point based on the location of the access point. A configuration server also may direct an access point to a different configuration server. | 05-21-2009 |
20090129325 | METHOD AND APPARATUS FOR CALCULATING THE PAGING CYCLE OFFSET IN WIRELESS COMMUNICATION SYSTEMS - A method and apparatus for calculating the paging cycle offset in a wireless communication system characterized in that determining the value of the PreferredControlChannelCycleEnabled field and calculating the paging cycle offset R wherein the paging cycle occurs once every two superframes. | 05-21-2009 |
20090129327 | SECTOR IDENTIFICATION USING SECTOR PARAMETERS SIGNATURES - Systems and methodologies are described that facilitate identifying sectors using sector parameters signatures. The signatures can be generated as a known function of a previous sector parameters signature (or message parameters), system time, and an identifier. In this regard, mobile devices can determine an expected identifier from comparing the sector parameters signature to a sector parameters signature computed based at least in part on the system time known to the mobile device. In addition, the mobile device can utilize a known or an inferred previous parameters signature to determine the expected identifier. Multiple signatures can be evaluated to determine expected identifiers to increase the likelihood of correct identification since the signatures are generated using the known variables along with the identifier. | 05-21-2009 |
20090129354 | ACCESS POINT CONFIGURATION SCHEMES - An access point is configured based on acquired information. An access point may be configured based on the configuration(s) of at least one other access point. An identifier to be transmitted by an access point may be selected based on the identifier(s) transmitted by at least one other access point. An access point may configure itself with assistance from a configuration server. For example, the access point may send information such as the location of the access point to a configuration server and the configuration server may respond with a list of neighboring access points for that access point. A configuration server may provide configuration information to an access point based on the location of the access point. A configuration server also may direct an access point to a different configuration server. | 05-21-2009 |
20090132674 | RESOLVING NODE IDENTIFIER CONFUSION - Confusion resulting from assigning the same node identifier to multiple nodes is resolved through the use of confusion detection techniques and the use of unique identifiers for the nodes. In some aspects an access point and/or an access terminal may perform operations relating to detecting confusion and/or providing a unique identifier to resolve confusion. | 05-21-2009 |
20090132675 | USING IDENTIFIERS TO ESTABLISH COMMUNICATION - Confusion resulting from assigning the same node identifier to multiple nodes is resolved through the use of confusion detection techniques and the use of unique identifiers for the nodes. In some aspects an access point and/or an access terminal may perform operations relating to detecting confusion and/or providing a unique identifier to resolve confusion. | 05-21-2009 |
20090137228 | UTILIZING RESTRICTION CODES IN WIRELESS ACCESS POINT CONNECTION ATTEMPTS - Systems and methodologies are described that facilitate utilizing restriction codes in rejecting connection requests with restricted association access points to indicate a reason for the rejection. Mobile devices can maintain a list of accessible access points and/or groups of access points, which can be consulted during cell reselection to ensure unsuitable restricted association access points are not utilized in cell reselection. Based on receiving a rejection code from a restricted association access point, a mobile device can remove the access point, or a related group, from its maintained list so that subsequent reselection attempts avoid the access point and/or access points in the related group. | 05-28-2009 |
20090137249 | FAVORING ACCESS POINTS IN WIRELESS COMMUNICATIONS - Systems and methodologies are described that facilitate applying offsets and/or selectable hysteresis values to favor access points in cell reselection. In measuring and ranking surrounding access points in reselection, offsets can be applied to favorable access points to facilitate cell reselection thereto. The offset can positively affect measurements, and thus ranking as well, in some cases. Negative offsets can also be applied to lower measurements (and thus ranking) of some access points. Moreover, hysteresis values can be applied in measuring current cells to prevent frequent reselection. The hysteresis values can be selected based on a type of the current cell or related access point to expand the coverage area where desired. Thus, where the current access point is favorable, a larger hysteresis can be added to measurements related to the current access point. | 05-28-2009 |
20090141689 | TUNE-AWAY PROTOCOLS FOR WIRELESS SYSTEMS - Systems and methods are provided for processing wireless signal components for a mobile wireless access broadband service. This can include processes for defining a protocol that controls whether to invoke a tune away component to determine an alternative wireless communications path. This can include defining one or more tune away parameters for the tune away component. The process can then automatically select the alternative wireless communications path based in part on the tune away procedure and at least one of the tune away parameters. | 06-04-2009 |
20090147693 | METHOD AND APPARATUS FOR MONITORING OTHER CHANNEL INTERFERENCE IN WIRELESS COMMUNICATION SYSTEM - A method and apparatus for monitoring other channel interference in wireless communication system are described. An OSI Monitor Set (OSIMonitorSet) is updated at the beginning of every superframe of a reverse link (RL) serving sector. A list of Pilot PN's (PilotPN's) of the sectors whose pilot strength (PilotStrenth) is larger than or equal to an other sector interference Monitor Threshold (OSIMonitorThreshold) in an OSIMonitorSet is provided, wherein the PilotPN and the PilotStrength are fields in an Overhead Parameter List (OverheadParameterList) of an Overhead Message Protocol and the OSIMonitorThreshold is a configuration attribute of the Overhead Message Protocol. The PilotPN of the reverse link Serving Sector (RLServingSector) are excluded. It is determined if the size of the list OSI Monitor Set Size (OSIMonitorSetSize) is larger than or equal to N | 06-11-2009 |
20090147712 | METHOD AND APPARATUS FOR REDUCING POWER CONSUMPTION IN WIRELESS COMMUNICATION SYSTEMS - A method and apparatus for reducing power consumption in a wireless communication system is described. Sending of unicast packets to an access terminal is ceased. It is determined if a ReverseTrafficChannelMAC.UATIReceived indication is received, wherein MAC is medium access control and UATI is unicast access terminal identifier. The access network transitions to a BindUATI state. | 06-11-2009 |
20090147713 | METHOD AND APPARATUS FOR ENTERING AND PROCESSING IN ACCESS STATE IN WIRELESS COMMUNICATION SYSTEMS - A method of entering and processing in Access State, the method comprising, issuing a ControlChannelMAC.Activate command, issuing a SharedSignalingMAC.Activate command, issuing an AccessChannelMAC.Activate command, issuing a ForwardTrafficChannelMAC.Activate command, issuing an OverheadMessages.Activate command, issuing an ActiveChannelMAC.AttemptAccess command, issuing an ActiveSetManagement.SendPilotReport command, setting a state timer for TIDPATSetup seconds, generating a ConnectionOpenRequest message if NumAccessAttempts is ‘0’, determining if the state timer has expired, determining if AccessChannelMAC.AccessFailed indication is received; and determining if AccessChannelMAC.AccessGrantReceived indication is received. | 06-11-2009 |
20090147730 | METHOD OF TRANSMITTING AND RECEIVING A REDIRECT MESSAGE IN A WIRELESS COMMUNICATION SYSTEM - An apparatus and method of transmitting a Redirect message in a wireless communication system is described. A Redirect message is generated comprising an 8 bit MessageID field, a 16 bit StayAwayDuration field wherein the StayAwayDuration field indicates the units of second for which an access terminal will not make an access attempt at the sector sending this message, an 8 bit NumChannel field wherein the NumChannel indicates the number of channel records included in the message, an 8 bit RedirectReason field wherein the RedirectReason reflect the redirect reason and a Channel field wherein the Channel field indicates the channel that the access terminal should reacquire. The Redirect message is transmitted over a communication link. | 06-11-2009 |
20090156207 | METHOD AND APPARATUS OF TRANSMISSION OF AN ACCESS PROBE IN A WIRELESS COMMUNICATION SYSTEMS - A method and apparatus for transmission of an access probe in a wireless communication system is provided. The method includes determining a ProbeSequenceNumber, determining an AccessSequenceID and adding it to a public data, determining ProbeNumber greater than MaxProbesPerSequence to perform the following: setting the ProbeNumber to ‘1’, incrementing the ProbeSequence Number by 1, determining an AccessCarrier by monitoring LoadControl bits on different carriers, using overhead parameters corresponding to selected Access Carrier, adding the AccessCarrier to the public data. The method further includes determining a DelayToNextProbe value, starting a timer for the DelayToNextProbe frames, determining an InitialProbePower value, transmitting a probe using AccessSequenceID, PilotPN, AccessCarrier and Power and incrementing the ProbeNumber. | 06-18-2009 |
20090161775 | METHOD AND APPARATUS OF ASSIGNING IN WIRELESS COMMUNICATION SYSTEMS - A method and apparatus of assigning selected interlace mode, the method comprising generating SelectedInterlaceAssignment message comprising SelectedInterlaceAssignment message comprising an 8 bit Message ID field, a 12 bit PilotPN field, a 1 bit SelectedInterlacesEnabled field, a 4 bit NumAssignedInterlaces field, and a 3 bit InterlaceID field, wherein, the PilotPN field is set to a PilotPN of the sector that sends SelectedInterlace Assignment message, the NumAssignedInterlaces field is set to the number of assigned interlaces, the InterlaceID field is set to an interlace assigned to the access terminal for SelectedInterlace operation and transmitting the generated SelectedInterlaceAssignment message over an OFDM communication link. | 06-25-2009 |
20090164609 | METHOD AND APPARATUS FOR UPDATING CONFIGURATION ATTRIBUTES USING FASTREPAGE ATTRIBUTE IN WIRELESS COMMUNICATION SYSTEMS - A method and apparatus for updating configuration attributes by transmitting a FastRepage Attribute in a wireless communication system is provided, comprising generating a FastRepage Attribute comprising an 8 bit Length field wherein the Length field indicates a value of length of the FastRepage attribute in octets excluding the length of Length field, an 8 bit AttributeID field, an 8 bit FastRepageEnabled field wherein the FastRepageEnabled field is set to a value ‘0×01’ to indicate that FastRepage is enabled and a 16 bit FastRepageInterval field, wherein the FastRepageInterval field indicates a value of interval at which an access network pages an access terminal when the access network does not receive a response to a page and transmitting the FastRepage attribute over a communication link. A method and apparatus is further provided for receiving and processing the FastRepage attribute. | 06-25-2009 |
20090164658 | METHOD AND APPARATUS FOR PROCESSING IN A CONNECTED STATE BY AN ACCESS TERMINAL AND ACCESS NETWORK IN WIRELESS COMMUNICATION SYSTEMS - A method and apparatus for processing on entering a Connected State by an access terminal and an access network is provided comprising issuing a ConnectedState.Activate command and an ActiveSetManagement.Open command, determining whether protocol receives an indication and determining whether protocol receives a Redirect message. | 06-25-2009 |
20090175217 | METHOD AND APPARATUS OF ESTABLISHING ACCESS CHANNEL IN WIRELESS COMMUNICATION SYSTEMS - A method and apparatus for establishing an access channel in a wireless communication system is provided, comprising receiving an AccessGrant on a carrier on which the last probe was transmitted and ending an access probe transmission upon receiving the AccessGrant. A method and apparatus is further provided, comprising determining expiration of an access grant timer and ending an access probe transmission upon the expiration of the timer. A method and apparatus is further provided comprising receiving an IdleState.IdleHO indication and ending an access probe transmission upon receiving the IdleState.IdleHO indication. A method and apparatus is further provided receiving a new AttemptAccess command, wherein the AttemptAccess command is processed after a current probe transmission ends and ending an access probe transmission on receiving the new AttemptAccess command. | 07-09-2009 |
20090175297 | METHOD AND APPARATUS OF TRANSMITTING PREFERRED CONTROL CHANNEL CYCLE ATTRIBUTE IN WIRELESS COMMUNICATION SYSTEMS - A method and apparatus for transmitting Preferred Control Channel Cycle Attributes in a wireless communication system comprising generating a 8 bit Length field, a 8 bit AttributeID field, a 1 bit PreferredControlChannelCycleEnabled field, a 0 or 15 bits PreferredControlChannelCycle field, a 1 bit PreferredQuickPageEnabled field, a 0 or 15 bits PreferredRQuickPage field, a 1 bit PreferredPagingCarrierEnabled field, a 7 bits PreferredPagingCarrier field and a 0 or 7 bits Reserved field, wherein the Length field indicates the length of the complex attribute in octets and the length of the Reserved field is such that the attribute value is octet aligned; and transmitting the Preferred control channel cycle attribute over an OFDM communication link. | 07-09-2009 |
20090176503 | FLEXIBLE MEDIUM ACCESS CONTROL (MAC) FOR AD HOC DEPLOYED WIRELESS NETWORKS - Systems and methods are disclosed that facilitate wireless communication using resource utilization messages (RUMs), in accordance with various aspects. A RUM may be generated for a first node, such as an access point or an access terminal, to indicate that a first predetermined threshold has been met or exceeded. The RUM may be weighted to indicate a degree to which a second predetermined threshold has been exceeded. The first and/or second predetermined thresholds may be associated with various parameters associated with the node, such as latency, throughput, data rate, spectral efficiency, carrier-to-interference ratio, interference-over-thermal level, etc. The RUM may then be transmitted to one or more other nodes to indicate a level of disadvantage experienced by the first node. | 07-09-2009 |
20090181672 | WIRELESS COMMUNICATION PAGING UTILIZING MULTIPLE TYPES OF NODE IDENTIFIERS - Paging load and/or registration load in a network is reduced by using different types of identifiers to specifying which nodes page an access terminal in the network. In some aspects, the network maintains a list that specifies that certain individual nodes (e.g., cells or sectors) are to page a given access terminal and/or that one or more zones (e.g., tracking areas) are to page the access terminal. In some aspects, an access terminal in a network may be configured to provide a forward-looking paging list to the network. The list provided by an access terminal may specify different types of node identifiers (e.g., individual node identifiers, subscriber groups, etc.). The network may then use the list to determine which nodes are to page a given access terminal such that when the access terminal moves to a different node, that node may already be configured to page the access terminal. In some aspect paging load and registration load are managed in a deployment that includes different types of access points. For example, access points of a first type (e.g., macro nodes) may provide service over relatively large coverage areas and access points of a second type (e.g., femto nodes) may provide service over smaller coverage areas and/or provide restricted service. | 07-16-2009 |
20090182871 | BACKUP PAGING FOR WIRELESS COMMUNICATION - A backup page is provided for a node that misses a page. In some aspects, a first type of access point in a system provides a backup page for an access terminal that is idling on a second of access point in the system in the event the access terminal misses a page by the second of access point in the system. An access point of the first type may page the access terminal according to a first paging schedule while an access point of the second type may page the access terminal according to a second paging schedule. In some aspects an access point of the first type (e.g., a macro node) provides service over a macro coverage area and an access point of the second type (e.g., a femto node) provides service over a smaller coverage area and/or provides restricted service. | 07-16-2009 |
20090196221 | METHOD AND APPARATUS FOR PROVIDING SIGNALING ACCESS - Signaling-only access may be established with an access node under certain circumstances such as, for example, upon determining that a node is not authorized for data access at the access node. A node that is not authorized for data access at an access node may still be paged by the access node through the use of signaling-only access. In this way, transmissions by the access node may not interfere with the reception of pages at the node. A first node may be selected for providing paging while a second node is selected for access under certain circumstances such as, for example, upon determining that the second node provides more desirable service than the first node. | 08-06-2009 |
20090197570 | PAGING AND ACCESS VIA DIFFERENT NODES - Signaling-only access may be established with an access node under certain circumstances such as, for example, upon determining that a node is not authorized for data access at the access node. A node that is not authorized for data access at an access node may still be paged by the access node through the use of signaling-only access. In this way, transmissions by the access node may not interfere with the reception of pages at the node. A first node may be selected for providing paging while a second node is selected for access under certain circumstances such as, for example, upon determining that the second node provides more desirable service than the first node. | 08-06-2009 |
20090201948 | METHODS AND APPARATUS FOR FORMATTING HEADERS IN A COMMUNICATION FRAME - Methods and apparatus for formatting headers for data packets within a communication frame for use in a wireless communication system are presented. Formatting headers includes determining the size of a wireless communication frame, and formatting the payloads and associated headers within the communication frame according to the determined size. This formatting includes placing headers at the beginning of the frame before the data packets corresponding to the headers to optimize processing of the headers at a receiver. Formatting may also include formatting the headers according to a first format within the frame when the determined frame size is below a predetermined size to optimize the size of the headers, and formatting according to a second format within the frame size of the data packet is equal to or greater than the predetermined size to optimize processing for frames having large data packets. | 08-13-2009 |
20090207830 | METHOD AND APPARATUS FOR TRANSMITTING AND RECEIVING SLOTTEDMODE ATTRIBUTE IN WIRELESS COMMUNICATION SYSTEMS - A method and apparatus for transmitting a SlottedMode attribute in a wireless communication system is described. A SlottedMode attribute message comprising an 8 bit Length field wherein the Length field indicates length of the complex attributes in octets, an 8 bit AttributeID field, an 8 bit SlotCycleBase field wherein the SlotCycleBase field is set to the SlotCycleBase that is used in calculating a period, an 8 bit SlotCycle field wherein the SlotCycle1 field is set to SlotCycle1, an 8 bit SlotCycle2 field wherein the SlotCycle | 08-20-2009 |
20090213791 | METHOD AND APPARATUS FOR PROCESSING IN AN IDLE STATE BY AN ACCESS TERMINAL IN WIRELESS COMMUNICATION SYSTEMS - A method and apparatus for processing an Idle state by an access terminal in a wireless communication system is described. An IdleState.Activate command, ActiveSetManagement.Activate command is issued. It is determined if a queued OpenConnection command is present. | 08-27-2009 |
20090219845 | METHOD AND APPARATUS FOR PROCESSING IN AN IDLE STATE BY AN ACCESS NETWORK IN WIRELESS COMMUNICATION SYSTEMS - A method and apparatus for processing an Idle state by an Access Network in a wireless communication system is described. an IdleState.Activate command and an ActiveSetManagement.Activate command are issued. It is determined if the protocol receives an IdleState.ConnectionFailed indication, or a ReverseTrafficChannelMAC.SupervisionFailed indication. | 09-03-2009 |
20090219857 | METHOD OF SERVING SECTOR MAINTENANCE IN A WIRELESS COMMUNICATION SYSTEMS - An apparatus and method for serving sector maintenance in a wireless communication system is described. A forward link shared signaling Change (FLSS) command is received and it is determined if a FLSS in the ChangeFLSS command is a member of a NonSynchronousSubset. | 09-03-2009 |
20090219866 | METHOD AND APPARATUS FOR TRANSITIONING FROM MONITOR STATE IN WIRELESS COMMUNICATION SYSTEMS - A method and apparatus is provided, comprising determining if a ForwardTrafficChannelMAC.PageReceived indication is generated and transitioning to an access state based upon the ForwardTrafficChannelMAC.PageReceived indication. A method and apparatus is further provided, comprising determining if a ControlChannelMAC.PageReceived indication is generated and transitioning to an access state based upon the ControlChannelMAC.PageReceived indication. A method and apparatus is further provided, comprising determining if a PageUATI message is received and transitioning to an access state. A method and apparatus is further provided, comprising determining if an OpenConnection Command is queued and transitioning to an access state. | 09-03-2009 |
20090221305 | A METHOD AND APPARATUS FOR PROCESSING A QUICKPAGE BLOCK IN WIRELESS COMMUNICATION SYSTEMS - A method and apparatus for processing a QuickPaging block in a wireless communication system are described. A QuickPaging block is received and it is determined if the QuickPaging block is with full access terminal identifier (ATI) results. | 09-03-2009 |
20090222698 | METHOD AND APPARATUS FOR ENTERING MONITOR STATE BY AN ACCESS TERMINAL IN WIRELESS COMMUNICATION SYSTEMS - A method and apparatus for processing of Monitor state by an access terminal is provided, comprising issuing a ControlChannelMAC.Activate command, issuing a ForwardTrafficChannelMAC.Activate command, issuing a SharedSignalingMAC.Activate command, issuing an OverheadMessage.Activate command, setting an internal variable NumAccessAttempts to ‘0’, determining whether a current superframe number is in a PageTimes array, determining whether there is a paging error in the current superframe, if the current superframe is in a PageTimes array, and defining paging error event in Control Channel MAC, if there is a paging error in the current superframe. | 09-03-2009 |
20090232019 | PROVIDING MULTIPLE LEVELS OF SERVICE FOR WIRELESS COMMUNICATION - Local breakout is provided by one or more nodes (e.g., a local access point and/or a local gateway) in a wireless network to facilitate access to one or more local services. In conjunction with local breakout, multiple IP points of presence relating to different levels of service may be provided for an access point. For example, one point of presence may relate to a local service while another point of presence may relate to a core network service. IP point of presence may be identified for an over-the-air packet to indicate a termination point for the packet. Also, different mobility management functionality may be provided at different nodes in a system whereby mobility management for a given node may be provided by a different node for different types of traffic. Thus, an access terminal may support multiple NAS instances. In addition, different types of paging may be provided for different types of traffic. Furthermore, messages associated with one protocol may be carried over another protocol to reduce complexity in the system. | 09-17-2009 |
20090247156 | REFERENCE SIGNAL MANAGEMENT IN MOBILE SYSTEMS - A reference signal management (RSM) program executing on a mobile device detects multiple reference signals, allocates those reference signals into groups, and performs reference signal management functions using information conveyed in the reference signals. The RSM program detects both broadband and narrowband reference signals and maintains updated groups of reference signals that are transmitted from access points with independent configurations or different radio technologies. Battery power of the mobile device is efficiently used to manage reference signals in heterogeneous network environments by preventing unnecessary handoffs, overhead downloads, access probes and new registrations. Reference signals are managed from both synchronous and asynchronous sectors and in idle mode as well as in connected state mode. The RSM program performs functions such as managing handoffs between access points, managing an idle mode of the mobile device, managing an active group of the detected reference signals, and collecting overhead parameters for the mobile device. | 10-01-2009 |
20090305664 | METHOD AND APPARATUS FOR ATTEMPTING ACCESS IN WIRELESS COMMUNICATION SYSTEMS - A method and apparatus for processing an AttemptAccess command in a wireless communication system is provided, comprising setting a ProbeSequenceNumber to 1, setting a ProbeNumber to 1, setting a TerminalAccessRetryPersistence value to a TerminalAccessClass number field of an AccessRetryPersistence value and setting a PilotPN value. | 12-10-2009 |
20090316654 | ACCESS TERMINAL ASSISTED NODE IDENTIFIER CONFUSION RESOLUTION USING A TIME GAP - Confusion resulting from assigning the same node identifier to multiple nodes is resolved through the use of confusion detection techniques and the use of unique identifiers for the nodes. In some aspects a network may provide a time gap (e.g., an asynchronous time gap) during which an access terminal may temporarily cease monitoring transmissions from a source node so that the access terminal may acquire a unique identifier from a target node. In some aspects an access terminal may commence handover operations at a target node after determining whether the access terminal is allowed to access the target node. In some aspects a source node may prepare several target nodes for potential handover in the event confusion is detected or likely. Here, the source node may send information relating to the preparation of the potential target nodes to the access terminal whereby the access terminal uses the handover preparation information to initiate a handover at that target node. | 12-24-2009 |
20090316655 | ACCESS TERMINAL ASSISTED NODE IDENTIFIER CONFUSION RESOLUTION - Confusion resulting from assigning the same node identifier to multiple nodes is resolved through the use of confusion detection techniques and the use of unique identifiers for the nodes. In some aspects a network may provide a time gap (e.g., an asynchronous time gap) during which an access terminal may temporarily cease monitoring transmissions from a source node so that the access terminal may acquire a unique identifier from a target node. In some aspects an access terminal may commence handover operations at a target node after determining whether the access terminal is allowed to access the target node. In some aspects a source node may prepare several target nodes for potential handover in the event confusion is detected or likely. Here, the source node may send information relating to the preparation of the potential target nodes to the access terminal whereby the access terminal uses the handover preparation information to initiate a handover at that target node. | 12-24-2009 |
20100008235 | REPORTING AND RESOLVING CONFLICTING USE OF A NODE IDENTIFIER - Conflicting use of a node identifier in a wireless network is reported and resolved. In some aspects, a wireless node receives wireless signals and determines, based on those signals, that more than one node uses the same node identifier. The wireless node may then report the conflicting use to a network node. Here, the wireless node may delay for a period of time before reporting the conflicting use. In some aspects, an access point that discovers a conflicting use (e.g., based on a received signal that indicates that another access point is using that same node identifier) may report the conflicting use and/or elect to use a different node identifier. In some aspects, a stateful procedure is used to resolve a conflicting use where, upon identification of a conflicting use, an access point negotiates with another access point to cause one of these access points to use a different node identifier. In some aspects, a stateless procedure is used to resolve a conflicting use where, upon identification of a conflicting use, an access point delays for a period of time before determining whether a different node identifier is to be used at one of the nodes. | 01-14-2010 |
20100029274 | SYSTEM AND METHOD FOR CELL SEARCH AND SELECTION IN A WIRELESS COMMUNICATION SYSTEM - Systems and methodologies are described herein that facilitate improved cell search and selection in a wireless communication system. For example, a terminal as described herein can utilize one or more Closed Subscriber Group (CSG)-specific offset and/or hysteresis parameters as described herein to increase the amount of time on which the terminal is allowed to camp on a desirable cell. Additionally, specialized reselection timing can be employed as described herein to increase a delay associated with selecting a Home Node B (HNB) or Home Evolved Node B (HeNB) cell, thereby reducing power consumption associated with rapid cell reselection operations in a densely populated network environment. Further, a two-step reselection process can be performed as described herein in the context of selecting a frequency for cell reselection, thereby mitigating the effects of rapid reselection between cells and/or frequencies due to CSG cell prioritization. | 02-04-2010 |
20100034083 | METHOD AND APPARATUS FOR PACKET DIFFERENTIATION IN A WIRELESS COMMUNICATION SYSTEM - Systems and methodologies are described herein that facilitate efficient packet differentiation and forwarding in a wireless communication system. As described herein, identifiers or tags (e.g., corresponding to radio bearers, logical channels, Internet Protocol (IP) addresses, etc.) can be applied to respective packets based on their destinations as determined by traffic flow templates (TFTs) associated with the packets. Further, techniques are provided for establishing radio bearers, IP addresses, and/or other resources for transmission of packets associated with respective TFTs in a manner irrespective of associated quality of service (QoS) policies for the TFTs. Upon an establishment of resources, techniques are described herein for tagging packets with resources associated with TFTs corresponding to the packets to facilitate forwarding of respective packets to their intended destinations with lowered required processing cost. Additionally, techniques are described herein for offloading packet analysis and/or forwarding functionality from a terminal to a device tethered to the terminal. | 02-11-2010 |
20100034160 | UPDATING FREQUENCY PRIORITY LISTS IN WIRELESS COMMUNICATIONS - Systems and methodologies are described that facilitate communicating frequency priority lists to wireless devices during active mode communication. The lists can be communicated according to a timer, as new lists (or updates thereto) are generated or obtained, and/or the like. In this regard, devices can receive frequency priority lists before connection to an access point is released or lost. Upon connection release or link failure, devices can use the frequency priority list to monitor frequencies for receiving paging signals. In addition, the frequency priority lists can include layer types corresponding to the frequencies that specify types of access points related to the frequencies. Certain frequencies can be avoided or monitored for paging signals according to the layer types. | 02-11-2010 |
20100035615 | INTRA-FREQUENCY CELL RESELECTION RESTRICTION IN WIRELESS COMMUNICATIONS - Systems and methodologies are described that facilitate utilizing reselection indicators in reselecting access points in wireless communications. In particular, an indicator can be provided relating to a restricted association access point that specifies whether intra-frequency reselection is allowed. If so, a mobile device receiving the indicator can reselect to other access points, to which it has access, operating in a similar frequency. If not, the mobile device can evaluate access points in other frequencies so as not to cause substantial interference to the restricted association access point. In addition, a predicted level of interference caused by communicating with an intra-frequency access point can be computed and evaluated to override the reselection indicator, in some cases. Thus, a restricted association access point can control reselection for some devices to mitigate interference while allowing the devices to override prohibitive restricted access points. | 02-11-2010 |
20100039992 | ACQUISITION OF ACCESS POINT INFORMATION WITH ASSISTANCE FROM OTHER ACCESS POINTS - An access point acquires information about another access point from at least one other access point. For example, the access point may send a query to one or more neighbor access points to obtain information about the other access point. In some aspects these operations may be employed in conjunction with establishing neighbor relations in a network. For example, in the event a neighbor list of a given access point does not have certain information about another access point (e.g., an IP address), the given access point may query its neighbor access points to see whether those access points have information about the other access point in their neighbor lists. Upon receipt of this information, the given access point may use the information to establish neighbor relations with the other access point. | 02-18-2010 |
20100069062 | WIRELESS COMMUNICATION PAGING AND REGISTRATION UTILIZING MULTIPLE TYPES OF NODE IDENTIFIERS - Paging load and/or registration load in a network is reduced by using different types of identifiers to specifying which nodes page an access terminal in the network. In some aspects, the network maintains a list that specifies that certain individual nodes (e.g., cells or sectors) are to page a given access terminal and/or that one or more zones (e.g., tracking areas) are to page the access terminal. In some aspects, an access terminal in a network may be configured to provide a forward-looking paging list to the network. The list provided by an access terminal may specify different types of node identifiers (e.g., individual node identifiers, subscriber groups, etc.). The network may then use the list to determine which nodes are to page a given access terminal such that when the access terminal moves to a different node, that node may already be configured to page the access terminal. In some aspect paging load and registration load are managed in a deployment that includes different types of access points. For example, access points of a first type (e.g., macro nodes) may provide service over relatively large coverage areas and access points of a second type (e.g., femto nodes) may provide service over smaller coverage areas and/or provide restricted service. | 03-18-2010 |
20100124172 | DECLARING RADIO LINK FAILURE BASED ON TARGET-SPECIFIC THRESHOLD - The number of handover-related failures that occur in a communication system may be reduced by taking target access point conditions into account when declaring radio link failure and/or by delaying certain handover operations. In some aspects, criteria for radio link failure detection and access terminal-controlled mobility may take into account access point parameters related to neighboring cells that may be available as mobility targets. For example, filtering mechanisms for detecting radio link failure based on radio layer problem reports may also take into account the availability of various neighbor access points and their measured signal strengths. In addition, a handover command may be sent earlier than in conventional systems (e.g., the handover command may be sent even though the target access point is weaker than the source access point) and include an indication that instructs the access terminal to delay handover until a specified condition is met. For example, handover may be delayed until the target access point becomes stronger than the source access point. | 05-20-2010 |
20100124193 | SYSTEM AND METHOD FOR DISTRIBUTING WIRELESS NETWORK ACCESS PARAMETERS - A system and method are provided for distributing wireless network access parameters in a multi-mode communications user terminal (UT). The method includes: establishing a link between a UT and a first communications network (i.e., a cellular network); accessing a parameters server via the first network; downloading access parameters for a wireless, second communications network (i.e., a Wireless Local Area Network); and, using the downloaded access parameters to establish a wireless link between the UT and the second communications network. The downloaded access parameters may include information such as a security key, Service Set IDentifier (SSID), traffic channel allocation, and optimization parameters including transmit power, quality of service (QoS) settings, and operational mode. Alternately, the database may cross-reference UT ID to parameters such as QoS, IP address, gateway information, subnet mask, Domain Name Server (DNS) information, or geographical location. | 05-20-2010 |
20100124203 | CONDITIONAL ACCESS TERMINAL INITIATION OF DELAYED HANDOVER - The number of handover-related failures that occur in a communication system may be reduced by taking target access point conditions into account when declaring radio link failure and/or by delaying certain handover operations. In some aspects, criteria for radio link failure detection and access terminal-controlled mobility may take into account access point parameters related to neighboring cells that may be available as mobility targets. For example, filtering mechanisms for detecting radio link failure based on radio layer problem reports may also take into account the availability of various neighbor access points and their measured signal strengths. In addition, a handover command may be sent earlier than in conventional systems (e.g., the handover command may be sent even though the target access point is weaker than the source access point) and include an indication that instructs the access terminal to delay handover until a specified condition is met. For example, handover may be delayed until the target access point becomes stronger than the source access point. | 05-20-2010 |
20100157850 | IN-BAND PROVISIONING FOR A CLOSED SUBSCRIBER GROUP - In-band provisioning enables subscribers to manually provision themselves via an access point at which the subscribers would not otherwise be allowed access. For example, a subscriber may be temporarily accepted by a restricted access point (e.g., an access point that belongs to a closed subscriber group). The subscriber is then given limited access to enable the subscriber to be provisioned at the access point. For example, the subscriber may be provisioned for full access at the access point if the subscriber presents a valid authorization credential to a provisioning entity. | 06-24-2010 |
20100159899 | IN-BAND PROVISIONING FOR A CLOSED SUBSCRIBER GROUP - In-band provisioning enables subscribers to manually provision themselves via an access point at which the subscribers would not otherwise be allowed access. For example, a subscriber may be temporarily accepted by a restricted access point (e.g., an access point that belongs to a closed subscriber group). The subscriber is then given limited access to enable the subscriber to be provisioned at the access point. For example, the subscriber may be provisioned for full access at the access point if the subscriber presents a valid authorization credential to a provisioning entity. | 06-24-2010 |
20100173626 | ADAPTATION OF HANDOVER PARAMETERS - Handover parameter settings are automatically adapted in access points in a system to improve handover performance. Reactive detection techniques are employed for identifying different types of handover-related failures and adapting handover parameters based on this detection. Messaging schemes are also employed for providing handover-related information to access points. Proactive detection techniques also may be used for identifying conditions that may lead to handover-related failures and then adapting handover parameters in an attempt to prevent such handover-related failures. Ping-ponging may be mitigated by adapting handover parameters based on analysis of access terminal visited cell history acquired by access points in the system. In addition, configurable parameters (e.g., timer values) may be used to detect handover-related failures. | 07-08-2010 |
20100173633 | HANDOVER FAILURE MESSAGING SCHEMES - Handover parameter settings are automatically adapted in access points in a system to improve handover performance. Reactive detection techniques are employed for identifying different types of handover-related failures and adapting handover parameters based on this detection. Messaging schemes are also employed for providing handover-related information to access points. Proactive detection techniques also may be used for identifying conditions that may lead to handover-related failures and then adapting handover parameters in an attempt to prevent such handover-related failures. Ping-ponging may be mitigated by adapting handover parameters based on analysis of access terminal visited cell history acquired by access points in the system. In addition, configurable parameters (e.g., timer values) may be used to detect handover-related failures. | 07-08-2010 |
20100215006 | RLC FOR MULTI-CARRIER LTE SYSTEMS - Certain embodiments of the present disclosure propose methods for supporting multicarrier in a radio link control (RLC) communication layer. The proposed methods reduce the processing required when scheduling information for each carrier becomes available by generating protocol data units (PDUs) in advance, and storing the PDUs in buffers associated with each carrier. | 08-26-2010 |
20100227603 | METHOD AND APPARATUS FOR FACILITATING A COMMUNICATION BETWEEN AN ACCESS POINT BASE STATION AND A NEIGHBORING BASE STATION - Aspects are disclosed for self-configuring an access point via a backhaul connection. A backhaul connection is established between an access point base station and a neighboring base station. Information associated with an external neighbor parameter is then received via the backhaul connection, and an internal neighbor parameter is self-configured based on the external neighbor parameter. | 09-09-2010 |
20100246501 | CONNECTION CLOSE FOR DISJOINT SERVING SECTORS - Systems and methodologies are described that that facilitate resource reclamation in a wireless communications system having a disjoint serving sector configuration. A mobile device can report activity on a communication link (e.g., forward link or reverse link) to a serving sector that provides a corresponding communication link. For instance, forward link activity can be reported to a reverse link serving sector and/or reverse link activity can be reported to a forward link serving sector. The activity can be analyzed to ascertain overall activity of a mobile device. Based upon the analysis, a serving sector can de-allocate resources to the mobile device. | 09-30-2010 |
20100260133 | FLEXIBLE MEDIUM ACCESS CONTROL (MAC) FOR AD HOC DEPLOYED WIRELESS NETWORKS - Systems and methods are disclosed that facilitate wireless communication using resource utilization messages (RUMs), in accordance with various aspects. A RUM may be generated for a first node, such as an access point or an access terminal, to indicate that a first predetermined threshold has been met or exceeded. The RUM may be weighted to indicate a degree to which a second predetermined threshold has been exceeded. The first and/or second predetermined thresholds may be associated with various parameters associated with the node, such as latency, throughput, data rate, spectral efficiency, carrier-to-interference ratio, interference-over-thermal level, etc. The RUM may then be transmitted to one or more other nodes to indicate a level of disadvantage experienced by the first node. | 10-14-2010 |
20100278147 | ACCESS MODE-BASED ACCESS CONTROL - Access control for an access point (e.g., a cell of the access point) may be based on an access mode associated with the access point. For example, depending on the access mode, access control may involve performing a membership check for the access point. Such a membership check may be performed at a network entity, a source access point, or some other suitable location in a network. In some aspects, access control may involve performing a membership check for an access point in conjunction with a context fetch procedure. Such a procedure may be performed, for example, when an access terminal arrives at the access point after experiencing RLF at another access point. | 11-04-2010 |
20100279687 | ACCESS MODE-BASED ACCESS CONTROL - Access control for an access point (e.g., a cell of the access point) may be based on an access mode associated with the access point. For example, depending on the access mode, access control may involve performing a membership check for the access point. Such a membership check may be performed at a network entity, a source access point, or some other suitable location in a network. In some aspects, access control may involve performing a membership check for an access point in conjunction with a context fetch procedure. Such a procedure may be performed, for example, when an access terminal arrives at the access point after experiencing RLF at another access point. | 11-04-2010 |
20110019617 | HEADER COMPRESSION FOR RELAY NODES - Systems and methodologies are described that facilitate compressing headers for relay nodes. In particular, a plurality of internet protocol (IP) headers, tunneling protocol headers, and/or other routing headers in a packet can be compressed to facilitate efficient communications of packets between relay nodes and/or a donor access point. A donor or other upstream access point can be provided with a filter mask, bit stream, and filter mask identifier generated by a related relay node for packets having given static header data. Thus, the donor or other upstream access point can apply the filter mask to incoming packet headers, and where a resulting bit stream matches the received bit stream, can replace at least a portion of the packet headers with the filter mask identifier. The relay node can subsequently decompress the packet headers based on the filter mask identifier. Similar functionality can be used for compressing uplink communications. | 01-27-2011 |
20110019770 | METHODS AND APPARATUS FOR MEASURING, COMMUNICATING AND/OR USING INTERFERENCE INFORMATION - Wireless communications methods and apparatus are described. A communications apparatus, e.g., a base station, measures interference information, e.g., other sector interference information. The communications apparatus generates a preamble which includes a plurality of pilot symbols and at least one of the pilot symbols includes interference information. In some embodiments, the preamble is part of a superframe structure, e.g., a recurring superframe structure, including the preamble and a plurality of frames, at least some of the frames used to convey traffic data. The communications apparatus transmits the preamble, thus broadcasting the interference information to access terminals in the vicinity. An access terminal receives the preamble including a plurality of pilot signals, at least one of the pilot signals including interference information. The access terminal recovers the interference information from the received preamble and controls signal transmission based on the recovered interference information. | 01-27-2011 |
20110039576 | Enhanced Positioning Assistance Data For Reduced Signaling - Apparatus and methods for determining a location estimate of a mobile device based on an extended set of assistance data are presented. The extended assistance data includes assistance data for base stations, such as cellular base stations and access points, not expected to be viewable by the mobile device in a (current) first geographical area but expected to be viewable by the mobile device in a (future) second geographical area. By seeding the mobile device with assistance data expected to be useful in the future, the network reduces messaging between the network and mobile device and battery consumption by the mobile device. | 02-17-2011 |
20110080883 | CARRIER INDICATOR FIELD FOR CROSS CARRIER ASSIGNMENTS - Techniques for supporting operation on multiple carriers are described. In an aspect, a carrier indicator (CI) field may be used to support cross-carrier assignment. The CI field may be included in a grant sent on one carrier and may be used to indicate another carrier on which resources are assigned. In one design, a cell may determine a first carrier on which to send a grant to a UE, determine a second carrier on which resources are assigned to the UE, set a CI field of the grant based on the second carrier and a CI mapping for the first carrier, and send the grant to the UE on the first carrier. The UE may receive the grant on the first carrier from the cell and may determine the second carrier on which resources are assigned to the UE based on the CI field of the grant and the CI mapping for the first carrier. | 04-07-2011 |
20110092209 | SYSTEMS, METHODS AND APPARATUS FOR FACILITATING HANDOVER CONTROL USING RESOURCE RESERVATION WITH FREQUENCY REUSE - Systems, methods and apparatus for facilitating handover control using resource reservation with frequency reuse are provided. In one embodiment, the method can include: transmitting scheduling information for the transmission of information on frequencies corresponding to an unreserved portion of a frequency band. The method can also include transmitting scheduling information for the transmission of information on frequencies corresponding to a reserved portion of the frequency band. A frequency reuse scheme can be employed over the frequencies corresponding to the reserved portion of the frequency band, and the information transmitted on the frequencies corresponding to the reserved portion of the frequency band can be handover signalling information. | 04-21-2011 |
20110110254 | CELL RESELECTION ENHANCEMENT - Methods and apparatuses are provided that facilitate measuring frequencies for cell reselection. A base station providing a cell can be interfered by one or more closed subscriber group (CSG) cells over at least a portion of frequency utilized by the base station to serve one or more devices. The base station can determine and provide one or more parameters related to performing a measurement of a system bandwidth to one or more devices that are within range of the one or more CSG cells that includes at least a portion of the bandwidth utilized by the one or more CSG cells. The one or more devices can accordingly perform measurements of the system bandwidth of the base station for determining one or more communication metrics related to performing reselection and/or measuring other frequencies for reselection. The measurement can relate to a wideband measurement, a plurality of narrowband measurements, etc. | 05-12-2011 |
20110149848 | HEADER COMPRESSION FOR RELAY NODES - Systems and methodologies are described that facilitate compressing headers for relay nodes. In particular, a plurality of internet protocol (IP) headers, tunneling protocol headers, and/or other routing headers in a packet can be compressed to facilitate efficient communications of packets between relay nodes and/or a donor access point. An access point receiving packets to be compressed can provide a disparate access point with a compression context and an uncompressed packet. The disparate access point can generate a decompression context related to subsequent packets having similar header values and can store the decompression context with the context identifier. The access point can subsequently compress received packets having similar header values and communicate the compressed packets with the context identifier to the disparate access point. The disparate access point can apply the previously generated decompression context associated with the context identifier to decompress the packets. | 06-23-2011 |
20110158116 | METHOD AND APPARATUS THAT FACILITATES A TIMING ALIGNMENT IN A MULTICARRIER SYSTEM - Aspects are disclosed for facilitating a timing alignment in a multicarrier system. In one aspect, at least one downlink timing associated with at least one downlink carrier is determined, and an uplink timing associated with an uplink group of carriers is ascertained based on at least one downlink timing and a timing offset associated with the uplink group of carriers. Each of the uplink group of carriers is then transmitted within a threshold value of the uplink timing. In another aspect, a downlink communication is transmitted to a wireless terminal via at least one downlink carrier. This embodiment further includes assigning a timing offset to an uplink group of carriers, and providing the timing offset to the wireless terminal via the at least one downlink carrier. An uplink communication is then received via the uplink group of carriers according to the timing offset. | 06-30-2011 |
20110194407 | Systems and Methods of Mobile Relay Mobility in Asynchronous Networks - A system and method of managing adjustment of synchronization timing for handover of a mobile relay is disclosed. The method includes repositioning coverage of the mobile relay from a first network access point to a second network access point and adjusting a synchronization timing of the mobile relay in an asynchronous network of the wireless communication system. | 08-11-2011 |
20110205980 | MULTI-NODE RESOURCE REQUEST PIPELINING - Systems and methodologies are described that facilitate generating anticipatory resource requests for multiple node communications in wireless networks. In a peer-to-peer, ad hoc, relay network, or similar configuration where one node facilitates communicating between a plurality of additional nodes, the node can generate an anticipatory resource request to a serving node. A number of resources can be determined for at least one of the plurality of additional nodes (from the received resource request, one or more communication parameters, a set of granted resources, etc.). The device can generate an anticipatory resource request for communicating to the serving device based on the number of resources. In addition, the anticipatory resource request can be generated based on parameters and/or resource requests from multiple other devices. | 08-25-2011 |
20110222627 | METHOD AND APPARATUS FOR CODEBOOK EXCHANGE IN A MULTIPLE ACCESS WIRELESS COMMUNICATION SYSTEM - Methods and apparatus are disclosed for generating and exchanging codebooks in a multiple access wireless communication system. The codebooks include a plurality of preferred precoding matrices. | 09-15-2011 |
20110242999 | METHOD AND APPARATUS FOR CONDUCTING MEASUREMENTS WHEN MULTIPLE CARRIERS ARE SUPPORTED - Measurements are conducted on one or more carriers in a case where an access terminal supports reception on multiple carriers. Upon determining that an access terminal is capable of concurrently receiving on a given set of carriers, a measurement is conducted on one or more carriers of the set while receiving on or more other carriers of the set. Conversely, upon determining that an access terminal is not capable of concurrently receiving on a given set of carriers, a measurement is conducted on one or more carriers of the set while not receiving on or more other carriers of the set. In addition, data transfers to or from an access terminal on a carrier may be restricted (e.g., data transfers not scheduled or only low priority data transfers scheduled) during one or more subframes before or after the access terminal conducts a measurement on another carrier. | 10-06-2011 |
20110256834 | METHOD AND APPARATUS TO FACILITATE SUPPORT FOR MULTI-RADIO COEXISTENCE - A method of wireless communication includes identifying one or more coexistence issues corresponding to a utilized set of communication resources of a User Equipment (UE). The method also includes communicating an indication of the coexistence issue(s) to a serving base station. | 10-20-2011 |
20110275394 | RESOURCE PARTITIONING INFORMATION FOR ENHANCED INTERFERENCE COORDINATION - Methods and apparatus for partitioning resources for enhanced inter-cell interference coordination (eICIC) are provided. Certain aspects involve broadcasting a message indicating time-domain resource partitioning information (RPI), where a user equipment (UE) may be operating in idle mode. With the RPI, the UE may be able to identify protected resources with reduced/eliminated interference from neighboring cells. The RPI in this broadcasted message may be encoded as a bitmap as an alternative or in addition to enumeration of the U/N/X subframes. Other aspects entail transmitting a dedicated or unicast message indicating the time-domain RPI, where a UE may be operating in connected mode. With the RPI, the UE may be able to determine channel state information (CSI), make radio resource management (RRM) measurements, or perform radio link monitoring (RLM), based on one or more signals from a serving base station during the protected time-domain resources. | 11-10-2011 |
20110292915 | MULTIPLE CARRIER ACTIVATION/DEACTIVATION IN WIRELESS COMMUNICATIONS - Systems, methods and apparatuses are provided that facilitate selecting resources, such as time slots, subframes, etc., for performing bandwidth switching related to activating and/or deactivating one or more carriers. A data portion of one or more subframes can be selected for performing bandwidth switching. In addition, a device can determine whether one or more downlink grants are received in the one or more subframes, and can avoid selecting such subframes. The device can alternatively perform the bandwidth switching and request retransmission of the data portion. Additionally or alternatively, the device can determine a type of the one or more subframes and/or signals transmitted in the one or more subframes to determine whether to perform bandwidth switching in the subframes. The bandwidth switching can include changing a sampling rate, reconfiguring frequency filters, modifying a local oscillator, etc. | 12-01-2011 |
20110310791 | AUTOMATIC NEIGHBOR RELATION (ANR) FUNCTIONS FOR RELAY NODES, HOME BASE STATIONS, AND RELATED ENTITIES - Certain aspects of the present disclosure provide methods and apparatus for implementing Automatic Neighbor Relation (ANR) functions for relay nodes (RNs), home base stations (e.g., home evolved Node Bs (HeNBs), and related entities (e.g., donor evolved Node Bs (DeNBs) and HeNB gateways). X2 is designed to be an end-to-end protocol between two evolved Node Bs (eNBs). However, for the case of RNs or HeNBs, this protocol may involve a proxy function (e.g., where the DeNB acts a proxy for the RN). This creates several issues, such as how to manage a potentially very large set of cells under a gateway and how to route S1 messages used for X2 endpoint discovery. Therefore, certain aspects of the present disclosure generally relate to methods and apparatus for maintaining the X2 connections intelligently and hiding the large number of nodes from the X2 endpoints based on various triggers. | 12-22-2011 |
20120020229 | METHOD AND APPARATUS TO FACILITATE SUPPORT FOR MULTI-RADIO COEXISTENCE - A method of wireless communication includes receiving signaling from a served User Equipment (UE), via a radio access technology, indicating an interfering technology associated with coexistence issues experienced by the served UE. The method also includes calculating future subframes expected to experience coexistence issues based on previous subframes estimated to have experienced coexistence issues. | 01-26-2012 |
20120063302 | RANDOM ACCESS DESIGN IN A MULTIPLE COMPONENT CARRIER COMMUNICATION NETWORK - User equipment, systems, apparatuses, methods and/or computer program products are provided to facilitate random access procedures in a wireless communication network. The selection and utilization of uplink and downlink component carriers for conducting contention-free and contention-based random access procedures is facilitated in a multiple component carrier system, where a user equipment is configured with multiple uplink and downlink component carriers. This Abstract is provided for the sole purpose of complying with the Abstract requirement rules that allow a reader to quickly ascertain the disclosed subject matter. It is therefore to be understood that it should not be used to interpret or limit the scope or the meaning of the claims. | 03-15-2012 |
20120172035 | TUNE-AWAY PROTOCOLS FOR WIRELESS SYSTEMS - Systems and methods are provided for processing wireless signal components for a mobile wireless access broadband service. This can include processes for defining a protocol that controls whether to invoke a tune away component to determine an alternative wireless communications path. This can include defining one or more tune away parameters for the tune away component. The process can then automatically select the alternative wireless communications path based in part on the tune away procedure and at least one of the tune away parameters. | 07-05-2012 |
20120188907 | METHOD AND APPARATUS TO FACILITATE SUPPORT FOR MULTI-RADIO COEXISTENCE - To improve performance in devices capable of communication using multiple radio access technologies (RATs), a gap pattern may be constructed in which a first RAT is quieted during certain times to allow for a second RAT to operate without interference. Gap patterns may be constructed based on timeline constraints, such as grant scheduling and HARQ performance, or based on desired performance levels of one or more of the RATs. Gap patterns may be selected by a user equipment or base station. Gap patterns may be selected to protect information in certain subframes. Potential gap patterns may be assigned weights indicating their desirability. | 07-26-2012 |
20120252523 | SERVING SECTOR INTERFERENCE BROADCAST AND CORRESPONDING RL TRAFFIC POWER CONTROL - Systems and methodologies are described that facilitate broadcasting an interference level and adjusting transmit power corresponding to a reverse link in accordance with the interference level. An interference indication can be broadcasted on a broadcast channel in a wireless communication system. In response to the broadcast, mobile devices can adjust transmit power on the reverse link based upon considerations of the interference level. Further, mobile devices can evaluate an initial set point of a transmit power level during periods of inactivity. | 10-04-2012 |
20120263032 | METHODS AND APPARATUS FOR RESOLVING IDENTIFIER CONFLICTS IN A COMMUNICATION SYSTEM - Apparatus and methods of allocating identifiers in a communication system include receiving, at a first access point, a set of physical layer identifiers used by a plurality of access points, with assistance from an access terminal. The apparatus and methods further include detecting, relative to one of the plurality of access points, a conflicting physical layer identifier. Additionally, the apparatus and methods include selecting, at the first access point, a first physical layer identifier distinct from the conflicting physical layer identifier. | 10-18-2012 |
20120307808 | DETERMINING UE INTERFERENCE DURING HANDOVER IN ENHANCED INTER-CELL INTERFERENCE COORDINATION - A method of wireless communication determines a UE interference condition during handover. A target cell receives information that indicates an interference condition of a user equipment (UE). Prior to completing handover, the target cell determines an expected UE interference condition that will arise after completing the handover of the UE at a target base station. The information can be determined based on a message from the UE. The UE message may indicate which cell is the strongest, indicate the interference condition at both the source and target cells, or only provide a measurement of the strongest cell. Based on the UE measurements, the target eNodeB may schedule the UE on resources based on the expected interference condition at the UE that may arise after the handover. | 12-06-2012 |
20130021974 | REVERSE LINK FEEDBACK FOR INTERFERENCE CONTROL IN A WIRELESS COMMUNICATION SYSTEM - Systems and methodologies are described that provide techniques for generating and utilizing reverse link feedback for interference management in a wireless communication system. Channel quality and/or interference data can be obtained by a terminal from a serving sector and one or more neighboring sectors, from which an interference-based headroom value can be computed that contains interference caused by the terminal to an allowable range. The interference-based headroom value can then be provided with power amplifier (PA) headroom feedback to the serving sector. Based on the provided feedback from the terminal, the serving sector can assign resources for use by the terminal in communication with the serving sector. Further, the serving sector may choose to honor or disregard a received interference-based power value based on quality of service and/or other system parameters. | 01-24-2013 |
20130039171 | METHODS AND APPARATUSES FOR FREQUENCY SPECTRUM SHARING - Techniques are provided for frequency spectrum sharing that allows secondary operators to access a frequency band of a primary operator without interfering with the primary operator's use of the band, while ensuring service continuity for devices of the secondary operators. For example, there is provided a method that may involve identifying an outage on a first channel of a plurality of channels of a spectrum, wherein each of the plurality of channels is allocated to one of a plurality of operators. The method may involve migrating all mobile stations in communication over the first channel of the plurality of channels to at least one other channel of the plurality of channels during the outage. | 02-14-2013 |
20130070626 | METHOD AND APPARATUS FOR CHANNEL DISCOVERY IN COGNITIVE RADIO COMMUNICATIONS - Techniques are provided for channel discovery. For example, there is provided a method operable by a mobile entity that may involve measuring beacon signals associated with the network. In one approach, the method may involve, in response to detecting an Authorized Shared Access (ASA) beacon signal on a frequency common to each network entity on a given ASA channel, extracting frequency information from the ASA beacon signal, wherein the ASA beacon signal comprises a single frequency network (SFN) beacon signal. In another approach, the method may involve, in response to detecting an ASA beacon signal on a frequency common to each network entity on a given ASA channel, extract frequency information from the ASA beacon signal, wherein timing correlates with an operating frequency for the ASA beacon signal. | 03-21-2013 |
20130107702 | PROVIDING MULTIPLE LEVELS OF SERVICE FOR WIRELESS COMMUNICATION | 05-02-2013 |
20130142116 | CELL CANCELLATION LIST AND AN ADAPTIVE RADIO LINK FAILURE TRIGGER FOR IMPROVED SPECTRUM SHARING - A cell cancellation method for improved spectrum sharing is provided. The cell cancellation method includes detecting interference from a cell. The method also includes cancelling a signal from the cell when a physical cell identifier corresponding to the cell is indicated in a cancellation list. An adaptive radio link failure (RLF) trigger method for improved spectrum sharing is disclosed. The RLF trigger method includes detecting interference from a cell. The RLF trigger method also includes adjusting a radio link failure trigger according to a cell identity of an interferer associated with the cell. | 06-06-2013 |
20130148558 | LOW POWER NODE DORMANT STATE - The state of an access link and backhaul link of a low power node may be determined and controlled after a low power node is initialized. The overhead signaling on the access link of a relay is controlled based on detecting a user equipment (UE). The connection on the backhaul link of the relay is managed in response to the overhead signaling on the access link. | 06-13-2013 |
20130194948 | METHODS FOR INDICATING BACKHAUL RELAY GEOMETRY - A backhaul quality is measured. One or more subsets of cell identifiers having a mapped backhaul quality that maps to the measured backhaul quality are identified. The one or more subsets have a set of cell identifiers associated therewith. A network is queried to indicate one or more cell identifiers in the identified subset of cell identifiers available for a user equipment (UE) relay. One of the one or more indicated cell identifiers is selected. If more than one subset of cell identifiers has a mapped backhaul quality that maps to the measured backhaul quality, first and second subsets having respective first and second mapped backhaul qualities are selected and the backhaul qualities are compared relative to a backhaul quality threshold. The mapped backhaul quality that most satisfies the backhaul quality threshold is identified for the network query. | 08-01-2013 |
20130195054 | METHOD AND APPARATUS FOR WHITE SPACE OPERATION BY A MOBILE ENTITY - A method by an access point for wireless communication service includes receiving configuration parameters from a core network entity for operation as a base station using at least one non-white space (non-WS) bandwidth. The method further includes determining whether the received configuration parameters comprise an indication for the access point to use white space (WS) for the service. The method further includes requesting authorization information from a WS database to operate in the WS, in response to the received parameters comprising the indication. An access point comprising a processor, memory and transceiver may be configured to perform the elements of the method, using a computer-readable storage medium or other means. | 08-01-2013 |
20130196632 | METHOD AND APPARATUS FOR WHITE SPACE OPERATION BY A MOBILE ENTITY - A method operable by an access point for using white space (WS) bandwidth in wireless communication service includes receiving a request to establish a connection from a mobile entity. The method further includes forwarding the request to a service authentication entity to authenticate the mobile entity for the service, and obtaining authorization for service and white space (WS) parameters for the mobile entity from the service authentication entity. The method further includes determining the connection is operating in WS; and authenticating the mobile entity for the service in the WS based at least in part on the received WS parameters. A complementary method is performed by a service authentication entity. Wireless communication apparatus are configured to perform the methods by executing instructions stored on a computer-readable medium. | 08-01-2013 |
20130235848 | SYSTEMS, METHODS AND APPARATUS FOR FACILITATING HANDOVER CONTROL USING RESOURCE RESERVATION WITH FREQUENCY REUSE - Systems, methods and apparatus for facilitating handover control using resource reservation with frequency reuse are provided. In one embodiment, the method can include: transmitting scheduling information for the transmission of information on frequencies corresponding to an unreserved portion of a frequency band. The method can also include transmitting scheduling information for the transmission of information on frequencies corresponding to a reserved portion of the frequency band. A frequency reuse scheme can be employed over the frequencies corresponding to the reserved portion of the frequency band, and the information transmitted on the frequencies corresponding to the reserved portion of the frequency band can be handover signaling information. | 09-12-2013 |
20130272129 | BACKGROUND TRAFFIC HANDLING IN LTE - A method, an apparatus, and a computer program product for wireless communication are provided. The apparatus may be an eNB. In one configuration the eNB may establish a connection to a remote apparatus, receive a message from the remote apparatus indicating that the connection is supporting one of background traffic or active traffic, determine whether the connection is supporting the background traffic or the active traffic using the message, and set a time value for a state timer related to an operating state of the remote apparatus based on whether the connection is supporting the background traffic or the active traffic. In another configuration the eNB may establish a connection to a remote apparatus and disable one or more modes of communication based on whether the connection is supporting the background traffic or the active traffic. | 10-17-2013 |
20140056192 | WIRELESS LOCAL AREA NETWORK DISCOVERY USING NON-WLAN TIMING REFERENCE - Methods, systems, and devices are described for assisting discovery of a wireless local area network (WLAN). A timing reference originating from a first radio technology is identified by a user equipment (UE). A WLAN receiver of the UE is woken up according to a beacon transmission schedule to listen for a beacon on the WLAN. The first radio technology is a non-WLAN radio technology, and the beacon transmission schedule is based at least in part on the timing reference. The timing reference originating from the first radio technology is identified by a Wireless Access Point (WAP). The WAP broadcasts a beacon on the WLAN according to the beacon transmission schedule. | 02-27-2014 |
20140071941 | METHODS AND APPARATUS FOR PCI SELECTION TO REDUCE INTERFERENCE FROM UNLOADED CELLS - A method, an apparatus, and a computer program product for wireless communication are provided in connection with improving PCI selection and/or allocation so as to reduce interference from unloaded cells. In one example, a network entity is equipped to determine whether a cell is loaded or unloaded, and allocate a PCI from a common pool of PCIs to the cell when the cell is unloaded. In another example, a network entity is equipped to determine that a cell is to transition between an unloaded state and a loaded state, and use a first PCI from a common PCI pool associated with the cell in the unloaded state and a second PCI associated with the cell in the loaded state. In another example, a communications device is equipped to attempt to access a first cell associated with a first PCI which indicated that the first cell is unloaded. | 03-13-2014 |