Patent application number | Description | Published |
20090264130 | METHOD AND APPARTUS FOR MANAGEMENT OF AUTOMATIC NEIGHBOR RELATION FUNCTION IN WIRELESS NETWORKS - Systems and methodologies are described that facilitate management of automatic neighbor relation functions in wireless networks. The system can include components and/or devices that ascertain whether or not to add or remove a neighbor relation based on information associated with an operations and management system, wherein the operations and management system dispatches add or remove requests to a base station that establishes, updates, and/or maintains a neighbor relations table and/or set of neighbor relations that includes neighbor relations between cells. | 10-22-2009 |
20100035647 | AUTOMATED PARAMETER ADJUSTMENT TO COMPENSATE SELF ADJUSTING TRANSMIT POWER AND SENSITIVITY LEVEL AT THE NODE B - A small base node such as a Home Base Node (HNB), or femto cell, may reduce its transmit power in order to prevent co-channel or adjacent channel interference, or to limit its coverage area. Once the power is set, the HNB signal to a served Home User Equipment (HUE) its transmit Common Pilot Channel (CPICH) transmit power for accurate path loss estimation. When this power is outside of the permissible range, the HNB adjusts other parameters (such as Random Access Channel (RACH) constant value) to compensate for the error in signaled CPICH power, and thus compensate in that process the error in determining path loss. Similarly, if the uplink sensitivity is adjusted, to prevent interference, parameters would also be adjusted and signaled to the HUE to reflect the link imbalance. | 02-11-2010 |
20100203890 | METHOD AND APPARATUS FOR FACILITATING A BEACON-ASSISTED HANDOVER TO A HOME NODE-B FOR USERS ON AN ACTIVE CALL - Methods, apparatuses, and computer program products are disclosed for facilitating a beacon-assisted handover from a macro network to a femto cell during an active call. A femto cell management system assigns a unique identifier to a femto cell, which the femto cell utilizes to broadcast a beacon at a frequency different than the operating frequency of the femto cell. A wireless terminal receives a control message from the macro network directing the wireless terminal to scan particular frequencies. The wireless terminal subsequently provides a report to the macro network identifying attributes ascertained from the scan, which includes attributes associated with the beacon. The macro network then performs a handover from the macro network to the femto cell as a function of the attributes. | 08-12-2010 |
20100203892 | SYSTEM AND METHOD FOR INTERFERENCE BEACON TRANSMISSION - Various systems and methods for interference beacon transmission are disclosed. In one embodiment, an apparatus for initiating cell reselection in a wireless communication device, such as a HNB, comprises a processor configured to determine a first frequency at which one or more wireless communication devices communicate with a first cell and a transceiver configured to transmit an interference beacon at the first frequency configured to at least partially interfere with communications at the first frequency and initiate a cell reselection process by at least one of the wireless communication devices. | 08-12-2010 |
20110111752 | METHODS AND APPARATUS FOR EVALUATING BASE STATION EFFICIENCY IN A NETWORK - A method and apparatus evaluating base station efficiency in a network. The method may comprises: obtaining, from a plurality of base stations, cell performance measurements, wherein the cell performance measurements include a transmitted carrier power value and a dedicated channel (DCH) power value, generating a plurality of cell efficiency coefficients for each of the plurality of base stations by processing the obtained cell performance measurements, determining if at least one of the plurality of base stations is an inefficient base station from at least one of the plurality of cell efficiency coefficients, and transmitting at least one network modification suggestion, wherein the at least one network modification suggestion is based on the at least one of the plurality of cell efficiency coefficients used in determining the at least one inefficient base station. | 05-12-2011 |
20120244869 | NETWORK SCALING FOR NETWORK ENERGY SAVINGS - Methods, systems, devices, and computer program products are described for network scaling. In one example, candidate cells may be selected and ranked. For an initial assessment, the selected cells may operate at a significantly reduced power, and the network performance may be evaluated. Based on the results, only a subset of the candidate cells may be switched off. The whole process may be repeated until all the candidate cells are evaluated. Network downscaling may be done at a site level, a sector level, or a hybrid (site level first, and then additional downscaling by sector level). | 09-27-2012 |
20120264416 | SELECTIVE STATE TRANSITIONS OF A USER EQUIPMENT WITHIN A WIRELESS COMMUNICATIONS SYSTEM - In an embodiment, a user equipment (UE) determines that a client application has entered a period of transmission inactivity whereby the UE will not be required to transmit data on behalf of the client application. The UE selectively transmits a transmission inactivity notification to an access network (AN) to notify the AN of the transmission inactivity period. The AN receives the transmission inactivity notification and determines to transition the UE from a first state to a second state based at least in part on the received transmission inactivity notification, the second state associated with lower-power consumption of the UE than the first state. The AN sends instructions to the UE to facilitate the transition of the UE from the first state to the second state. In another embodiment, the AN can send instructions to the UE to prohibit the UE from sending transmission inactivity notifications. | 10-18-2012 |
20120309394 | APPARATUS AND METHODS FOR HAND-IN TO A FEMTO NODE - Methods and apparatuses are provided for causing active hand-in of a device from a macrocell base station to a femto node, which can be an inter-frequency hand-in. The femto node can broadcast a beacon, which can be received and reported by a device to a source base station along with one or more parameters for disambiguating a target femto node. The source base station can communicate a handover message to the femto node or a related femto gateway along with the one or more parameters. The femto node or femto gateway can disambiguate the intended target femto node based in part on the one or more parameters, which can include applying one or more filters. Additionally, the femto node can broadcast multiple beacons to assist in disambiguation of the target femto node. Also, where complete disambiguation is not possible, the femto gateway can prepare multiple femto nodes for hand-in. | 12-06-2012 |
20130016681 | AUTOMATED PARAMETER ADJUSTMENT TO COMPENSATE SELF ADJUSTING TRANSMIT POWER AND SENSITIVITY LEVEL AT THE NODE B - A small base node such as a Home Base Node (HNB), or femto cell, may reduce its transmit power in order to prevent co-channel or adjacent channel interference, or to limit its coverage area. Once the power is set, the HNB signal to a served Home User Equipment (HUE) its transmit Common Pilot Channel (CPICH) transmit power for accurate path loss estimation. When this power is outside of the permissible range, the HNB adjusts other parameters (such as Random Access Channel (RACH) constant value) to compensate for the error in signaled CPICH power, and thus compensate in that process the error in determining path loss. Similarly, if the uplink sensitivity is adjusted, to prevent interference, parameters would also be adjusted and signaled to the HUE to reflect the link imbalance. | 01-17-2013 |
20130225172 | METHOD AND SYSTEM FOR REGULATING FREQUENT CELL RESELECTIONS BY IDLE-MODE MOBILE DEVICES - Disclosed are systems and methods for regulating system reselections by idle-mode mobile devices. In one aspect, a femtocell may be configured to reduce frequency of its reselection beacon, which reduces probability that a fast moving mobile device will detect the reselection beacon and reselect to that femtocell. This aspect may also delay femtocell reselection for slow moving mobile devices. In another aspect, a macrocell may slow down system reselection by adjusting cell reselection parameters used by mobile devices to determine the time needed to evaluate cell reselection criteria. Yet in another aspect, a macrocell may instruct a collocated femtocell to decrease its effective coverage area to avoid premature reselection by fast moving mobile devices. Yet in another aspect, a femtocell may use power boosting techniques to increase its reselection radius. | 08-29-2013 |
20130225182 | METHOD AND SYSTEM FOR JOINT PARAMETER OPTIMIZATION FOR MACRO AND FEMTO CELLS - Disclosed are systems and methods for joint parameter optimization for collocated macrocells and femtocells in a wireless communication network. In one aspect, the method comprises: collecting one or more performance parameters from the one or more collocated macrocells and femtocells, detecting frequent cell reselections or frequent cell handovers by mobile devices between the one or more collocated macrocells and femtocells, optimizing one or more cell reselection and handover parameters for the one or more collocated macrocells and femtocells based on the performance parameters, and overwriting one or more corresponding parameters of the collocated macrocells and femtocells with the one or more optimized cell reselection and handover parameters in order to reduce frequent cell reselections or frequent cell handovers by mobile devices between the one or more collocated macrocells and femtocells in a wireless communication network. | 08-29-2013 |
20140073343 | CENTRALIZED MANAGEMENT FOR PILOT POLLUTION MITIGATION IN SMALL CELL NETWORKS - A small cell (e.g., femtocell) in a wireless communication may determine a set of wireless signal measurements for a plurality of small cells causing pilot cell pollution within a coverage area. The small cell may determine an adjustment of a transmission parameter of the small cells for reducing the pilot cell pollution, and transmit the adjustment to the small cells. The adjustment may include, for example, minimizing an area of overlap between at least two small cells having signal power difference below a threshold, maximizing a signal to interference and noise ratio at a location associated with at least two small cells, minimizing an area associated with at least two pilot signals within a threshold signal level, distributing traffic load to at least two of the small cells based on the set of measurements, or by minimizing the number of small cells covering a path. | 03-13-2014 |
20140269547 | BASE STATION EMPLOYING SHARED RESOURCES AMONG ANTENNA UNITS - A base station includes a base unit and a plurality of remote antenna units (RAUs). Each of the RAUs includes a physical layer circuit (PHY). The PHYs are configured to each use the same physical layer identifier, but each PHY includes its own hardware for supporting users in the coverage area of that PHY. The base unit controls resource allocation for the RAUs to increase the capacity of the base station and/or reduce interference between PHYs. | 09-18-2014 |
20140334424 | METHODS AND APPARATUS FOR POWER MANAGEMENT IN A WIRELESS COMMUNICATION SYSTEM - Methods and apparatus for communication comprise aspects that include performing a power management procedure for configuring a subset of network entities to receive one or more of downlink signal measurements and/or one or more uplink signal measurements. The methods and apparatus further comprise aspects that include storing the one or more one or more of downlink signal measurements and/or one or more uplink signal measurements associated with the subset of network entities at a database for managing transmit power at the subset of network entities. Moreover, the methods and apparatus comprise aspects that include adjusting a transmit power value of at least one of the subset of network entities from a first transmit power value to a second transmit power value based at least in part on the one or more of downlink signal measurements and/or one or more uplink signal measurements. | 11-13-2014 |
20140369336 | APPARATUS AND METHOD FOR DISTRIBUTED UPDATING OF A SELF ORGANIZING NETWORK - The present disclosure presents a method and an apparatus for distributed updating of a self organizing network. For example, the disclosure presents a method for transmitting, via a transmitting component at a base station, a portion of data collected at the base station to a network entity, wherein the data collected at the base station is received by the base station from one or more user equipments (UE) in communication with one or more base stations, wherein the base station is one of the one or more base stations, receiving feedback, from the network entity, associated with one or more network parameters of the base station, wherein the feedback received from the network entity is determined at the network entity at least based on the portion of data transmitted from the one or more base stations to the network entity, and updating the one or more network parameters at the base station based on the feedback received from the network entity and local information at the base station. As such, distributed updating of a self organizing network may be achieved. | 12-18-2014 |
20150063223 | DETERMINING TRANSMIT POWER BASED ON CATEGORIZATION OF ACCESS TERMINALS - Transmit power management for small cells in a wireless communication environment may be achieved by receiving information generated by a plurality of access terminals associated with an access point, categorizing the access terminals based on the received information, and determining transmit power for the access point based on the categorization of the access terminals. | 03-05-2015 |
20150078162 | BACKHAUL SELECTION FOR WIRELESS COMMUNICATION - Different types of backhauls are used to provide connectivity for an access point. In some implementations, an access point monitors conditions on at least one backhaul to determine whether each backhaul is capable of supporting any QoS requirements of the access point's traffic flows. If the access point determines that a backhaul is capable of supporting the QoS requirement of a given traffic flow, the access point may configure the traffic flow to be routed via that backhaul. In some implementations, an access point selects a different backhaul for a traffic flow based on the type of traffic flow. For example, upon determining that a traffic flow is destined for an entity associated with another backhaul, the access point may switch to the other backhaul for routing that traffic flow. | 03-19-2015 |
20150079983 | FEMTOCELL MESSAGE DELIVERY AND NETWORK PLANNING - Techniques for femtocell message delivery and network planning are described herein. A mobile device sends a registration request to an access point, such as a femtocell access point. If denied registration, the mobile device may return to service by a macro cell access point. A network entity, such as a femtocell gateway serving the access point, may determine an identification of the mobile device. The network entity may send the identification of mobile device and an identifier of the access point to an application server. The application server may create and send a targeted message to the mobile device based on the identification of mobile device and the identifier of the access point. The application server may determine a user count for the access point and facilitate network planning based on the user count. | 03-19-2015 |
20150085755 | COORDINATED DETERMINATION OF PHYSICAL LAYER IDENTIFIER AND TRANSMIT POWER - The assignment of physical layer identifiers for access points is coordinated with the assignment of transmit powers for the access points. For example, only those access points that transmit at a relatively high power level are allowed to use a physical layer identifier from a subset of physical layer identifiers allocated for mobility measurements. Any other access points will use a physical layer identifier that is not allocated for mobility measurements. By restricting the number of access points that are allowed to use a physical layer identifier allocated for mobility measurements, confusion and collision in the network may be mitigated. | 03-26-2015 |