Patent application number | Description | Published |
20090069458 | Polymers, Methods Of Use Thereof, And Methods Of Decomposition Thereof - Polymers, methods of use thereof, and methods of decomposition thereof, are provided. One exemplary polymer, among others, includes, a photodefinable polymer having a sacrificial polymer and a photoinitiator. | 03-12-2009 |
20100203294 | Polymers, Methods Of Use Thereof, And Methods Of Decomposition Thereof - Polymers, methods of use thereof, and methods of decomposition thereof, are provided. One exemplary polymer, among others, includes, a photodefinable polymer having a sacrificial polymer and a photoinitiator. | 08-12-2010 |
20110136932 | Polymers, Methods Of Use Thereof, And Methods Of Decomposition Thereof - Polymers, methods of use thereof, and methods of decomposition thereof, are provided. One exemplary polymer, among others, includes, a photodefinable polymer having a sacrificial polymer and a photoinitiator. | 06-09-2011 |
20130244181 | POLYMERS, METHODS OF USE THEREOF, AND METHODS OF DECOMPOSITION THEREOF - Polymers, methods of use thereof, and methods of decomposition thereof, are provided. One exemplary polymer, among others, includes, a photodefinable polymer having a sacrificial polymer and a photoinitiator. | 09-19-2013 |
Patent application number | Description | Published |
20130143541 | CENTRALIZED FEMTOCELL OPTIMIZATION - Systems, methods, and apparatuses for centrally optimizing femtocells are presented herein. A scanning component can receive information from femtocells indicating respective operating conditions of the femtocells. Further, an optimization component can categorize the femtocells into groups based on the information, and direct a change of a parameter set of a group of the groups to a femtocell of the group. A method can include receiving, from femtocells, information associated with respective operating conditions of the femtocells; sorting the femtocells into groups based on the information; and directing a change of a parameter set that is associated with a group of the groups to a femtocell of the group. In an example, the method can further include directing a change of a parameter of a macrocell communicatively coupled to a femtocell of the femtocells. | 06-06-2013 |
20130143592 | CLOSED LOOP HETEROGENEOUS NETWORK FOR AUTOMATIC CELL PLANNING - A system and methodology that can utilize measurement data collected by a set of femto access points (FAPs), during a network listen procedure, to detect one or more areas with weak macro network coverage and/or high interference. Moreover, an automatic cell planning (ACP) component can be employed to analyze the measurement data and update a transmission parameter(s) associated with a macro access point. After the update is implemented, the ACP component can trigger another network listen procedure at the set of FAPs and receive new measurement data. The ACP component can evaluate the new measurement data to dynamically verify that the implementation of the update resulted in an improvement of macro network coverage and/or interference within the one or more areas. | 06-06-2013 |
20140342744 | CLOSED LOOP HETEROGENEOUS NETWORK FOR AUTOMATIC CELL PLANNING - A system and methodology that can utilize measurement data collected by a set of femto access points (FAPs), during a network listen procedure, to detect one or more areas with weak macro network coverage and/or high interference. Moreover, an automatic cell planning (ACP) component can be employed to analyze the measurement data and update a transmission parameter(s) associated with a macro access point. After the update is implemented, the ACP component can trigger another network listen procedure at the set of FAPs and receive new measurement data. The ACP component can evaluate the new measurement data to dynamically verify that the implementation of the update resulted in an improvement of macro network coverage and/or interference within the one or more areas. | 11-20-2014 |
20160057632 | CENTRALIZED FEMTOCELL OPTIMIZATION - Centrally optimizing femtocells is provided. A scanning component can receive information from femtocells indicating respective operating conditions of the femtocells. Further, an optimization component can categorize the femtocells into groups based on the information, and direct a change of a parameter set of a group of the groups to a femtocell of the group. A method can include receiving, from femtocells, information associated with respective operating conditions of the femtocells; sorting the femtocells into groups based on the information; and directing a change of a parameter set that is associated with a group of the groups to a femtocell of the group. In an example, the method can further include directing a change of a parameter of a macrocell communicatively coupled to a femtocell of the femtocells. | 02-25-2016 |
Patent application number | Description | Published |
20140071856 | TIMING ADVANCE INFORMATION FOR ADAPTING NEIGHBOR RELATIONS - Adjusting radio area network performance by adapting cell coverage area can help optimize the operating efficiency of a wireless network. Base station coverage areas can be determined by analysis of reported timing advance information. This can facilitate adjusting coverage areas. Further, integration with network topology planning components and management components can be employed. Moreover, prioritization of base stations in Automatic Neighbor Relations (ANR) neighbor lists can improve coverage balance by influencing complex heterogeneous coverage layout systems. Historical timing advance information can be employed to facilitate analysis of statistical coverage conditions for cells, analysis of coverage areas as they relate to performance metrics, analysis of coverage areas with regard to specific event such as handovers, etc. Moreover, coverage area analysis can be linked to alarm systems. | 03-13-2014 |
20140073303 | HISTORIC PERFORMANCE ANALYSIS FOR MODIFICATION OF NEIGHBOR RELATIONS - Adjusting RAN performance by adapting cell coverage area can help optimize a wireless communications network. RAN topology can be adapted based on analysis of historical performance of base stations. Analysis of the historical performance of base stations can be performed in the core-network of a wireless carrier rather than distributing the analysis to RAN elements. Analysis can be based on receiving historical information relating to key performance indicators such as call failure rate, call success rate, handover attempt count, handover attempt failure count, etc. Further, analysis can include the application of predetermined rules relating to preferential performance of the base stations. This can facilitate ranking neighboring base stations, adding new base stations, deleting base stations, black/white listing base stations, etc., in neighbor relations data structures, such as automatic neighbor relations structures for self-organizing networks, e.g., eNodeBs in LTE networks. | 03-13-2014 |
20140073304 | DISTANCE-BASED MODIFICATION OF NEIGHBOR RELATIONS - Adjusting RAN performance by adapting cell coverage area can help optimize a wireless network. Base station coverage areas can be determined by distance analysis of detected neighbor base stations. This can be in response to determination of a physical cell identifier (PCI) conflict condition. When a PCI conflict is determined, a unique identifier for each base station can be employed to facilitate determining location information for the base stations. Location information can be employed to determine distance-based characteristics that can facilitate adaptation of wireless network neighbor relations to adapt the RAN coverage area topology. Distance-based characteristics can include nearest neighbor, proximity to a predetermined distance, etc. Additionally, PCI information can be updated to correct the PCI conflict condition. Moreover, radio parameters can be adapted, including elevation, azimuth, and transmit power, to correct the PCI conflict condition by reducing overlap of coverage areas with matching PCI information. | 03-13-2014 |
20140073322 | REAL-TIME LOAD ANALYSIS FOR MODIFICATION OF NEIGHBOR RELATIONS - Adjusting RAN performance by adapting cell coverage area can help optimize a wireless communications network. RAN topology can be adapted based on analysis of real-time load conditions of RAN base stations. Analysis of the load conditions of RAN base stations can be performed in a core-network of a wireless carrier rather than distributing the analysis to RAN-side elements. Analysis can be based on receiving real-time load information relating to key performance indicators such as X2 load, S1 load, instant outbound handover count, instant inbound handover count, etc. Further, analysis can include the application of predetermined rules relating to preferential performance of the base stations. This can facilitate ranking neighboring base stations, adding new base stations, deleting base stations, black/white listing base stations, etc., in neighbor relations data structures, such as automatic neighbor relations structures for self-organizing networks, e.g., eNodeBs in LTE networks. | 03-13-2014 |
20140162635 | Traffic Steering Across Cell-Types - Concepts and technologies are described herein for traffic steering across cell-types. According to one aspect disclosed herein, a mobile device enables radio access network (“RAN”) selection across multiple cell-types, including, but not limited to, macro cells, metro cells, femto cells, pico cells, and the like, based upon network conditions, local device information, and/or other information such as policies and user profiles. The local device information can include, but is not limited to, mobility state information, performance measurement information, battery utilization information, channel quality information, and user overrides. | 06-12-2014 |
20150065133 | CELL BROADCAST FOR SMART TRAFFIC STEERING ACROSS RADIO TECHNOLOGIES WITH IMPROVED RADIO EFFICIENCY - Traffic associated with user equipment that are coupled to a first radio access network is steered to a second radio access network based on an adaptable signal strength criterion. The signal strength criterion is related to real-time network load conditions of the first radio access network and can be broadcasted from a serving access point to the user equipment. Moreover, the signal strength criterion facilitates steering, to the second radio network, traffic associated with user equipment that are located closer to a cell edge of the first radio access network before steering traffic associated with user equipment are located further away from the cell edge. In addition, based on the network congestion within the first radio access network, the signal strength criterion is modified to adjust the number of user equipment that are steered to the second radio network. | 03-05-2015 |
20150103657 | ADAPTIVE RATE OF CONGESTION INDICATOR TO ENHANCE INTELLIGENT TRAFFIC STEERING - Traffic associated with user equipment that are served by a first radio access network is steered to a second radio access network based on a rate of congestion criterion. Network load is monitored by an access point to determine rate of congestion data associated with the access point. As an example, the rate of congestion represents a change in network load of the access point over a defined time period. The rate of congestion data is then transmitted to one or more neighboring access points that can utilize the rate of congestion data to facilitate traffic steering, load balancing, and/or neighbor relationship management. | 04-16-2015 |
20150111575 | CELL USER OCCUPANCY INDICATOR TO ENHANCE INTELLIGENT TRAFFIC STEERING - Traffic associated with user equipment that are served by a first radio access network is steered to a second radio access network based on a cell user occupancy criterion. Cell user occupancy data that represents a maximum number of devices served by an access point is determined based on a type of the access point (e.g., macro access point, femto access point, WiFi access point, etc.). Further, based on the cell user occupancy data, a normalized index value is generated that is relative to different cell types/capacities. The cell user occupancy data is then transmitted to one or more neighboring access points that can utilize the cell user occupancy data to facilitate traffic steering, load balancing, and/or neighbor relationship management. | 04-23-2015 |
20150119020 | FACILITATING ADAPTIVE KEY PERFORMANCE INDICATORS IN SELF-ORGANIZING NETWORKS - Key performance indicators for self-organizing networks are dynamically updated and/or selected. A method includes evaluating a network condition, ranking key performance indicators (KPIs) based on the network condition resulting in ranking information, and determining weights of executing sets of instructions. The determining is based on the ranking and an association between the executing sets of instructions and the KPIs associated with the ranking information. Another method includes evaluating a network condition, and changing a value of a target of a KPI from a first value to a second value based on a change in the network condition from a first network condition to a second network condition. Another method includes evaluating a network condition, determining weighting factors for respective KPIs, wherein the weighting factors are based on evaluation of the network condition, and generating composite KPI information based, at least, on applying the weighting factors to the respective KPIs. | 04-30-2015 |
20150141018 | METHOD AND APPARATUS FOR MANAGING HANDOVERS IN A WIRELESS NETWORK - A system that incorporates the subject disclosure may include, for example, monitoring a speed and an acceleration of a mobile communication device in a serving cell of a wireless network where the mobile communication device has a radio resource control connection with the wireless network, and selecting a first mobility speed group from among a plurality of mobility speed groups based on the speed and the acceleration of the mobile communication device, where handover parameter values are assigned to each speed group of the plurality of mobility speed groups, and where the handover parameters and their associated values are utilized for a handover by the wireless network from the serving cell to a target cell. Other embodiments are disclosed. | 05-21-2015 |
20150141021 | METHOD AND APPARATUS FOR MANAGING HANDOVERS IN A WIRELESS NETWORK BASED ON SPEED GROUP ASSIGNMENTS - A system that incorporates the subject disclosure may include, for example, determining a mobility speed group assignment for a mobile communication device having a radio resource control connection with a wireless network where the mobility speed group assignment is selected from among a plurality of mobility speed groups according to a speed of the mobile communication device, determining a cell size for a serving cell of the wireless network that is providing the radio resource control connection, and selecting a handover policy based on the mobility speed group assignment and the cell size. Other embodiments are disclosed. | 05-21-2015 |
20150156641 | REAL-TIME LOAD ANALYSIS FOR MODIFICATION OF NEIGHBOR RELATIONS - Adjusting RAN performance by adapting cell coverage area can help optimize a wireless communications network. RAN topology can be adapted based on analysis of real-time load conditions of RAN base stations. Analysis of the load conditions of RAN base stations can be performed in a core-network of a wireless carrier rather than distributing the analysis to RAN-side elements. Analysis can be based on receiving real-time load information relating to key performance indicators such as X2 load, S1 load, instant outbound handover count, instant inbound handover count, etc. Further, analysis can include the application of predetermined rules relating to preferential performance of the base stations. This can facilitate ranking neighboring base stations, adding new base stations, deleting base stations, black/white listing base stations, etc., in neighbor relations data structures, such as automatic neighbor relations structures for self-organizing networks, e.g., eNodeBs in LTE networks. | 06-04-2015 |
Patent application number | Description | Published |
20110110520 | VIRTUAL NEIGHBOR OBJECTS FOR MANAGING IDLE MODE MOBILITY IN A WIRELESS NETWORK - Systems, methods, and apparatus that facilitate optimal idle mode reselection are presented herein. A virtual neighbor component can be configured to create at least one virtual neighbor object and associate the at least one virtual neighbor object with at least two wireless access points. A reselection component can be configured to facilitate idle mode reselection between a wireless access point of the at least two wireless access points and another wireless access point based on, at least in part, the at least one virtual neighbor object. | 05-12-2011 |
20120020307 | AUTOMATED WIRELESS ACCESS POINT RESOURCE ALLOCATION AND OPTIMIZATION - Systems, methods, and apparatus for facilitating automated wireless access point resource allocation and optimization are presented herein. An external data store (EDS) component can automatically select, based on spatial data of at least one polygon including at least one wireless access point, one or more parameters associated with wireless communications of the at least one wireless access point. Further, an access point provisioning gateway (APPG) can remotely initiate the at least one wireless access point to automatically configure equipment of the at least one wireless access point to service the wireless communications using at least one of the one or more parameters. Furthermore, a boundary generation component can automatically generate the spatial data by at least one of: combining spatial data of two or more polygons; splitting a polygon into at least two polygons; or expanding a boundary of the polygon. | 01-26-2012 |
20120252423 | FEMTO PARAMETER PROFILES BASED UPON NEARBY ACCESS POINT - A system and methodology that facilitates efficiently and accurately defining operating parameters for a femto access point (FAP) is provided. In particular, during provisioning of the FAP, the system obtains operating parameters utilized by a nearby FAP expected to have a substantially similar radio environment as the provisioning FAP. Moreover, weighting is applied to the nearby FAP to determine which set of operating parameters to utilize at the provisioning FAP. Accordingly, pre-existing operating parameters, optimized by the nearby FAP are employed to augment initial network listen measurements performed at the provisioning FAP, and thus improve speed and accuracy of initial FAP parameter provisioning. | 10-04-2012 |
20130244663 | VIRTUAL NEIGHBOR OBJECTS FOR MANAGING IDLE MODE MOBILITY IN A WIRELESS NETWORK - Idle mode reselection is presented herein. A virtual neighbor component can create at least one virtual neighbor object and associate the at least one virtual neighbor object with wireless access points. Further, a reselection component can facilitate idle mode reselection between a base station and a wireless access point of the wireless access points based on the at least one virtual neighbor object. | 09-19-2013 |
20130344882 | FEMTO PARAMETER PROFILES BASED UPON NEARBY ACCESS POINT - Operating parameters for a femto access point (FAP) are efficiently and accurately defined. During provisioning of the FAP, the system obtains operating parameters utilized by a nearby FAP expected to have a substantially similar radio environment as the provisioning FAP. Moreover, weighting is applied to the nearby FAP to determine which set of operating parameters to utilize at the provisioning FAP. Accordingly, pre-existing operating parameters, optimized by the nearby FAP are employed to augment initial network listen measurements performed at the provisioning FAP, and thus improve speed and accuracy of initial FAP parameter provisioning. | 12-26-2013 |
20150249939 | VIRTUAL NEIGHBOR OBJECTS FOR MANAGING IDLE MODE MOBILITY IN A WIRELESS NETWORK - Idle mode reselection is presented herein. A virtual neighbor component can create at least one virtual neighbor object and associate the at least one virtual neighbor object with wireless access points. Further, a reselection component can facilitate idle mode reselection between a base station and a wireless access point of the wireless access points based on the at least one virtual neighbor object. | 09-03-2015 |
20150381421 | FEMTO PARAMETER PROFILES BASED UPON NEARBY ACCESS POINT - Operating parameters for a femto access point (FAP) are efficiently and accurately defined. During provisioning of the FAP, the system obtains operating parameters utilized by a nearby FAP expected to have a substantially similar radio environment as the provisioning FAP. Moreover, weighting is applied to the nearby FAP to determine which set of operating parameters to utilize at the provisioning FAP. Accordingly, pre-existing operating parameters, optimized by the nearby FAP are employed to augment initial network listen measurements performed at the provisioning FAP, and thus improve speed and accuracy of initial FAP parameter provisioning. | 12-31-2015 |