Patent application number | Description | Published |
20140013147 | Apparatus and Method for Providing Network Communications - A system that incorporates teachings of the present disclosure may include, for example, a Power Over Ethernet (PoE) device (PD) having a controller to receive signals over a first cable having twisted pair wires from at least one of a network element and a gateway where the network element is associated with a service provider where the gateway is associated with a premises and where the service provider provides network communications to the premises, adjust the signals, transmit the adjusted signals over a second cable having twisted pair wires to at least one of the network element and the gateway, and receive power from at least one of the network element and the gateway, where the power is received over at least one of the first and second cables, where the power is received according to PoE protocol, and where the PD is positioned between the network element and the gateway. Other embodiments are disclosed. | 01-09-2014 |
20140161113 | Location-Based Wi-Fi Radio Activation And Deactivation For Mobile Devices - Concepts and technologies are described herein for location-based WI-FI radio activation and deactivation for mobile devices. According to one aspect disclosed herein, a WI-FI connection management system can detect that a mobile device is within a coverage area provided by a WI-FI network. The WI-FI connection management system can also generate a trigger to instruct the mobile device to activate a WI-FI radio of the mobile device and connect to the WI-FI network. The WI-FI connection management system can also send the trigger to the mobile device. | 06-12-2014 |
20140162626 | Traffic Steering Across Radio Access Technologies And Radio Frequencies Utilizing Cell Broadcast Messages - Concepts and technologies are described herein for traffic steering across radio access technologies and radio frequencies utilizing cell broadcast messages. According to one aspect disclosed herein, a base station can collect load information of the base station. The base station can also generate a cell broadcast message that includes the load information. The base station can also send the cell broadcast message to a target mobile device. The target mobile device can be configured to determine, based at least in part upon the load information, which radio access network of a plurality of radio access networks to connect to. | 06-12-2014 |
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 |
20140162636 | Device-Based Idle Mode Load Balancing - Concepts and technologies are described herein for device-based idle mode load balancing. According to one aspect disclosed herein, a mobile device can receive a cell information message that includes load information of a current camping cell on which the mobile device is currently camping and load information of at least one neighbor cell of a plurality of neighbor cells to the current camping cell. The mobile device can also obtain cell-type information of the current camping cell and cell-type information of the at least one neighbor cell. The mobile device can also determine a mobility state of the mobile device, and, based upon the load information of the current camping cell, the load information of the at least one neighbor cell, the cell-type information of the current camping cell, the cell-type information of the at least one neighbor cell, and the mobility state information, select a target camping cell. | 06-12-2014 |
20140162645 | Network-Assisted Device-Based Intelligent Radio Access Control - Concepts and technologies are described herein for a network-assisted device-based radio access control. According to one aspect disclosed herein, a mobile device selects one or more radio access networks (“RANs”) to connect to, based upon network conditions, policies, user profiles, local device information, and/or other information. The mobile device can receive network load information from multiple RANs. The mobile device can also receive one or more policies from a radio access technology (“RAT”) selection system. The mobile device can also obtain local device information such as, but not limited to, mobility state information, performance measurement information, battery utilization information, channel quality information, applications, and/or a user override selection. | 06-12-2014 |
20140162648 | Hybrid Network-Based And Device-Based Intelligent Radio Access Control - Concepts and technologies are described herein for a hybrid network-based and device-based intelligent radio access control. According to one aspect disclosed herein, a radio access technology (“RAT”) selection system and a mobile device cooperate to enable an intelligent multi-radio access control that can select a RAT that is best-suited for the mobile device. The RAT selection system can select networks based upon network conditions, policies, user profiles, applications, and/or other information, and provide a list of the networks to the mobile device. The mobile device can utilize local device information to select a network from the list. In this manner, the RAT selection system and the mobile device can cooperate to steer traffic to various networks operating in accordance with different RATs to improve user experience, especially in network traffic congested areas, and to efficiently leverage network resources for mobile telecommunications and WI-FI networks. | 06-12-2014 |
20140162649 | Network-Based Intelligent Radio Access Control - Concepts and technologies are described herein for a network-based radio access control. According to one aspect disclosed herein, a radio access technology selection system enables an intelligent multi-radio access control that can select one or more radio access technologies that is best-suited for one or more target mobile devices based upon network conditions, policies, user profiles, and/or other information. The radio access technology selection system also informs the target mobile device(s) of one or more networks that utilize the selected radio access technology. In this manner, the radio access technology selection system can steer traffic to various networks operating in accordance with different radio access technologies to improve user experience, especially in network traffic congested areas, and to efficiently leverage network resources for mobile telecommunications and WI-FI networks. | 06-12-2014 |
20140376365 | DYNAMIC STEERING OF TRAFFIC ACROSS RADIO ACCESS NETWORKS - Intelligent radio access technology sensing and selection are applied in a dynamic traffic steering network. Network characteristics and network policies are determined. A server sends network characteristics and network policies to user equipment devices. User equipment devices can determine a radio access technology to connect to based on network policies and network characteristics. Further, it can be determined how to select user equipment devices for connection to a radio access network via a radio access technology. User equipment devices can dynamically select a radio access network for connection based on real-time or near real-time radio access network conditions. A self-organizing network can monitor and determine radio access network conditions and the radio access network conditions can be sent to user equipment devices in given cellular broadcast area. | 12-25-2014 |
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 |
20150085650 | NETWORK SELECTION ARCHITECTURE - A user equipment device intelligent network selection architecture is provided that enables service provider policy driven dynamic intelligent network selection of a radio technology for user traffic delivery. The network selection is based on radio network conditions, user subscription profile, and device mobility state, including speed and movement pattern. Also provided are application program interfaces that allow access network discovery and selection function carrier clients decision as to communication with a connection manager or other lower layer functions. The architecture and associated application program interface enable automatic network selection and connection, which provides a consistent implementation across different device original equipment manufacturers and operating systems. | 03-26-2015 |
20150087307 | FACILITATING INTELLIGENT RADIO ACCESS CONTROL - Intelligent radio access control selecting a first cell device of a first cell layer or a second cell device of a second cell layer or selecting a radio access technology for communication by a mobile device are provided. A device receives information indicative of an access assignment for communication. The access assignment is generated based on a defined criterion, which is associated with a policy of determining a cell layer assignment prior to determining a radio access technology (RAT) assignment. In response to receiving the information, the device can update its configuration to transmit via a transmission parameter based on the information. The cell layer assignment can offload traffic from the first cell device to the second cell device while the RAT assignment can re-assign the device from a first RAT to a second RAT. Assignment can be based on network conditions or mobility state or applications of the device. | 03-26-2015 |