Patent application number | Description | Published |
20080240045 | METHOD AND APPARATUS FOR ALLOCATION OF RADIO RESOURCES - Characteristics of an unknown application on the wireless network are compared with characteristics of previously classified wireless applications. When the characteristics of the unknown application match those of a previously classified application, the bandwidth requirement associated with the matching previously classified application is allocated to the unknown application by the wireless network. | 10-02-2008 |
20100048160 | Methods and Systems for One-To-Multiple Emergency Call Communication - Systems and methods for contacting associated parties in the event of an emergency communication is described. When an emergency request is made, such as a “911” call, the system determines if other contacts are associated with the requestor or the requesting device. The system then sends a communication to the associated contacts. The system may bridge the contacts onto an emergency call, provide them with information regarding the emergency, or provide them with the means to obtain more information, such as a link or a telephone number. The system may detect an incoming call and determine if the caller is associated with an ongoing emergency situation, connecting the caller with the relevant authorities if necessary. | 02-25-2010 |
20100064210 | TEXT ABBREVIATION METHODS AND APPARATUS AND SYSTEMS USING SAME630 - Text processors are configured to shorten or compact text based on one or more abbreviation libraries or rule libraries. Messaging methods include such text abbreviation processing to reduce message length based on display properties or to enhance user perception. Message length can be reduced based on abbreviations in a standard abbreviation list, a user specific abbreviation list, or a combination of standard and custom lists. In some examples, text length is shortened based on stored rules. Mobile stations that provide messaging services include text processors that reduce message length and can be configured to process text messages prior to transmission or after reception. Text processors are provided in association with word processors and presentation applications, and are configured to produce shortened text strings. In some examples, full-length text remains is stored so that both shortened text and full text are available. Selection of text processor parameters can be based on a graphical user interface. | 03-11-2010 |
20100151899 | SYSTEM AND METHOD FOR INDICATING EXPECTED COMMUNICATION SPEED IN A WIRELESS COMMUNICATION DEVICE - A wireless communication network includes a number of users communicating via wireless communication devices. The network determines a current condition of the network, including factors such as the number of users coupled to a particular portion of the wireless communication network. The current conditions are used to access data in a data storage structure to determine an expected communication speed based on the current network conditions. The expected communication speed for each wireless communication device is transmitted to the wireless communication device and shown on the display. The display of expected communication speed may take various forms, such as a numeric display, graphical display, color display, or an alphabetic display. The network dynamically monitors changes in the current conditions and recalculates the expected communication speed as appropriate. | 06-17-2010 |
20130143578 | RANGE EXPANSION IN A WIRELESS NETWORK ENVIRONMENT - Aspects relate to modifications to one or more handover parameters such that spectrum efficiency and user performance can be increased by retaining a mobile device in a source cell, having a more desirable multiple-input multiple-output capability, longer before handover to a cell having a less desirable (or non-) multiple-input multiple-output capability (e.g., slower handover). Another aspect relates to modifying one or more handover parameters such that the mobile device is handed over from a source cell to a target cell quicker if the target cell has better multiple-input multiple-output performance than the source cell. The source cell and/or target cell can be macro cells and/or small cells. For example, the mobile device can hand over from a macro cell to a small cell and/or from a small cell to a macro cell. Further, the disclosed aspects can be implemented on the network and/or the mobile device. | 06-06-2013 |
20130329632 | NETWORK CONTROL OF APPLICATIONS USING APPLICATION STATES - Techniques for network control of application states of applications associated with a communication device are presented herein. An application agent, associated with an application used by the communication device, controls transitioning the application between application states based on network indicators received or network events detected from a communication network. The application states include active state or doze state. An application management component associated with the communication network at least partially controls transitioning the application between application states to facilitate controlling network traffic or reducing network congestion. The application agent or application management component can map application states to various factors, including radio states, congestion level, application performance indicators, network policies, or user policies, to facilitate determining which application state to apply to an application at a given time. The application agent can be in a centralized location, or at a same or different location as the application source. | 12-12-2013 |
20140119195 | CONTROLLING WIRELESS TRANSITION TIMERS BASED ON APPLICATION AND CONTENT - Techniques for adaptively controlling wireless transition timers associated with wireless transition states in relation to use of applications by user equipment (UE) are presented herein. A UE can include a transition management component (TMC) that can adaptively control wireless transition timers associated with wireless states based on application type, session content, or other factors. The TMC monitors data flow associated with an application and, for a current or subsequent communication session, controls the length of wireless transition timers and switching between wireless states to improve UE, application, and/or network performance while maintaining QOE for the user. The TMC can access a timer look-up table that maps wireless transition timers to application type, content type, user behavior, or other factors. The TMC also can desirably control maintaining persistence or always-on connections by controlling switching between wireless states using the adapted wireless transition timers. | 05-01-2014 |
20150131453 | CONTROLLING WIRELESS TRANSITION TIMERS BASED ON APPLICATION AND CONTENT - Wireless transition timers associated with wireless transition states are adaptively controlled in relation to use of applications by user equipment (UE). A UE can include a transition management component (TMC) that can adaptively control wireless transition timers associated with wireless states based on application type, session content, or other factors. The TMC monitors data flow associated with an application and, for a current or subsequent communication session, controls the length of wireless transition timers and switching between wireless states to improve UE, application, and/or network performance while maintaining QOE for the user. The TMC can access a timer look-up table that maps wireless transition timers to application type, content type, user behavior, or other factors. The TMC also can desirably control maintaining persistence or always-on connections by controlling switching between wireless states using the adapted wireless transition timers. | 05-14-2015 |