Structures and protocols are presented for signaling a status or decision concerning a wireless service or device within a region to a network participant or other communication device (smartphone or motor vehicle, e.g.).
대표청구항▼
1. A communication management system comprising: at least one network server device including one or more electronic devices, the one or more electronic devices including at least: circuitry configured for receiving, from at least one communication device, at least one identifier of at least one mob
1. A communication management system comprising: at least one network server device including one or more electronic devices, the one or more electronic devices including at least: circuitry configured for receiving, from at least one communication device, at least one identifier of at least one mobile device;circuitry configured for determining whether at least one mobile device identified by the at least one identifier is located within at least one WLAN communication range associated with the one or more WLAN devices; andcircuitry configured for transmitting, to the at least one communication device, status information indicating whether the at least one mobile device is located within at least one WLAN communication range associated with the one or more WLAN devices based at least partly on the determination, wherein the status information is transmitted without a bidirectional interpersonal communication existing between the at least one communication device and the at least one mobile device located within at least one WLAN communication range associated with the one or more WLAN devices, enabling a user of the at least one communication device to decide whether to initiate a bidirectional interpersonal communication between the at least one communication device and the at least one mobile device. 2. The communication management system of claim 1, wherein the at least one communication device includes a smartphone or a computer. 3. The communication management system of claim 1, wherein the at least one communication device includes an integrated circuit chip or a motor vehicle. 4. The communication management system of claim 1, wherein the circuitry configured for transmitting, to the at least one communication device, status information indicating whether the at least one mobile device is located within at least one WLAN communication range associated with the one or more WLAN devices based at least partly on the determination includes: at least one of circuitry configured for transmitting, to the at least one communication device, at least a portion of a map indicating the at least one WLAN communication range associated with the one or more WLAN devices; orcircuitry configured for transmitting, to the at least one communication device, at least one indication causing a speaker of the at least one communication device to generate an audible indication the at least one WLAN communication range associated with the one or more WLAN devices. 5. The communication management system of claim 1, wherein the circuitry configured for determining whether at least one mobile device identified by the at least one identifier is located within at least one WLAN communication range associated with the one or more WLAN devices includes: at least one of circuitry configured for detecting at least an indication that the at least one mobile device did not exceed a wireless service boundary crossing rate threshold associated with the at least one WLAN communication range within a predetermined threshold time interval; orcircuitry configured for detecting a series of service region departure events of the at least one mobile device from the at least one WLAN communication range. 6. The communication management system of claim 1, further comprising: circuitry configured for receiving, from the at least one communication device, at least one indication of a decision to transmit bidirectional interpersonal communication data via a communication channel between the at least one communication device and the at least one mobile device. 7. The communication management system of claim 1, wherein the circuitry configured for transmitting, to the at least one communication device, status information indicating whether the at least one mobile device is located within at least one WLAN communication range associated with the one or more WLAN devices based at least partly on the determination includes: circuitry configured for transmitting, to the at least one communication device, at least a portion of a map including a cost-indicative service boundary relating to a prospective instance of a bidirectional interpersonal communication between the at least one communication device and the at least one mobile device. 8. The communication management system of claim 1, wherein the circuitry configured for receiving, from at least one communication device, at least one identifier of at least one mobile device includes: at least one of circuitry configured for receiving from at least one communication device, at least one identifier of at least one mobile device including at least one of a telephone number identifier, a video chat identifier, or text messaging identifier associated with at least one mobile device; orcircuitry configured for receiving, from at least one communication device, at least one identifier of at least one mobile device including at least one user input specifying the at least one of a telephone number identifier, a video chat identifier, or text messaging identifier associated with the at least one mobile device. 9. The communication management system of claim 1, wherein the circuitry configured for transmitting, to the at least one communication device, status information indicating whether the at least one mobile device is located within at least one WLAN communication range associated with the one or more WLAN devices based at least partly on the determination includes: circuitry configured for transmitting, to the at least one communication device, at least a portion of a map including a roaming service charge boundary relating to a prospective instance of a bidirectional interpersonal communication between the at least one communication device and the at least one mobile device. 10. The communication management system of claim 1, wherein the circuitry configured for determining whether at least one mobile device identified by the at least one identifier is located within at least one WLAN communication range associated with the one or more WLAN devices includes: at least one of circuitry configured for receiving from at least one device other than the at least one network server device at least one indication of a wireless communication service being operative in the at least one WLAN communication range;circuitry configured for obtaining at least one indication of a wireless communication service having been provided in the at least one WLAN communication range;circuitry configured for obtaining at least one indication of a wireless communication service having been provided in the at least one WLAN communication range at an earlier time;circuitry configured for obtaining at least one indication of at least one of multimode cellular, TDMA, GSM, spread spectrum, CDMA, or W-CDMA connectivity; orcircuitry configured for obtaining at least one indication of at least one of OFDM WiLAN or WiFi connectivity. 11. The communication management system of claim 1, wherein the circuitry configured for transmitting, to the at least one communication device, status information indicating whether the at least one mobile device is located within at least one WLAN communication range associated with the one or more WLAN devices based at least partly on the determination includes: at least one of circuitry configured for transmitting, to the at least one communication device, at least one Boolean indication of whether the at least one mobile device is located within at least one WLAN communication range associated with the one or more WLAN devices;circuitry configured for transmitting, to the at least one communication device, at least one status indication signifying whether the at least one mobile device is located within at least one WLAN communication range associated with the one or more WLAN devices without establishing a bidirectional interpersonal communication between the at least one communication device and the at least one mobile device; orcircuitry configured for transmitting, to the at least one communication device, at least one Boolean indication for causing at least one of a headset or a display to provide at least one user of the at least one communication device at least one indication of whether the at least one mobile device is located within at least one WLAN communication range associated with the one or more WLAN devices. 12. The communication management system of claim 1, wherein the at least one network server device includes: at least one of a wireless access point, a router, a wireless router, a wireless LAN router, a mobile hotspot, a handheld device, a relay, a node, a gateway, or a server. 13. A communication management system comprising: at least one network server device including at least one processor device; andone or more instructions that, when executed by the at least one processor device, program the at least one processor device for: receiving, from at least one communication device, at least one identifier of at least one mobile device;determining whether at least one mobile device identified by the at least one identifier is located within at least one WLAN communication range associated with the one or more WLAN devices; andtransmitting, to the at least one communication device, status information indicating whether the at least one mobile device is located within at least one WLAN communication range associated with the one or more WLAN devices based at least partly on the determination, wherein the status information is transmitted without a bidirectional interpersonal communication existing between the at least one communication device and the at least one mobile device located within at least one WLAN communication range associated with the one or more WLAN devices, enabling a user of the at least one communication device to decide whether to initiate a bidirectional interpersonal communication between the at least one communication device and the at least one mobile device. 14. A communication management method comprising: receiving, from at least one communication device, at least one identifier of at least one mobile device;determining whether at least one mobile device identified by the at least one identifier is located within at least one WLAN communication range associated with the one or more WLAN devices; andtransmitting, to the at least one communication device, status information indicating whether the at least one mobile device is located within at least one WLAN communication range associated with the one or more WLAN devices based at least partly on the determination, wherein the status information is transmitted without a bidirectional interpersonal communication existing between the at least one communication device and the at least one mobile device located within at least one WLAN communication range associated with the one or more WLAN devices, enabling a user of the at least one communication device to decide whether to initiate a bidirectional interpersonal communication between the at least one communication device and the at least one mobile device. 15. An article of manufacture comprising: at least one non-transitory computer readable medium including one or more computer-readable instructions for execution in a computing device, the instructions configuring the computing device for: receiving, from at least one communication device, at least one identifier of at least one mobile device;determining whether at least one mobile device identified by the at least one identifier is located within at least one WLAN communication range associated with the one or more WLAN devices; andtransmitting, to the at least one communication device, status information indicating whether the at least one mobile device is located within at least one WLAN communication range associated with the one or more WLAN devices based at least partly on the determination, wherein the status information is transmitted without a bidirectional interpersonal communication existing between the at least one communication device and the at least one mobile device located within at least one WLAN communication range associated with the one or more WLAN devices, enabling a user of the at least one communication device to decide whether to initiate a bidirectional interpersonal communication between the at least one communication device and the at least one mobile device.
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Grayson, Mark, Active mode internet protocol gateway relocation in a partial meshed deployment.
Kezys, Vytautas Robertas, Adaptive beamforming configuration methods and apparatus for wireless access points serving as handoff indication mechanisms in wireless local area networks.
Jung, Edward K. Y.; Levien, Royce A.; Lord, Robert W.; Malamud, Mark A.; Mangione-Smith, William Henry; Rinaldo, Jr., John D., Adaptive filtering of annotated messages or the like.
Hoffberg, Hoffberg Mark; Hoffberg-Borghesani, Linda I., Adaptive pattern recognition based controller apparatus and method and human-factored interface therefore.
Tzu San-De,TWX ; Lin Shy-Jay,TWX, Apparatus and method of inspecting phase shift masks using comparison of a mask die image to the mask image database.
Bharadwaj, Raj Mohan; Ghosh, Ranjana; Goldstein, David B.; Iyer, Vidhyashankaran Ramamoorthy, Automatic determination of success of using a computerized decision support system.
Rodman, Jeffrey; Drell, David; Vander Kam, Rick A; Sexton, Martin G; Binford, Don; Nimri, Alain; Ratcliff, Jeff; Kilday, Carolyn; Hess, Michael J., Conference link between a speakerphone and a video conference unit.
Morgan, Edward J.; Shean, Michael G.; Alizadeh-Shabdiz, Farshid; Jones, Russel K., Continuous data optimization of new access points in positioning systems.
Wijayanathan, Maiyuran; Naqvi, Noushad; Hind, Hugh, Data burst communication techniques for use in increasing data throughput to mobile communication devices.
Swing, Andrew T.; Sprinkle, Robert S.; Borchers, Albert T., Data storage device capable of recognizing and controlling multiple types of memory chips operating at different voltages.
Jung, Edward K. Y.; Levien, Royce A.; Lord, Robert W.; Malamud, Mark A.; Moskowitz, Michael L.; Rinaldo, Jr., John D.; Tegreene, Clarence T.; Wood, Jr., Lowell L., Deactivation system and method for a transferable device.
Brewer, Tony; Wallach, Steven J., Dynamically configured coprocessor for different extended instruction set personality specific to application program with shared memory storing instructions invisibly dispatched from host processor.
Cohen, Alexander J.; Jung, Edward K. Y.; Levien, Royce A.; Lord, Robert W.; Malamud, Mark A.; Rinaldo, Jr., John D., Electronic acquisition of a hand formed expression and a context of the expression.
Cornwall, Mark K.; Haas, Harry Price, Frequency hopping spread spectrum system with high sensitivity tracking and synchronization for frequency unstable signals.
Halcrow, Michael Austin; Kirkland, Dustin, Generating and dynamically updating databases of WIFI hotspots locations and performance metrics via location mappers.
Allen, Paul G.; Boyden, Edward S.; Bangera, Mahalaxmi Gita; Hillis, W. Daniel; Hyde, Roderick A.; Ishikawa, Muriel Y.; Jung, Edward K. Y.; Leuthardt, Eric C.; Rivet, Dennis J.; Smith, Michael A.; Sweeney, Elizabeth A.; Wood, Jr., Lowell L.; Wood, Victoria Y. H., Health-related signaling via wearable items.
Cohen, Alexander J.; Jung, Edward K. Y.; Levien, Royce A; Lord, Robert W.; Malamud, Mark A; Rinaldo, Jr., John D.; Tegreene, Clarence T., Individualizing a connectivity-indicative mapping.
Wyard Peter J,GBX ; Rose Tony G,GBX, Information retrieval system and method that generates weighted comparison results to analyze the degree of dissimilarity between a reference corpus and a candidate document.
Krumm, John C.; Horvitz, Eric J.; Hariharan, Ramaswamy, Integration of location logs, GPS signals, and spatial resources for identifying user activities, goals, and context.
Chamberlain, Roger D.; Franklin, Mark Allen; Indeck, Ronald S.; Cytron, Ron K.; Cholleti, Sharath R., Intelligent data storage and processing using FPGA devices.
Berns, Adam T.; Allard, James E.; Baker, Nicholas C.; Holmdahl, Todd E.; Roup, Oliver R.; Sloo, David H.; Wong, Curtis G.; Yee, Dawson, Intensity-based maps.
Mon, Felix A.; Mark, Timothy James; Ackiss, Jason Michael; George, Maile; Armstrong, Robert Fleetwood, Interacting with user at ATM based on user preferences.
Jung, Edward K. Y.; Levien, Royce A.; Lord, Robert W.; Malamud, Mark A.; Mangione-Smith, William Henry; Rinaldo, Jr., John D., Layering destination-dependent content handling guidance.
Noldus, Rogier; den Hartog, Jos; Taori, Rakesh, Method and a system for establishing presence of a mobile station in at least one dedicated service area of a mobile telecommunications system.
Ming, Wei; Tian, Yibin, Method and apparatus for authenticating printed documents using multi-level image comparison based on document characteristics.
Francisco, David R.; Moganti, Madhav; Novotny, Hanan M.; Sankalia, Anish, Method and apparatus for providing end-to-end high quality services based on performance characterizations of network conditions.
Handforth, Martin Ridgway; Kwong, Herman; Duxbury, Guy; Wyrzykowska, Aneta; Marcanti, Larry; Stark, Ryan M., Method and apparatus for providing mobile inter-mesh communication points in a multi-level wireless mesh network.
Holt,Scott Crandall; Medders,Christopher Bertram; Yue,Drina C.; Smets,Raymond J.; Moquin,Thomas Joseph; Kraus,Evan; Durand,Terry; Berke,Lawrence R., Method and apparatus for routing calls based on identification of the calling party or calling line.
Voyer, Nicolas; Bonneville, Herve, Method and device for transferring an ongoing communication in which a mobile terminal is involved between a first and a second base stations and wherein one of the base stations is located in a moving conveyance.
Freeman, Mary Ann Branch; Marazzi, Marcelo; Berman, Marjorie; Kumar, Rakesh; Scott, Tara; Kidd, Amy, Method and product of manufacture for the recommendation of optimizers in a graphical user interface for mathematical solvers.
Szabo, Paul I.; Davis, Greg; Schmitt, David D.; Mimms, Allen B.; Masters, Richard R., Method and system for scaling network traffic managers using connection keys.
Ramkumar, Gurumurthy D; Manmatha, Raghavan; Bhattacharyya, Supratik; Bhargava, Gautam; Ruzon, Mark, Method and system for searching for information on a network in response to an image query sent by a user from a mobile communications device.
Baldus, Heribert; Klabunde, Karin; Musch, Guido; Santos Farras, Joan, Method for positioning of wireless medical devices with short-range radio frequency technology.
Jung, Edward K. Y.; Levien, Royce A.; Lord, Robert W.; Malamud, Mark A.; Rinaldo, Jr., John D., Method of selecting a second content based on a user's reaction to a first content of at least two instances of displayed content.
West, Jr., Patrick M.; Kapadia, Vimal M.; Krygowski, Christopher A.; Slegel, Timothy J, Method, system and computer program product for failure analysis implementing automated comparison of multiple reference models.
Bossler, Dan; Raslavsky, Elizabeth Marie; Loomis, Nicole Marie, Methods and apparatus for communicating internet protocol based control signaling through a communications system.
Tolentino, Jaime; Chen, Camille; Giles, Michael Jason; Le, Huy; Thomason, Gary; Hardell, David A., Methods and apparatus for enhanced coexistence algorithms in wireless systems.
Schlicht, Ludger; Atwal, Peter; Seidel, Scott Y.; Copeland, Gregory C.; Pataca, Victor M. T.; Mishra, Rajesh K.; Smith, Jeffrey E., Methods and systems for a mobile, broadband, routable internet.
Jung, Edward K. Y.; Leuthardt, Eric C.; Levien, Royce A.; Lord, Robert W.; Malamud, Mark A.; Rinaldo, Jr., John D.; Wood, Jr., Lowell L., Methods and systems for inducing behavior in a population cohort.
Childers, Sloan K.; Elderton, John; Primm, Michael, Methods for displaying physical network topology and environmental status by location, organization, or responsible party.
Liberti, Joseph C.; Wilkes, Joseph E.; Zablocky, Paul G., Methods for establishing reliable communications between two points in a mobile wireless network.
Rofougaran, Ahmadreza (Reza); Rofougaran, Maryam; Seshadri, Nambirajan; Ibrahim, Brima B.; Walley, John; Karaoguz, Jeyhan, Multi-mode mobile communication device with motion sensor and methods for use therewith.
Peck, Joseph E.; Novacek, Matthew; Andrade, Hugo A.; Petersen, Newton G.; Ranganathan, Ganesh; Sierer, Brian; Pasquarette, John, Network-based system for configuring a programmable hardware element in a measurement system using hardware configuration programs generated based on a user specification.
Cocotis, Thomas A.; Curtis, Alan D.; Emmett, David M.; Fan, Shengkuo; Henderson, Kristofer P.; Luepke, Jack W.; Nellor, Howard J.; Treptow, Jay A.; Wong, Gregory H., Output management system and method for enabling access to private network resources.
Leprovost, Yann; Marin, Cedric, Process for delivering a video stream over a wireless bidirectional channel between a video encoder and a video decoder.
Smilg, Lawrence Mitchell; Ernst, James; Zeller, Robert, Reconfigurable FADEC with flash based FPGA control channel and ASIC sensor signal processor for aircraft engine control.
Jung, Edward K. Y.; Levien, Royce A.; Lord, Robert W.; Malamud, Mark A.; Rinaldo, Jr., John D., Returning a second content based on a user's reaction to a first content.
Zini, Aldo; Allen, Spencer Wayne; Skirble, Barry Mark; Thorne, Henry F; Fairley, Stuart, Robotic ordering and delivery apparatuses, systems and methods.
Cohen, Alexander J.; Jung, Edward K. Y.; Lord, Robert W.; Rinaldo, Jr., John D.; Tegreene, Clarence T.; Levien, Royce A.; Malamud, Mark A., Signal routing dependent on a node speed change prediction.
Bahl, Paramvir; Wolman, Alastair; Chandra, Ranveer; Chin, Kevin; Agarwal, Yuvraj, Signaling over cellular networks to reduce the Wi-Fi energy consumption of mobile devices.
Alles, Martin; Carlson, John; Maher, George; Mazlum, Selcuk, System and method for generating a location estimate using uniform and non-uniform grid points.
Kennedy, Jr., Joseph P.; Gravely, Thomas B.; Beck, Andrew; Corcoran, Michael; Brickhouse, Bob, System and method for geo-location of mobile appliances using diverse standard tasking and reporting.
Bai, Yu; Moncrieffe, Marlon; Morgan, Bryan; Peirce, Scott B.; Sakarda, Premanand, System and method for selecting a power management configuration in a multi-core environment according to various operating conditions such as voltage, frequency, power mode, and utilization factor varied on a per-core basis.
Sposato, Stephen A.; Heinmiller, Wayne Robert; Russell, Alicia Marie; Hooper, II, Charles C., System and method to support multiple wireless accounts for a given subscriber.
Scherzer, Shimon; Scherzer, Tamir; Lifchuk, Yariv; Assa, Ronny, System and methods of automatically connecting a mobile communication device to a network using a communications resource database.
Shaw, Venson; Hu, Q. James; McNamara, Justin; Sennett, DeWayne Allan, System, method and apparatus for protecting privacy when a mobile device is located in a defined privacy zone.
Krzyzanowski, Paul; Trotter, John; Pitts, Michael, System, method and computer program product for concurrent performance of video teleconference and delivery of multimedia presentation and archiving of same.
Landesman, Lior; Marom, Erez, Systems and methods for efficiently positioning a directional antenna module to receive and transmit the most effective band width of wireless transmissions.
Allen, Jr., James J.; Uyar, Muharrem Umit; Lundberg, Michael Robert; Somers, Diane; Sarwate, Shashank; Chriss, William Howard, Telephone software testing system and method.
Lin, Shu; Tan, Harry; Liang, Robert M., Universal packet loss recovery system for delivery of real-time streaming multimedia content over packet-switched networks.
Cohen, Alexander J.; Jung, Edward K. Y.; Lord, Robert W.; Rinaldo, Jr., John D.; Tegreene, Clarence T.; Levien, Royce A.; Malamud, Mark A., Using a signal route dependent on a node speed change prediction.
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