| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 181 | Communication Device | US15617354 | 2017-06-08 | US20170272124A1 | 2017-09-21 | Hirotaka Asakura |
| A communication device may establish at least one type of connection among a first type of connection and a second type of connection which are according to a particular protocol defined in an NFC standard based on a current state of the communication device and a current state of an external device. The first type of connection may be a connection in which the communication device operates as a server and the external device operates as a client. The second type of connection may be a connection in which the communication device operates as a client and the external device operates as a server. The communication device may communicate the target data with the external device by using the established connection. The contents of the communication may be different in response to which type of connection is established. | ||||||
| 182 | METHOD AND ELECTRONIC DEVICE FOR INTELLIGENT INTERCONNECTION | US15247807 | 2016-08-25 | US20170265056A1 | 2017-09-14 | Shiqi ZHANG |
| The present disclosure discloses a method and electronic device for intelligent interconnection. The method includes: registering push service in a push engine and establishing long connection with the push engine by a first intelligent terminal; registering finding service in a local area network by the first intelligent terminal to enable the local area network to recognize the first intelligent terminal; receiving an intelligent terminal search request and receiving selection operation on a second searched intelligent terminal by the first intelligent terminal, when the first intelligent terminal and the second intelligent terminal are not in a same local area network, transmitting registration service carrying identity information of the second intelligent terminal to the push engine by the first intelligent terminal to enable the push engine to establish a corresponding relationship of the first intelligent terminal and the second intelligent terminal, thereby realizing intelligent interconnection according to the corresponding relationship. | ||||||
| 183 | Communication device | US15132432 | 2016-04-19 | US09698875B2 | 2017-07-04 | Hirotaka Asakura |
| A communication device may establish at least one type of connection among a first type of connection and a second type of connection which are according to a particular protocol defined in an NFC standard based on a current state of the communication device and a current state of an external device. The first type of connection may be a connection in which the communication device operates as a server and the external device operates as a client. The second type of connection may be a connection in which the communication device operates as a client and the external device operates as a server. The communication device may communicate the target data with the external device by using the established connection. The contents of the communication may be different in response to which type of connection is established. | ||||||
| 184 | Method and apparatus for handover of device to mitigate uplink interference in femtocell deployments | US13190282 | 2011-07-25 | US09661545B2 | 2017-05-23 | Mehmet Yavuz; Farhad Meshkati; Sumeeth Nagaraja; Yan Zhou; Vinay Chande |
| Methods and apparatuses are provided for determining whether to handover a device to mitigate uplink interference while achieving acceptable uplink service quality in a wireless network. One or more parameters related to a device can be evaluated to determine whether to handover the device, such as a number of transmission power reports received from the device over a period of time, a frame error rate, setpoint, or power control commands related to the uplink of the device, a received pilot signal strength at the device, an uplink throughput or buffer size at the device, etc., from which transmit power information of the device can be inferred for determining whether the device potentially interferes with access points or devices. Based on the one or more parameters, an access point can determine whether handing over the device may mitigate such uplink interference while ensuring uplink service quality, and accordingly handover the device. | ||||||
| 185 | Communication device | US13957479 | 2013-08-02 | US09596007B2 | 2017-03-14 | Hirotaka Asakura |
| A communication device may establish at least one type of connection among a first type of connection and a second type of connection which are according to a particular protocol defined in an NFC standard based on a current state of the communication device and a current state of an external device. The first type of connection may be a connection in which the communication device operates as a server and the external device operates as a client. The second type of connection may be a connection in which the communication device operates as a client and the external device operates as a server. The communication device may communicate the target data with the external device by using the established connection. The contents of the communication may be different in response to which type of connection is established. | ||||||
| 186 | Mapping data traffic throughout protocol layers based on priority information | US14532298 | 2014-11-04 | US09538545B2 | 2017-01-03 | Lochan Verma; Vijayalakshmi Rajasundaram Raveendran |
| Various aspects of the present disclosure provide for an apparatus configured for determining priority information associated with data traffic at an upper layer, mapping the data traffic to a queue at an intermediate layer based on the priority information determined at the upper layer, and mapping an endpoint associated with the queue to an access category (AC) at a lower layer based on the priority information determined at the upper layer. The priority information of the data traffic may be associated with a classification or type of data in the data traffic. The upper layer may be an application layer. The intermediate layer may be a protocol adaptation layer (PAL). The lower layer may be a media access control (MAC) layer. Various apparatuses, methods, computer-readable medium including similar features are also provided herein. Additional and alternative aspects, embodiments, and features are also provided herein. | ||||||
| 187 | METHOD, TERMINAL, AND SYSTEM FOR PUSHING INFORMATION | US15170997 | 2016-06-02 | US20160277520A1 | 2016-09-22 | JUNBAO ZHANG |
| Methods, terminals, and systems for pushing information are provided. A terminal obtains a business message from a server and determines a type of the business message from a real-time type, a timer-setting type, and an instruction-type. When the type of the business message is determined to be the real-time type, the terminal adjusts a sending interval of a heartbeat package as a first pre-set time duration and restores the sending interval of the heartbeat package back to a benchmark time interval after a second pre-set time duration. The first pre-set time duration is greater than the benchmark time interval and less than the second pre-set time duration. The terminal maintains a network link connection with the server based on the sending policy of the heartbeat package to provide a pushing operation of the business message. | ||||||
| 188 | Secure user plane (SUPL) redirection and mobile location protocol (MLP) tunneling to discovered SLP | US14485191 | 2014-09-12 | US09374759B2 | 2016-06-21 | Stephen William Edge; Andreas Klaus Wachter |
| Systems and methods for Secure User Plane (SUPL) Redirection and Mobile Location Protocol (MLP) Tunneling to a Discovered SUPL Location Platform (D-SLP) are disclosed. For example, a method for SUPL redirection by a SET, may include: receiving an initiation message at a SET from a Home SUPL Location Platform (H-SLP); establishing a secure connection with the H-SLP, and returning a response message; receiving a redirect message from the H-SLP; establishing a SET initiated SUPL session with a D-SLP; obtaining a location of the SET using the D-SLP; and returning the location to the H-SLP. | ||||||
| 189 | METHOD AND SYSTEM FOR EFFICIENT ENRICHMENT OF UPPER LAYER PROTOCOL CONTENT IN TRANSMISSION CONTROL PROGRAM (TCP) BASED SESSIONS | US14469049 | 2014-08-26 | US20160065644A1 | 2016-03-03 | Nishi Kant |
| A gateway system employing a redirect mechanism at upper layer protocols over Transmission Control Protocol (TCP) in a packet network to circumvent problems related to alteration of TCP sequence number due to header enrichment. The gateway system increases the size of a redirect message by the size of the header enrichment and thereby brings TCP sequence number on both ends in sync despite adding the header enrichment information. | ||||||
| 190 | Method and apparatus for mitigating interference in femtocell deployments | US14872779 | 2015-10-01 | US20160029293A1 | 2016-01-28 | Farhad Meshkati; Yan Zhou; Vinay Chande; Mehmet Yavuz |
| Methods and apparatuses are provided for mitigating interference among access points, and/or devices communicating therewith, in unplanned network deployments. Based on determining that one or more served devices potentially interfere with one or more access points, an inter-frequency handover (IFHO) threshold or data rate can be adjusted for the device to cause IFHO or reduce occurrence of interference, and/or a coverage area can be modified so the device can communicate with one or more other access points to mitigate potential interference. Based on determining interference from one or more devices served by other access points, an access point can switch operating modes to a hybrid or open access point to allow the one or more devices to handover to the access point, and/or can boost downlink transmit power to cause the one or more devices to perform IFHO from the other access points to mitigate potential interference. | ||||||
| 191 | Method and apparatus for mitigating interference in femtocell deployments | US13170488 | 2011-06-28 | US09185619B2 | 2015-11-10 | Farhad Meshkati; Yan Zhou; Vinay Chande; Mehmet Yavuz |
| Methods and apparatuses are provided for mitigating interference among access points, and/or devices communicating therewith, in unplanned network deployments. Based on determining that one or more served devices potentially interfere with one or more access points, an inter-frequency handover (IFHO) threshold or data rate can be adjusted for the device to cause IFHO or reduce occurrence of interference, and/or a coverage area can be modified so the device can communicate with one or more other access points to mitigate potential interference. Based on determining interference from one or more devices served by other access points, an access point can switch operating modes to a hybrid or open access point to allow the one or more devices to handover to the access point, and/or can boost downlink transmit power to cause the one or more devices to perform IFHO from the other access points to mitigate potential interference. | ||||||
| 192 | MAINTAINING TRIGGERED SESSION STATE IN SECURE USER PLANE LOCATION (SUPL) ENABLED SYSTEM | US14788301 | 2015-06-30 | US20150304452A1 | 2015-10-22 | NGUYEN KHIEM TRAN; MARTIN WYVILLE THOMSON; DARREN PAWSON |
| A method is provided for maintaining session state in a Secure User Plane Location (SUPL) enabled system during a triggered session. The method includes modifying at least one parameter of a session message to include state data indicating the session state, and transmitting a request to a SUPL Enabled Terminal (SET) to initiate the triggered session, the request comprising the session message having the at least one modified parameter to be stored at the SET. The method further includes receiving a triggered message from the SET in response to occurrence of a trigger event detected by the SET, the triggered message comprising the stored state data. The triggered session is identified using the state data received in the triggered message. | ||||||
| 193 | Maintaining triggered session state in secure user plane location (SUPL) enabled system | US13101243 | 2011-05-05 | US09112683B2 | 2015-08-18 | Nguyen Khiem Tran; Martin Wyville Thomson; Darren Pawson |
| A method is provided for maintaining session state in a Secure User Plane Location (SUPL) enabled system during a triggered session. The method includes modifying at least one parameter of a session message to include state data indicating the session state, and transmitting a request to a SUPL Enabled Terminal (SET) to initiate the triggered session, the request comprising the session message having the at least one modified parameter to be stored at the SET. The method further includes receiving a triggered message from the SET in response to occurrence of a trigger event detected by the SET, the triggered message comprising the stored state data. The triggered session is identified using the state data received in the triggered message. | ||||||
| 194 | SYSTEMS, METHODS AND DEVICES FOR APPLICATION SPECIFIC ROUTING IN DUAL CONNECTIVITY | US14580797 | 2014-12-23 | US20150215840A1 | 2015-07-30 | CANDY YIU; ANA LUCIA A. PINHEIRO |
| A wireless service provider can route packets in a dual connectivity wireless system based on application (instead of solely on bearers). For example, an evolved Node B can split a bearer between a master eNB (MeNB) and a secondary wireless connection (such as a secondary eNB (SeNB)). User equipment (UE) can connect to a both a MeNB and a SeNB and split a bearer based on application type. Instead of basing data forwarding on a bearer, packet routing can be based on other attributes (such as IP address, application, application type, etc.). This dual connectivity allows MeNB to schedule data forwarding based on application. Data packets assigned to a bearer can be divided among the MeNB and SeNB based on desirable attributes of the MeNB and SeNB for an application. | ||||||
| 195 | Method and system for transmitting location data | US13637623 | 2011-03-25 | US08971929B2 | 2015-03-03 | Hui Li; Liang Shan |
| The disclosure discloses a method and a system for transmitting location data. The method comprises at least one step of that: the location data is transmitted between a first terminal and a second terminal; the location data is transmitted between a first location server and a second location server; and the location data is transmitted between a third terminal and a third location server, wherein the location data comprises: assistance location data and/or position data. According to the technical solution provided by the disclosure, the location function between two terminals supporting Security User Plane Location (SUPL) can be realized, and some novel assistance location data can be transmitted. | ||||||
| 196 | Secure user plane location (SUPL) redirection and mobile location protocol (MLP) tunneling to a discovered SLP | US13592268 | 2012-08-22 | US08862126B2 | 2014-10-14 | Stephen William Edge; Andreas Klaus Wachter |
| Systems and methods for Secure User Plane (SUPL) Redirection and Mobile Location Protocol (MLP) Tunneling to a Discovered SUPL Location Platform (D-SLP) are disclosed. For example, a method for SUPL redirection by a SET, may include: receiving an initiation message at a SET from a Home SUPL Location Platform (H-SLP); establishing a secure connection with the H-SLP, and returning a response message; receiving a redirect message from the H-SLP; establishing a SET initiated SUPL session with a D-SLP; obtaining a location of the SET using the D-SLP; and returning the location to the H-SLP. | ||||||
| 197 | Context aware message presentation system | US12261237 | 2008-10-30 | US08805337B2 | 2014-08-12 | Pankaj Arvind Deshpande |
| The specification and drawing figures describe and show an apparatus, method, and system for presenting context aware messages. The system includes a mobile wireless communication. The mobile wireless communication instrument is operatively connected to a data processor. The data processor is adapted to receive, store, execute and compose information and data into a global message. At least one context management protocol is stored in the mobile wireless communication instruments. The context management protocol is adapted to accompany a global message and to selectively modify the global message into one or more context aware messages for receipt by any of the plurality of mobile wireless communication instruments. | ||||||
| 198 | Communication Device | US13957479 | 2013-08-02 | US20140038517A1 | 2014-02-06 | Hirotaka Asakura |
| A communication device may establish at least one type of connection among a first type of connection and a second type of connection which are according to a particular protocol defined in an NFC standard based on a current state of the communication device and a current state of an external device. The first type of connection may be a connection in which the communication device operates as a server and the external device operates as a client. The second type of connection may be a connection in which the communication device operates as a client and the external device operates as a server. The communication device may communicate the target data with the external device by using the established connection. The contents of the communication may be different in response to which type of connection is established. | ||||||
| 199 | APPARATUS AND METHOD FOR SEQUENTIALLY TRANSMITTING DATA | US13886655 | 2013-05-03 | US20130294322A1 | 2013-11-07 | Mi Young YUN; Hyun LEE; Seokki KIM; Won-Ik KIM; Chul Sik YOON; Sung Cheol CHANG |
| A reception terminal receives information indicating whether a service flow requires in-order delivery and a maximum time during which data not yet received is to wait in a case in which in-order delivery is required, from a transmission terminal, restores service data units (SDUs) from protocol data units (PDUs) received from the transmission terminal with respect to the corresponding service flow, and transmits the restored SDUs to a higher layer according to sequence numbers of the received PDUs in order. | ||||||
| 200 | SECURE USER PLANE LOCATION (SUPL) REDIRECTION AND MOBILE LOCATION PROTOCOL (MLP) TUNNELING TO A DISCOVERED SLP | US13592263 | 2012-08-22 | US20130225170A1 | 2013-08-29 | Stephen William EDGE; Andreas Klaus Wachter |
| Systems and methods for Secure User Plane (SUPL) Redirection and Mobile Location Protocol (MLP) Tunneling to a Discovered SUPL Location Platform (D-SLP) are disclosed. For example, a method for SUPL redirection by a SET, may include: receiving an initiation message at a SET from a Home SUPL Location Platform (H-SLP); establishing a secure connection with the H-SLP, and returning a response message; receiving a redirect message from the H-SLP; establishing a SET initiated SUPL session with a D-SLP; obtaining a location of the SET using the D-SLP; and returning the location to the H-SLP. | ||||||
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