Patent application number | Description | Published |
20090268637 | DATA COMMUNICATION METHOD AND SYSTEM, DATA SENDING/RECEIVING APPARATUS - A data communication method includes: a Radio Network Controller (RNC) sends a notification message to a Node B to instruct the Node B to perform proper operations after a specific event occurs on the User Equipment (UE). A data communication system, a data sending apparatus and a data receiving apparatus are also provided in an embodiment of the present disclosure. Through the technical solution under the present disclosure, when specific events such as cell handover, disconnection and state transition occur on the UE, the RNC that obtains the event information may send a notification message to Node B to instruct the Node B to perform proper operations. Therefore, the Node B is prevented from continuing to send the buffered UE data from the source cell; and in the Cell_FACH state, the present disclosure saves the radio channel resources, shortens the transmission delay, and reduces the transmission packet loss ratio. | 10-29-2009 |
20110096399 | TUNABLE FILTER - A tunable filter is provided. The tunable filter comprises an input optical fiber for launching an optical signal into the tunable filter; a collimator disposed for collimating light transmitted from the input optical fiber; a grating disposed for dispersing the collimated light according to wavelength in a dispersion plane; a first reflector disposed for reflecting at least a partial of the dispersed light to a second reflector; a second reflector disposed for reflecting the dispersed light back to the grating; a third reflector disposed for reflecting the transmitted dispersed light from the grating back to the grating, wherein then the second reflector reflects the transmitted dispersed light to the first reflector, the first reflector reflects the transmitted dispersed light back to the grating, the collimator receives the transmitted dispersed light from the grating and substantially focusing it to a focal point; and an output optical fiber disposed at the focal point for receiving the focused light; wherein one of the reflectors is rotated to selectively reflect the dispersed light having a predetermined wavelength. | 04-28-2011 |
20120182601 | Demodulator Using MEMS Chip for Adjusting The Phase - The present patent application provides a demodulator using MEMS chip for adjusting the phase, which comprises a first interferometer. The difference of the first optical path and the second optical path is an integer multiple of the light speed. A MEMS chip is arranged in at least one optical path of the first interferometer, the MEMS chip is used to adjust the phase of the interference light. The present patent application using MEMS chip for adjusting the phase and phase difference, and also monitor the location of the output beam waveform of the first interferometer and the second interferometer to guide the MEMS chip adjusting the phase difference of the two optical paths. Therefore the adjusting of the phase is more precise by using MEMS chip. | 07-19-2012 |
20130069957 | Method and Device for Playing Animation and Method and System for Displaying Animation Background - Embodiments of the present invention provide a method and device for playing an animation, belonging to a communication technology field. The method includes obtaining a first attribute value of an animation object of the current moment when an audio signal is detected, and determining a second attribute value and a first speed value corresponding to the audio signal; taking the first attribute value and second attribute value respectively as a starting point and end point, and playing the animation object according to the first speed value; and stopping, when the audio signal stops, playing the animation object if the playing of the animation object does not end. The device includes an audio starting animation playing module and an audio ending animation playing module. In embodiments, the playing of the animation is achieved through detecting the audio signal and playing the animation object combing the audio signal, which achieves the effect of the animation and enriches the displaying effect. | 03-21-2013 |
20140082088 | METHOD AND APPARATUS FOR IMPLEMENTING USER RELATIONSHIP IN SOCIAL NETWORK APPLICATION - The present invention provides a method and an apparatus for establishing a user relationship in a social networking application to improve the information security. The method includes: receiving a user addition request; determining whether the user addition request is initiated from a predefined trustworthy relationship scenario, and if not, performing verification on a user initiating the request; and establishing a user relationship according to a verification result. The apparatus includes: a request acquisition module, configured to receive the user addition request; a scenario determining module, configured to determine whether there is a predefined trustworthy relationship scenario associated with the request, and if not, inform a verification module; the verification module, configured to perform verification on a user initiating the request, and inform a relationship establishing module of a verification result; and the relationship establishing module, configured to establish the user relationship. | 03-20-2014 |
20140321308 | Data Communication Method and System, Data Sending/Receiving Apparatus - A data communication method includes: a Radio Network Controller (RNC) sends a notification message to a Node B to instruct the Node B to perform proper operations after a specific event occurs on the User Equipment (UE). A data communication system, a data sending apparatus and a data receiving apparatus are also provided in an embodiment of the present disclosure. Through the technical solution under the present disclosure, when specific events such as cell handover, disconnection and state transition occur on the UE, the RNC that obtains the event information may send a notification message to Node B to instruct the Node B to perform proper operations. Therefore, the Node B is prevented from continuing to send the buffered UE data from the source cell; and in the Cell_FACH state, the present disclosure saves the radio channel resources, shortens the transmission delay, and reduces the transmission packet loss ratio. | 10-30-2014 |
20150248412 | INFORMATION PUSHING METHOD AND APPARATUS - The present application provides an information pushing method and apparatus. The method comprises: collecting a pushing parameter of each piece of information pushed in a time segment T, the pushing parameter comprising information pushing time, an information pushing user, or the number of times of the information being accessed; determining, according to the collected pushing parameter, an information access parameter of each user in the time segment T, the information access parameter comprises at least: the number of times of the information being visited in the time segment T, an information access tendency, and time of a last access of the information in T, and the information access tendency being determined by the number of times of the information being accessed; and selecting, according to the information access parameter of each user in the time segment T, a target user meeting a requirement, and pushing information to the target user. | 09-03-2015 |
20150295658 | SINGLE-FIBER COUPLED MULTI-WAVELENGTH OPTICAL TRANSCEIVER MODULE - The present patent application discloses a single-fiber coupled multi-wavelength optical transceiver, comprising a fiber ferrule, a circulator subassembly, a multiplexer/demultiplexer subassembly, an optical transmitting subassembly and an optical receiving subassembly. The circulator subassembly comprises three ports. The optical transceiver comprises an optical receiving unit and an optical transmitting unit. The light beams of the optical receiving unit incidents from the fiber ferrule to the first port of the circulator, then output to multiplexer/demultiplexer through the second port of the circulator subassembly. The light beams is then split by the multiplexer/de-multiplexer and received by the receiver optical subassembly. | 10-15-2015 |