子分类:
- H04H60/02: .用于生成广播信息的装置;用于生成与广播信息或广播时空直接相关的广播相关信息的装置;用于同时生成广播信息和广播相关信息的装置
- H04H60/09: .用于与广播信息或广播时空直接相关的设备控制的装置;用于广播相关业务控制的装置
- H04H60/25: .用于更新广播信息或广播相关信息的装置
- H04H60/27: .用于记录或积累广播信息或广播相关信息的装置
- H04H60/29: .用于监控广播业务或广播相关业务的装置
- H04H60/35: .用于标识或识别与广播信息或广播时空直接联接的特征的装置,例如,识别广播站或识别用户
- H04H60/56: .以专门适用于由组H04H60/29或H04H60/35包括的监控、标识或识别的组件为特征的装置
- H04H60/61: .用于使用由组H04H60/29或H04H60/35包括的监控、标识和或识别的结果的业务的装置
- H04H60/68: .专门适用于使用特定信息,例如地理或气象信息的系统
- H04H60/76: .以不用于广播的传输系统,例如互联网,为特征的装置 { (以广播为特征的入H04H 20/65) }
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | インターネットプロトコルマルチキャストコンテンツ配信のアプリケーショントランスポートレベルロケーションフィルタ処理 | JP2016217451 | 2016-11-07 | JP2017098952A | 2017-06-01 | チャールズ・ヌン・ロ; ドナルド・ダブリュ.・ギリーズ; カルロス・エム.ディー.・パゾス |
| 【課題】インターネットプロトコル(IP)ブロードキャスト/マルチキャストコンテンツ配信のアプリケーショントランスポートレベルロケーションフィルタ処理方法を提供する。 【解決手段】ワイヤレス通信のための装置装置は、第1のFLUTEセッション中で複数のデータセットを受信する。各データセットは、ブロードキャストに関連する識別子とターゲットエリアとを含む。本装置は、第2のFLUTEセッション中でブロードキャストと、ブロードキャストに関連する識別子とを受信する。ブロードキャストとともに受信した識別子に基づいて、ブロードキャストに関連するターゲットエリアを判断する。さらに、ターゲットエリアに関連する基準が満たされるかどうかに基づいて、受信したブロードキャストを保持すべきかどうかを判断する。 【選択図】図15 |
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| 42 | 音信号処理装置 | JP2015128699 | 2015-06-26 | JP2017017368A | 2017-01-19 | 相曾 優; 長谷川 将俊 |
| 【課題】 音信号の再生タイミングを規定するクロックとして高品質なクロックを容易に得られるようにする。 【解決手段】 それぞれ音データ及びそれに付随するワードクロックを受信する複数のデジタル音信号受信部200と、デジタル音信号受信部200の各々に対応する複数のPLL回路であって、それぞれ対応する受信部が受信したワードクロックに基づいたクロック信号を生成する複数のマスタPLL回路203と、各デジタル音信号受信部200が受信した音データを信号処理部に供給する供給部204と、複数のマスタPLL回路203により生成された複数のクロック信号の1つを、上記信号処理部による処理後の音データの再生タイミングを規定するサンプリングクロックCKoとして選択するセレクタ220とを設けた。 【選択図】 図2 |
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| 43 | Electronic Service Guide (esg) bootstrap entry point discovery method and apparatus | JP2010549580 | 2009-03-06 | JP5394406B2 | 2014-01-22 | イリン シュ,; ゼ−ヨン ソン,; クッ−ヒ リ,; ジ−ウン クム, |
| A method of providing discovery information of an Electronic Service Guide (ESG) bootstrap entry point is provided. The method includes listing at least one piece of ESG bootstrap characteristic information for an ESG bootstrap proper for a status of a terminal, creating a Management Object (MO), which connects the ESG bootstrap entry point with said at least one piece of ESG bootstrap characteristic information and transmitting the created MO to the terminal through an interactive channel. | ||||||
| 44 | METHODS AND SYSTEMS FOR REDUCING SPILLOVER BY MEASURING A CREST FACTOR | EP14757286.1 | 2014-02-27 | EP2962215B1 | 2018-01-03 | NIELSEN, Christen V. |
| Methods, apparatus, and articles of manufacture for reducing spillover in a media monitoring system are disclosed. An example method includes identifying media associated with media monitoring data. The media monitoring data is received from a first meter associated with a first media presentation device. The example method includes identifying an expected crest factor associated with the media. The example method includes comparing the expected crest factor to a received crest factor to determine if spillover occurred. The received crest factor is received from the first meter. The example method includes crediting the media as a media exposure if spillover did not occur. | ||||||
| 45 | METHODS AND SYSTEMS FOR REDUCING SPILLOVER BY MEASURING A CREST FACTOR | EP14757286 | 2014-02-27 | EP2962215A4 | 2016-08-10 | NIELSEN CHRISTEN V |
| Methods, apparatus, and articles of manufacture for reducing spillover in a media monitoring system are disclosed. An example method includes identifying media associated with media monitoring data. The media monitoring data is received from a first meter associated with a first media presentation device. The example method includes identifying an expected crest factor associated with the media. The example method includes comparing the expected crest factor to a received crest factor to determine if spillover occurred. The received crest factor is received from the first meter. The example method includes crediting the media as a media exposure if spillover did not occur. | ||||||
| 46 | Audio watermark detection for delivering contextual content to a user | EP11306812.6 | 2011-12-29 | EP2487680B1 | 2014-03-05 | Perret, Jean; Gruget, Alban |
| 47 | Method of processing analog broadcasting signal and broadcasting signal receiving apparatus | EP10157603.1 | 2010-03-24 | EP2337248A2 | 2011-06-22 | Kim, Joon-soo; Kim, Se-jun |
A method and apparatus for processing an analog broadcasting signal in an analog broadcasting signal receiving apparatus. The method of processing the analog broadcasting signal includes determining broadcasting system modes of all broadcasting channels on the basis of a vertical synchronization signal of an intermediate frequency (IF) broadcasting signal, and using the broadcasting system mode information generated according to the determination result in a video processor when performing a channel scan, thereby shortening the time to perform the channel scan.
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| 48 | Apparatus and method for discovering ESG bootstrap entry point in CBMS system | EP09154503.8 | 2009-03-06 | EP2099144A2 | 2009-09-09 | Xu, Yiling; Song, Jae-Yeon; Lee, Kook-Heui; Keum, Ji-Eun |
A method of providing discovery information of an Electronic Service Guide (ESG) bootstrap entry point is provided. The method includes listing at least one piece of ESG bootstrap characteristic information for an ESG bootstrap proper for a status of a terminal, creating a Management Object (MO), which connects the ESG bootstrap entry point with said at least one piece of ESG bootstrap characteristic information and transmitting the created MO to the terminal through an interactive channel.
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| 49 | TIME-ALIGNMENT MEASURMENT FOR HYBRID HD RADIO TECHNOLOGY | US15822411 | 2017-11-27 | US20180139035A1 | 2018-05-17 | Brian W. Kroeger; Paul J. Peyla |
| A method for processing a digital audio broadcast signal in a radio receiver, includes: receiving a hybrid broadcast signal; demodulating the hybrid broadcast signal to produce an analog audio stream and a digital audio stream; and using a normalized cross-correlation of envelopes of the analog audio stream and the digital audio stream to measure a time offset between the analog audio stream and the digital audio stream. The time offset can be used to align the analog audio stream and the digital audio stream for subsequent blending of an output of the radio receiver from the analog audio stream to the digital audio stream or from the digital audio stream to the analog audio stream. | ||||||
| 50 | MODULAR WIRELESS SYSTEM FOR UTILIZING ELECTRICAL INPUTS, OUTPUTS AND INPUT AND OUTPUT BASED FEEDBACK DURING LIVE PERFORMANCES | US15170920 | 2016-06-01 | US20170352217A1 | 2017-12-07 | Lindsay Craig |
| A network consisting of modules, each containing a wireless communication unit (106, 119, 135, 151), sensors (104, 105, 137, 138, 149) and/or actuators (103, 116, 118, 120, 134, 136, 150), allowing new dimensions of audience interaction. Each module is capable of input, output and signal filtering (102, 117, 133, 148). Behavior is controlled by a primary module (FIG. 1A) establishing module parameters including, but not limited to, output and sensor behavior, display data, non-primary module menu options, modules active in network and order of module communication. Modes of operation may allow non-primary modules (FIGS. 2A, 3A, 4A) to effect the primary module's settings creating a cyclical feedback in which the network's behavior (FIGS. 5A, 5B, 5C) is dependent on both primary and non-primary modules' output. The non-primary modules' portion of the network's output may be dependent upon a combination of non-primary module algorithms and sensor values. Inputs (104, 105, 137, 138, 149) and outputs (103, 116, 118, 120, 134, 136, 150) include, but are not limited to, audio components, LEDs, LED drivers, motors, relays, buttons, potentiometers, LCD displays, phones, piezo elements, accelerometers, gyroscopes, infrared emitters and detectors, temperature sensors and sonar sensors. | ||||||
| 51 | Demodulation method, information process apparatus, and reception station | US15268863 | 2016-09-19 | US09729248B2 | 2017-08-08 | Taki Kono |
| A non-transitory computer-readable recording medium on which a program is recorded for a causing a processor to execute a demodulation process. The demodulation process includes detecting a preamble of a wireless signal transmitted from a first transmission station by way of a short wavelength carrier wave, extracting a first signal superimposed on the short wavelength carrier wave, the first signal being extracted from a wireless signal that is identified in accordance with the detection of the preamble, extracting a second signal superimposed on a carrier wave transmitted from a second transmission station, and performing demodulation on a target demodulation signal obtained by superimposing the first signal on the second signal. | ||||||
| 52 | CLOCK SUSTAIN IN THE ABSENCE OF A REFERENCE CLOCK IN A COMMUNICATION SYSTEM | US15411801 | 2017-01-20 | US20170222790A1 | 2017-08-03 | WILLIAM HOOPER; Lewis F. LAHR |
| Disclosed herein are systems and methods for clock sustain in a two-wire communication systems and applications thereof. In some embodiments, in a clock sustain state, slave nodes with processors and digital to analog converters (DACs) may be powered down efficiently in the event of lost bus communication. For example, when the bus loses communication and a reliable clock cannot be recovered by the slave node, the slave node may enter the sustain state and, if enabled, signals this event to a general purpose input/output (GPIO) pin. In the clock sustain state, the slave node phase lock loop (PLL) may continue to run for a predetermined number of SYNC periods, while attenuating the inter-integrated circuit transmit (I2S DTXn) data from its current value to 0. After the predetermined number of SYNC periods, the slave node may reset and reenter a power-up state. | ||||||
| 53 | Application transport level location filtering of internet protocol multicast content delivery | US13431721 | 2012-03-27 | US09451401B2 | 2016-09-20 | Charles Nung Lo; Donald W. Gillies; Carlos M. D. Pazos |
| A method, an apparatus, and a computer program product for wireless communication are provided. The apparatus receives a plurality of data sets in a first FLUTE session. Each data set of the data sets includes an identifier and a target area associated with a broadcast. The apparatus receives a broadcast and an identifier associated with the broadcast in a second FLUTE session. The apparatus determines the target area associated with the received broadcast based on the identifier received with the received broadcast. The apparatus determines whether to keep the received broadcast based on whether a criterion associated with the target area is satisfied. | ||||||
| 54 | METHOD FOR TRANSMITTING BROADCASTING SIGNAL, METHOD FOR RECEIVING BROADCASTING SIGNAL, APPARATUS FOR TRANSMITTING BROADCASTING SIGNAL, AND APPARATUS FOR RECEIVING BROADCASTING SIGNAL | US14902830 | 2014-07-01 | US20160204967A1 | 2016-07-14 | Jinyong CHOI; Sangchul MOON; Sungryong HONG; Woosuk KO; Chulkyu MUN |
| The present invention provides a method for transmitting a broadcasting signal. The method for transmitting the broadcasting signal according to the present invention comprises the steps of: encoding data of a plurality of PLPs according to a code rate, wherein the step of encoding data of a plurality of PLPs comprises the steps of LDPC-encoding data of at least one PLP of the plurality of PLPs according to the code rate, bit-interleaving the LDPC-encoded data, and mapping the bit-interleaved data to constellation; mapping the encoded data of the plurality of PLPs to generate at least one signal frame; and modulating data of the generated signal frame through an OFDM scheme and transmitting a broadcasting signal including the modulated data of the signal frame. | ||||||
| 55 | MEDIA CONTENT DELIVERY | US14599784 | 2015-01-19 | US20150135244A1 | 2015-05-14 | Scott Hilson; Lisa Hoppes |
| A server can receive information identifying media content to be offered to users at a discount or at a particular time of release. The offer can also include information identifying a minimum number of acceptances by users needed for the offer to be valid. During a predetermined period, if the number of acceptances has reached or exceeded the minimum number needed, the server may transmit a media stream containing the media content to the users. Furthermore, the offer may include multiple tiers of discounts and/or times of release. | ||||||
| 56 | Methods and systems for reducing spillover by measuring a crest factor | US13782895 | 2013-03-01 | US09021516B2 | 2015-04-28 | Christen V. Nielsen |
| Methods, apparatus, and articles of manufacture for reducing spillover in a media monitoring system are disclosed. An example method includes identifying media associated with media monitoring data. The media monitoring data is received from a first meter associated with a first media presentation device. The example method includes identifying an expected crest factor associated with the media. The example method includes comparing the expected crest factor to a received crest factor to determine if spillover occurred. The received crest factor is received from the first meter. The example method includes crediting the media as a media exposure if spillover did not occur. | ||||||
| 57 | DISTRIBUTION SYSTEM, RECEPTION APPARATUS, AND METHODS FOR TRANSITIONING TO NEW SERVICES | US13930814 | 2013-06-28 | US20150007242A1 | 2015-01-01 | Luke FAY |
| A distribution system and reception apparatus, and methods thereof, are provided for broadcasting and receiving a plurality of non-backwards-compatible services. The broadcasting method includes receiving, by a first service provider, a plurality of first services, which include a first service from each of the first and second service providers. The first service provider generates a first broadcast multiplex, including the plurality of first services, and broadcasts the first broadcast multiplex on a first broadcast channel allocated to the first service provider. A second service provider receives a plurality of second services, which include a second service from each of the first and second service providers. The second service provider generates a second broadcast multiplex, including the plurality of second services, and broadcasts the second broadcast multiplex on a second broadcast channel allocated to the second service provider. | ||||||
| 58 | METHODS AND SYSTEMS FOR REDUCING SPILLOVER BY MEASURING A CREST FACTOR | US13782895 | 2013-03-01 | US20140250448A1 | 2014-09-04 | Christen V. Nielsen |
| Methods, apparatus, and articles of manufacture for reducing spillover in a media monitoring system are disclosed. An example method includes identifying media associated with media monitoring data. The media monitoring data is received from a first meter associated with a first media presentation device. The example method includes identifying an expected crest factor associated with the media. The example method includes comparing the expected crest factor to a received crest factor to determine if spillover occurred. The received crest factor is received from the first meter. The example method includes crediting the media as a media exposure if spillover did not occur. | ||||||
| 59 | Method and system for automating advertising insertion and reconciliation | US12875481 | 2010-09-03 | US08799941B2 | 2014-08-05 | Dien V. Nguyen; Joseph T. Hayes; Richard F. Purpura; Jason Y. Shimizu; James E. Yokers; Dennis N. Tan |
| A system and method for operating an ad extraction and reconciliation system for a broadcast system includes an extraction manager module that receives an advertisement schedule for an advertisement from an ad sales module. The system also includes a controller module that receives broadcast channel schedule data for broadcast channel signal from a broadcast channel system and generating an advertising content data request signal for advertising content data including an advertisement content identifier for the advertisement. The ad extraction manager module forms an advertisement insertion schedule having advertisement content identifier and an advertising insertion spot associated with the advertising content identifier. The controller communicates the advertisement insertion schedule to a broadcast scheduling system. The system also includes an as-run manager module that receives as-run data including the advertising identifier and a run time of the advertisement after the advertisement was inserted into the broadcast channel signal according to the broadcast scheduling system at an automation system. | ||||||
| 60 | Method and mobile terminal for searching alternative frequency using radio data system | US12471927 | 2009-05-26 | US08532597B2 | 2013-09-10 | Hean Gwang Chu |
| A method and mobile terminal for searching for alternative frequencies is provided for facilitating alternative frequency search. The mobile terminal having an alternative frequency search function includes a control unit having a radio data decoder for decoding radio data containing a program identifier and for differentiating the radio data by type, a radio data filter for extracting the program identifier from the radio data and for comparing the extracted program identifier with a previously stored program identifier, and a radio data updater for updating an alternative frequency list in response to an instruction of the radio data filter, and a storage unit for storing the alternative frequency list and the differentiated radio data. The alternative frequency search method and mobile terminal of the present invention facilitates alternative frequency search by updating the alternative frequency list only when the program identifier decoded from Radio Data System (RDS) data is substantially identical with the previously stored program identifier. | ||||||
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