Video Broadcasting(비디오 방송)란 무엇입니까?
Video Broadcasting 비디오 방송 - +e proposed scheme can be further applied to the real-world applications on video broadcasting and 3D multimedia industry. [1] In order to further improve the quality of video broadcasting, hybrid digitalanalog schemes are proposed. [2] Recently OTT service providers are extending their service to video broadcasting. [3] Video broadcasting in Vehicular Ad Hoc Networks (VANETs) is beneficial for traffic management, entertainment, and advertising services because video notifications in active safety applications provide more information regarding accident scenarios than simple text messages. [4] However, home video distribution and video broadcasting were historically designed for what we now call standard dynamic range screens (SDR). [5] Finally, the trends in video broadcasting in VANET networks are identified as future research directions. [6] Video broadcasting has attained high importance due to the popularization of networks. [7] Recommender systems are information filtering systems used in many online applications like music and video broadcasting and e-commerce platforms. [8] The Real Time Video Distribution (RTVD) is now a day a subject of interest in various applications that support different fields, like video conferences, security systems, video broadcasting, etc. [9] This paper focuses on broadcast signals in a single frequency network modulated according to the digital audio/video broadcasting (DAB/DVB) standards. [10] Thus, this writing attempts to review the new trend in technology, the use of video broadcasting in teaching listening-speaking. [11] Nowadays color image processing is widely utilized in medical field, multimedia, computer vision, graphics and video broadcasting. [12] Since several applications need a high value of throughput like Audio & Video Broadcasting, Interactive audio & Video Streaming, etc. [13]+e 제안된 방식은 비디오 방송 및 3D 멀티미디어 산업의 실제 응용 분야에 추가로 적용될 수 있습니다. [1] 비디오 방송의 품질을 더욱 향상시키기 위해 하이브리드 디지털 아날로그 방식이 제안된다. [2] 최근 OTT 사업자들은 영상 방송으로 서비스를 확장하고 있다. [3] VANET(Vehicular Ad Hoc Networks)의 비디오 방송은 능동 안전 애플리케이션의 비디오 알림이 단순한 문자 메시지보다 사고 시나리오에 대한 더 많은 정보를 제공하기 때문에 교통 관리, 엔터테인먼트 및 광고 서비스에 유용합니다. [4] 그러나 홈 비디오 배포 및 비디오 방송은 역사적으로 현재 표준 동적 범위 화면(SDR)이라고 하는 것을 위해 설계되었습니다. [5] 마지막으로 VANET 네트워크에서의 영상 방송 동향을 향후 연구 방향으로 제시한다. [6] 비디오 방송은 네트워크의 대중화로 인해 중요성이 높아졌습니다. [7] 추천 시스템은 음악 및 비디오 방송 및 전자 상거래 플랫폼과 같은 많은 온라인 응용 프로그램에서 사용되는 정보 필터링 시스템입니다. [8] 실시간 비디오 배포(RTVD)는 이제 화상 회의, 보안 시스템, 비디오 방송 등과 같이 다양한 분야를 지원하는 다양한 애플리케이션에서 관심의 대상이 되었습니다. [9] 이 논문은 디지털 오디오/비디오 방송(DAB/DVB) 표준에 따라 변조된 단일 주파수 네트워크의 방송 신호에 중점을 둡니다. [10] 따라서 이 글은 기술의 새로운 트렌드인 듣기-말하기 교육에 비디오 방송을 사용하는 것을 검토하려고 합니다. [11] 오늘날 컬러 영상 처리는 의료 분야, 멀티미디어, 컴퓨터 비전, 그래픽 및 비디오 방송에 널리 활용되고 있습니다. [12] 여러 응용 프로그램은 오디오 및 비디오 방송, 대화형 오디오 및 비디오 스트리밍 등과 같은 높은 처리량 값을 필요로 하기 때문에 [13]
digital audio broadcasting
Teknologi Orthogonal Frequency Division Multiplexing (OFDM) telah banyak diimplementasikan dalam komunikasi digital berkecepatan tinggi seperti Wireless Local Area Network (WLAN), Digital Audio Broadcasting (DAB), Digital Video Broadcasting (DVB), dan Asymmetric Digital Subscriber Line (ADSL). [1] 11, digital audio broadcasting (DAB) and digital video broadcasting (DVB). [2] The non-cooperative detection radars have been developed the sources of illumination, including analog television signals, FM(Frequency Modulation) radio signals, digital audio broadcasting, digital video broadcasting, communication satellites and GPS(Global Positioning System) satellites. [3] 서 론 최근 frequency modulated (FM) 라디오, digital video broadcasting-terrestrial (DVB-T) , digital audio broadcasting (DAB), Wi-Fi 등의 상용 방송 및 통신 신호를 활용하여 표적을 탐지하는 수동형 바 이스태틱 레이더 시스템에 대한 연구가 활발히 진행 되고 있다. [4] However, these researches mainly focus on communication systems, such as FM radio, TV broadcasting, digital video broadcasting and digital audio broadcasting. [5]OFDM(Orthogonal Frequency Division Multiplexing) 기술은 WLAN(Wireless Local Area Network), DAB(Digital Audio Broadcasting), DVB(Digital Video Broadcasting), ADSL(Asymmetric Digital Subscriber Line)과 같은 고속 디지털 통신에 널리 구현되었습니다. . [1] 11, 디지털 오디오 방송(DAB) 및 디지털 비디오 방송(DVB). [2] nan [3] nan [4] nan [5]
second generation terrestrial 2세대 지상파
Planning for Multi-Frequency Network (MFN) with Digital Video Broadcasting-Second Generation Terrestrial (DVB-T2) services is particularly useful during the transition from analog to digital broadcasting. [1] In order to evaluate the capability of that, we have implemented this scheme for the second-generation terrestrial video broadcasting (DVB-T2) system over different channels. [2] In order to evaluate its capability, we have implemented this scheme for the second generation terrestrial video broadcasting (DVB-T2) system. [3]디지털 비디오 방송-2세대 지상파(DVB-T2) 서비스를 사용한 다중 주파수 네트워크(MFN) 계획은 아날로그 방송에서 디지털 방송으로 전환하는 동안 특히 유용합니다. [1] 그 능력을 평가하기 위해 우리는 서로 다른 채널을 통해 2세대 지상파 비디오 방송(DVB-T2) 시스템에 대해 이 방식을 구현했습니다. [2] 그 능력을 평가하기 위해 우리는 2세대 지상파 영상 방송(DVB-T2) 시스템에 이 방식을 구현했다. [3]
Digital Video Broadcasting 디지털 비디오 방송
Peak to Average Power Ratio (PAPR) reduction techniques also known as Crest Factor Reduction (CFR) techniques have been very useful approaches for many signals such as Orthogonal Frequency Division Multiplexing (OFDM) based signals such as used in Long-Term Evolution (LTE) and 5G systems, Wideband Code Division Multiple Access (WCDMA) signals, and Digital Video Broadcasting (DVB) for Satellite Communication Systems (DVB-S2X). [1] In the last three years, the Digital Video Broadcasting (DVB) Project has adopted internet-centric standards that are supposed to offer a television-like experience for over-the-top streaming, e. [2] The normalized generalized mutual information of the 135 GBaud PDM-16QAM signal for 120 km standard single mode fiber transmission was much higher than the threshold of error-free operation of a 5/6 code rate of digital video broadcasting satellite second generation low-density parity check forward error correction. [3] DVB (Digital Video Broadcasting) adalah salah satu sistem yang digunakan untuk mentransmisikan siaran TV/video digital hingga sampai kepengguna akhir/penerima. [4] The Second Generation Digital Video Broadcasting Terrestrial (DVB-T2) system has the most complex and flexible configuration among the second generation DVB standards. [5] And on the other side due to invention of digital video broadcasting IM schemes are most widely used in recent wireless systems. [6] Planning for Multi-Frequency Network (MFN) with Digital Video Broadcasting-Second Generation Terrestrial (DVB-T2) services is particularly useful during the transition from analog to digital broadcasting. [7] In this paper, we will investigate the impact of GPS interference caused by jamming and spoofing on the synchronization of Single Frequency Network (SFN) Digital Video Broadcasting–Terrestrial (DVB-T) transmitters. [8] The Second Generation Digital Video Broadcasting Terrestrial (DVB-T2) standard and its light version (DVB-T2-Lite) offer very flexible system configurations including multiple-input single-output (MISO) transmission technology to improve the performance of the Single Frequency Networks (SFNs). [9] This study presents the evaluation of digital video broadcasting-terrestrial second generation (DVB-T2) Television signal quality in Jos using Integrated Television Services Limited signal. [10] In this paper, we propose to use polar codes with flexible fast-adaptive SCL decoders in Digital Video Broadcasting (DVB) systems to meet the growing demand for more bitrates. [11] Information from the results is timely because it will serve as the bedrock for the newly launched transformation to the digital video broadcasting (DVB) system in Nigeria for effective service delivery. [12] In this paper, pilot symbol assisted channel estimation in Digital Video Broadcasting Terrestrial (DVB-T) based orthogonal frequency division multiplexing (OFDM) system by linear interpolation is investigated. [13] The Digital Video Broadcasting (DVB) has proposed to introduce the Ultra-High Definition services in three phases: UHD-1 phase 1, UHD-1 phase 2 and UHD-2. [14] Design/Methodology/Approach: The main focus of the research is on the digitalization of the television industry as part of the process of mass media convergence and the transition of traditional television to digital video broadcasting – terrestrial (DVBT), including via the Internet. [15] To achieve the objective, the Digital Video Broadcasting - Second Generation (DVB-S2) satellite communication system is considered under a memoryless flat Rayleigh fading channel to exploit its ACM scheme as an example. [16] The theoretical analysis of the proposed method is presented, and its efficiency is verified by simulating the passive radar system with a Digital Video Broadcasting-Terrestrial (DVB-T) transmitter. [17] This article investigates the target detection capability of a passive forward scatter radar (PFSR) exploiting a digital video broadcasting – terrestrial (DVB-T) transmitter as illuminator of opportunity. [18] Multiple carrier wave interferences (MCWI) is utilized as a jamming attack to the Digital Video Broadcasting-Satellite-Second Generation (DVB-S2) receiver and performance of a new detector and mitigation system is investigated and validated in both simulation and practical tests. [19] 3 an(10GBps ethernet over twisted pair), CMMB(China multimedia mobile broadcasting), DVB-S2/DVB-T2/DVB-C2(Digital video broadcasting , second generation), DMB-T/H(Digital video broadcasting), Wimax(IEEE 802. [20] The latter is an important property, without which essential functionalities in digital video broadcasting or streaming could not be provided. [21] Radio Frequency Interferences (RFI), such as strong Continuous Wave Interferences (CWI), can influence the Quality of Service (QoS) of communications, increasing the Bit Error Rate (BER) and decreasing the Signal-to-Noise Ratio (SNR) in any wireless transmission, including in a Digital Video Broadcasting (DVB-S2) receiver. [22] Standar TV digital yang digunakan dalam penelitian ini adalah DVB-S2 (Digital Video Broadcasting Satellite – Second Generation) menggunakan frekuensi Ku Band. [23] Dipublikasi: 16 Mei 2021 Digital Video Broadcasting – Terrestrial (DVB-T) adalah salah satu standar broadcast televisi digital di eropa. [24] Low-density parity-check (LDPC) codes are widely used as error correction codes in new generation digital TV standards, such as the second generation of terrestrial digital video broadcasting standard (DVB-T2), Advanced Television Systems Committee (ATSC) 3. [25] To this purpose a Digital Video Broadcasting - Terrestrial transmitter is employed as illuminator of opportunity and the detection capability of a commercial off-the-shelf (COTS) based receiver is investigated against aerial targets. [26] This paper deals with the rotated constellations technique’s performance, which results in additional diversity to enhance Bit Interleaved Coding and Modulation (BICM) in various fading channel environments that improve the overall Digital Video Broadcasting Terrestrial Second Generation (DVB-T2) gain. [27] This study describes and evaluates a method to retrieve rainfall rate from the signal-to-noise ratio obtained from commercial interactive digital video broadcasting (DVB) receivers [referred as to smart low-noise blocks (smartLNBs)]. [28] In 2019, the Digital Video Broadcasting (DVB) project published an updated specification of the DVB-S2X standard to improve the support of beam-hopping systems. [29] Miniaturized monopole planar antennas operating in the VHF/UHF band applied for Digital Video Broadcasting and mobile communication have gained research interest due to their low-profile, compact, and wideband nature. [30] In this paper, an implementation of 16-bit QAM is performed where there is a high use of Digital Video Broadcasting Cable (DVB-C), as there is increase in the usage the bandwidth requirement for each user is mutually increasing. [31] It has been shown that packet repetition and successive interference cancellation (SIC) can effectively improve the throughput of frame-slotted ALOHA (FSA) and have been investigated within the Digital Video Broadcasting (DVB) standardization. [32] This paper describes the field trials carried out in the Bucharest region in Romania for testing and analyzing the performance of the second generation of the Digital Video Broadcasting Terrestrial standard using the base profile for portable indoor reception. [33] This paper discusses efficient mobile television (TV) broadcast over digital video broadcasting terrestrial (DVB-T) network based on the technical specifications and performance of system in various channel conditions. [34] According to Digital Video Broadcasting-Terrestrial (DVB-T) standard the linearization techniques, circuit and the OFDM transmitter and receiver is designed and implemented through using computer simulation of AWR Design Environment. [35] The present work investigates the reference signal reconstruction method for passive coherent location (PCL) radars exploiting Digital Video Broadcasting-Terrestrial (DVB-T) signals. [36] Teknologi Orthogonal Frequency Division Multiplexing (OFDM) telah banyak diimplementasikan dalam komunikasi digital berkecepatan tinggi seperti Wireless Local Area Network (WLAN), Digital Audio Broadcasting (DAB), Digital Video Broadcasting (DVB), dan Asymmetric Digital Subscriber Line (ADSL). [37] Motivated by this need, this paper presents an experimental security analysis of satellite broadband signals using the Digital Video Broadcasting for Satellite (DVB-S) protocol. [38] In Digital video broadcasting (DVB), the global content and local content is transmitted using hierarchical modulated OFDM. [39] To overcome co-channel interference problem, we propose a wideband time-division multiplexing (TDM) transmission method and analyze the proposed system based on DVB-T2 (digital video broadcasting - second generation terrestrial) platform. [40] This paper proposes a new design of spiral labyrinth microstrip antenna feed by microstrip line with array two element for Digital Video Broadcasting Technology (DVB-T) application at work frequency of 586 MHz. [41] Sistem DVB-T (Digital Video Broadcasting Terestrial), merupakan sistem penyiaran langsung dari pemancar bumi (terrestrial). [42] One of the possible scenarios to address could be the combining of Telco and vertical components as digital video broadcasting (DVB). [43] 11, digital audio broadcasting (DAB) and digital video broadcasting (DVB). [44] Received Sep 9, 2018 Revised Dec 12, 2018 Accepted Dec 28, 2018 DVB-T2 (Digital Video Broadcasting-Second Generation Terrestrial) is one of the latest technical standards being developed by the DVB Project for DTT (Digital Terrestrial Television). [45] The estimation of achievable ranges of air target detection is performed for the Satellite Digital Video Broadcasting and for Global Navigation Satellite System transmitters with respect to possible geometries and configurations of the passive radar system. [46] Interestingly, the number of the papers for the automatic modulation classification that are recommended in the digital video broadcasting - satellite - second generation standard is very limited. [47] In this paper, the detection of CID signal in digital video broadcasting of a carrier identification system(DVB-CID) is deeply studied. [48] The non-cooperative detection radars have been developed the sources of illumination, including analog television signals, FM(Frequency Modulation) radio signals, digital audio broadcasting, digital video broadcasting, communication satellites and GPS(Global Positioning System) satellites. [49] This paper presents a software architecture that supports fast channel change in digital video broadcasting-satellite/cable/terrestrial (DVB-S/C/T) set top boxes (STBs). [50]CFR(Crest Factor Reduction) 기술이라고도 하는 PAPR(Peak to Average Power Ratio) 감소 기술은 LTE(장기 진화)에 사용되는 OFDM(직교 주파수 분할 다중화) 기반 신호와 같은 많은 신호에 대해 매우 유용한 접근 방식이었습니다. 및 5G 시스템, WCDMA(광대역 코드 분할 다중 액세스) 신호 및 위성 통신 시스템용 DVB(디지털 비디오 방송)(DVB-S2X). [1] 지난 3년 동안 DVB(Digital Video Broadcasting) 프로젝트는 인터넷 중심의 표준을 채택하여 오버톱 스트리밍, 예를 들어 TV와 같은 경험을 제공해야 합니다. [2] 120km 표준 단일 모드 광섬유 전송을 위한 135GBaud PDM-16QAM 신호의 정규화된 일반화 상호 정보는 디지털 비디오 방송 위성 2세대 저밀도 패리티의 5/6 코드율의 오류 없는 작동 임계값보다 훨씬 높았습니다. 앞으로 오류 수정을 확인하십시오. [3] nan [4] 2세대 DVB-T2(Digital Video Broadcasting Terrestrial) 시스템은 2세대 DVB 표준 중 가장 복잡하고 유연한 구성을 가지고 있습니다. [5] nan [6] 디지털 비디오 방송-2세대 지상파(DVB-T2) 서비스를 사용한 다중 주파수 네트워크(MFN) 계획은 아날로그 방송에서 디지털 방송으로 전환하는 동안 특히 유용합니다. [7] nan [8] 2세대 디지털 비디오 방송 지상파(DVB-T2) 표준 및 라이트 버전(DVB-T2-Lite)은 단일 주파수 네트워크의 성능을 향상시키는 다중 입력 단일 출력(MISO) 전송 기술을 포함한 매우 유연한 시스템 구성을 제공합니다. (SFN). [9] nan [10] nan [11] nan [12] nan [13] nan [14] nan [15] nan [16] nan [17] nan [18] nan [19] nan [20] nan [21] nan [22] 본 연구에 사용된 디지털 TV 표준은 Ku Band 주파수를 사용하는 DVB-S2(Digital Video Broadcasting Satellite – Second Generation)이다. [23] nan [24] nan [25] nan [26] nan [27] nan [28] nan [29] nan [30] nan [31] 패킷 반복 및 연속 간섭 제거(SIC)는 프레임 슬롯 ALOHA(FSA)의 처리량을 효과적으로 향상시킬 수 있으며 DVB(디지털 비디오 방송) 표준화 내에서 조사되었습니다. [32] 본 논문에서는 휴대형 실내 수신용 기본 프로파일을 사용하여 2세대 디지털 비디오 방송 지상파 표준의 성능을 테스트하고 분석하기 위해 루마니아 부쿠레슈티 지역에서 수행된 현장 시험에 대해 설명합니다. [33] 본 논문에서는 다양한 채널 조건에서 시스템의 기술 사양과 성능을 기반으로 지상 디지털 비디오 방송(DVB-T) 네트워크를 통한 효율적인 TV 방송에 대해 논의한다. [34] nan [35] nan [36] OFDM(Orthogonal Frequency Division Multiplexing) 기술은 WLAN(Wireless Local Area Network), DAB(Digital Audio Broadcasting), DVB(Digital Video Broadcasting), ADSL(Asymmetric Digital Subscriber Line)과 같은 고속 디지털 통신에 널리 구현되었습니다. . [37] nan [38] nan [39] nan [40] nan [41] nan [42] nan [43] 11, 디지털 오디오 방송(DAB) 및 디지털 비디오 방송(DVB). [44] nan [45] nan [46] nan [47] nan [48] nan [49] nan [50]
Live Video Broadcasting 라이브 비디오 방송
Recently, live video broadcasting is frequently used due to the COVID-19 pandemic. [1] In this paper, we propose a temporal relational reasoning guided QoE evaluation approach for mobile live video broadcasting, namely TRR-QoE, which explicitly attends to the temporal relationships between consecutive frames to achieve a more comprehensive understanding of the distortion-aware variation. [2] Nowadays, panoramic video has been widely used in video surveillance, live video broadcasting, video conferencing and other fields. [3] Crowdsourced live video broadcasting services, such as Twitch and YouTube Live, are becoming increasingly popular. [4] Evolved multimedia broadcast/multicast service (eMBMS) known LTE broadcast as a point to multipoint (PTM) system based on orthogonal multiple access(OMA) technology for live video broadcasting mobile cellular systems. [5] Live video upstreaming refers to the flow of live data in the upstream direction from mobile devices to other entities across the Internet and has found use in many modern applications such as remote driving, the recent social media trend of live video broadcasting along with the traditional applications of video calling/conferencing. [6]최근 코로나19 팬데믹(세계적 대유행)으로 라이브 영상 방송이 많이 이용되고 있다. [1] 본 논문에서는 모바일 라이브 비디오 방송에 대한 시간적 관계 추론 유도 QoE 평가 접근 방식, 즉 TRR-QoE를 제안합니다. 이 방법은 왜곡 인식 변화에 대한 보다 포괄적인 이해를 달성하기 위해 연속 프레임 간의 시간적 관계에 명시적으로 주의를 기울입니다. [2] 오늘날 파노라마 비디오는 비디오 감시, 라이브 비디오 방송, 화상 회의 및 기타 분야에서 널리 사용되었습니다. [3] Twitch 및 YouTube Live와 같은 크라우드 소싱 라이브 비디오 방송 서비스가 점점 인기를 얻고 있습니다. [4] nan [5] nan [6]
Conversational Video Broadcasting
Multipath broadcasting is the one solution for conversational video broadcasting to increase the bandwidth of end-to-end systems and increase the video quality. [1] Multipath broadcasting is the one solution for conversational video broadcasting to increase the bandwidth of end-to-end systems and increase the video quality. [2]다중 경로 방송은 종단 간 시스템의 대역폭을 늘리고 비디오 품질을 높이기 위한 대화형 비디오 방송을 위한 하나의 솔루션입니다. [1] 다중 경로 방송은 종단 간 시스템의 대역폭을 늘리고 비디오 품질을 높이기 위한 대화형 비디오 방송을 위한 하나의 솔루션입니다. [2]
Wireles Video Broadcasting
Furthermore, a VaR-based optimization framework for wireless video broadcasting systems is presented. [1] SoftCast has been recently proposed as an original wireless video transmission scheme to deal with the issues encountered by conventional wireless video broadcasting systems (e. [2]또한 무선 영상 방송 시스템을 위한 VaR 기반 최적화 프레임워크를 제시한다. [1] SoftCast는 최근 기존의 무선 영상 방송 시스템(e.g. [2]
Terrestrial Video Broadcasting 지상파 영상 방송
In order to evaluate the capability of that, we have implemented this scheme for the second-generation terrestrial video broadcasting (DVB-T2) system over different channels. [1] In order to evaluate its capability, we have implemented this scheme for the second generation terrestrial video broadcasting (DVB-T2) system. [2]그 능력을 평가하기 위해 우리는 서로 다른 채널을 통해 2세대 지상파 비디오 방송(DVB-T2) 시스템에 대해 이 방식을 구현했습니다. [1] 그 능력을 평가하기 위해 우리는 2세대 지상파 영상 방송(DVB-T2) 시스템에 이 방식을 구현했다. [2]
video broadcasting terrestrial 영상방송 지상파
The Second Generation Digital Video Broadcasting Terrestrial (DVB-T2) system has the most complex and flexible configuration among the second generation DVB standards. [1] The Second Generation Digital Video Broadcasting Terrestrial (DVB-T2) standard and its light version (DVB-T2-Lite) offer very flexible system configurations including multiple-input single-output (MISO) transmission technology to improve the performance of the Single Frequency Networks (SFNs). [2] In this paper, pilot symbol assisted channel estimation in Digital Video Broadcasting Terrestrial (DVB-T) based orthogonal frequency division multiplexing (OFDM) system by linear interpolation is investigated. [3] This paper deals with the rotated constellations technique’s performance, which results in additional diversity to enhance Bit Interleaved Coding and Modulation (BICM) in various fading channel environments that improve the overall Digital Video Broadcasting Terrestrial Second Generation (DVB-T2) gain. [4] This paper describes the field trials carried out in the Bucharest region in Romania for testing and analyzing the performance of the second generation of the Digital Video Broadcasting Terrestrial standard using the base profile for portable indoor reception. [5] This paper discusses efficient mobile television (TV) broadcast over digital video broadcasting terrestrial (DVB-T) network based on the technical specifications and performance of system in various channel conditions. [6] Useful signal modulations for passive radar include OFDM (Orthogonal Frequency Division Multiplexing) signals for digital TV following the standard Digital Video Broadcasting Terrestrial (DVB-T) [1]. [7] This paper evaluates the performances of Low Density Parity Check (LDPC) codes standardized for the Digital Video Broadcasting Terrestrial 2nd Generation (DVB-T2) for further practical development and applications in Indonesia. [8]2세대 DVB-T2(Digital Video Broadcasting Terrestrial) 시스템은 2세대 DVB 표준 중 가장 복잡하고 유연한 구성을 가지고 있습니다. [1] 2세대 디지털 비디오 방송 지상파(DVB-T2) 표준 및 라이트 버전(DVB-T2-Lite)은 단일 주파수 네트워크의 성능을 향상시키는 다중 입력 단일 출력(MISO) 전송 기술을 포함한 매우 유연한 시스템 구성을 제공합니다. (SFN). [2] nan [3] nan [4] 본 논문에서는 휴대형 실내 수신용 기본 프로파일을 사용하여 2세대 디지털 비디오 방송 지상파 표준의 성능을 테스트하고 분석하기 위해 루마니아 부쿠레슈티 지역에서 수행된 현장 시험에 대해 설명합니다. [5] 본 논문에서는 다양한 채널 조건에서 시스템의 기술 사양과 성능을 기반으로 지상 디지털 비디오 방송(DVB-T) 네트워크를 통한 효율적인 TV 방송에 대해 논의한다. [6] nan [7] nan [8]
video broadcasting system 비디오 방송 시스템
The SoftCast video transmission scheme has been proposed as a promising alternative to traditional video broadcasting systems in wireless error-prone environments. [1] Furthermore, a VaR-based optimization framework for wireless video broadcasting systems is presented. [2] SoftCast has been recently proposed as an original wireless video transmission scheme to deal with the issues encountered by conventional wireless video broadcasting systems (e. [3] This paper describes design and implementation of an OFDM-based digital video broadcasting system test platform for multichannel ultra-high definition (UHD) broadcasting services. [4] The system makes the improved application software to be used friendly with as maximum as possible of flexibility and full optional controlling to get complete features of the video broadcasting systems. [5]SoftCast 비디오 전송 방식은 무선 오류가 발생하기 쉬운 환경에서 기존의 비디오 방송 시스템에 대한 유망한 대안으로 제안되었습니다. [1] 또한 무선 영상 방송 시스템을 위한 VaR 기반 최적화 프레임워크를 제시한다. [2] SoftCast는 최근 기존의 무선 영상 방송 시스템(e.g. [3] 본 논문에서는 다채널 UHD(Ultra-High Definition) 방송 서비스를 위한 OFDM 기반 디지털 비디오 방송 시스템 테스트 플랫폼의 설계 및 구현에 대해 설명합니다. [4] nan [5]
video broadcasting service
For the seamless integration of a variety of devices within the SH, HbbTV solutions are gaining a pivotal role, acting as a central hub for audio and video broadcasting services, home automation and other devices, including smartphones, tablets and Internet of Things (IoT)-enabled devices. [1] Crowdsourced live video broadcasting services, such as Twitch and YouTube Live, are becoming increasingly popular. [2] In the current context of seamless integration for a variety of devices within the Smart Home concept, the home TV screen has gained again a pivotal role in everyday life, acting as a central hub for audio and video broadcasting services, home automation and other devices, including smartphones, tablets and IoT - enabled devices. [3]SH 내 다양한 장치의 원활한 통합을 위해 HbbTV 솔루션은 오디오 및 비디오 방송 서비스, 홈 자동화 및 스마트폰, 태블릿 및 사물 인터넷(IoT)을 포함한 기타 장치의 중앙 허브 역할을 하는 중추적인 역할을 하고 있습니다. -활성화된 장치. [1] Twitch 및 YouTube Live와 같은 크라우드 소싱 라이브 비디오 방송 서비스가 점점 인기를 얻고 있습니다. [2] 스마트 홈 개념 내에서 다양한 장치에 대한 원활한 통합의 현재 맥락에서 홈 TV 화면은 오디오 및 비디오 방송 서비스, 홈 오토메이션 및 기타 장치의 중앙 허브 역할을 하며 일상 생활에서 다시 중추적인 역할을 하게 되었습니다. 스마트폰, 태블릿 및 IoT 지원 장치를 포함합니다. [3]
video broadcasting standard
Low-density parity-check (LDPC) codes are widely used as error correction codes in new generation digital TV standards, such as the second generation of terrestrial digital video broadcasting standard (DVB-T2), Advanced Television Systems Committee (ATSC) 3. [1] Besides, it provides a robust transmission in non-linear wireless channels and therefore it has been adopted and employed in the state-of-the-art digital video broadcasting standards DVB. [2] At shorter block lengths, the JVDD is able to outperform the state-of-the-art LDPC decoder that can be found in many of today’s systems, from deep-space communications to the digital video broadcasting standard, to the advanced television standard committee 3. [3]nan [1] 또한, 비선형 무선 채널에서 강력한 전송을 제공하므로 최신 디지털 비디오 방송 표준 DVB에서 채택 및 채택되었습니다. [2] 더 짧은 블록 길이에서 JVDD는 심우주 통신에서 디지털 비디오 방송 표준, 고급 텔레비전 표준 위원회 3에 이르기까지 오늘날 많은 시스템에서 볼 수 있는 최첨단 LDPC 디코더보다 성능이 뛰어납니다. . [3]
video broadcasting satellite 영상방송위성
The normalized generalized mutual information of the 135 GBaud PDM-16QAM signal for 120 km standard single mode fiber transmission was much higher than the threshold of error-free operation of a 5/6 code rate of digital video broadcasting satellite second generation low-density parity check forward error correction. [1] Standar TV digital yang digunakan dalam penelitian ini adalah DVB-S2 (Digital Video Broadcasting Satellite – Second Generation) menggunakan frekuensi Ku Band. [2] These analytical results are compared against simulation results obtained for Protected Tactical Waveform (PTW) using Second Generation Digital Video Broadcasting Satellite (DVB-S2) forward error correction (FEC) codes under PBNJ. [3]120km 표준 단일 모드 광섬유 전송을 위한 135GBaud PDM-16QAM 신호의 정규화된 일반화 상호 정보는 디지털 비디오 방송 위성 2세대 저밀도 패리티의 5/6 코드율의 오류 없는 작동 임계값보다 훨씬 높았습니다. 앞으로 오류 수정을 확인하십시오. [1] 본 연구에 사용된 디지털 TV 표준은 Ku Band 주파수를 사용하는 DVB-S2(Digital Video Broadcasting Satellite – Second Generation)이다. [2] nan [3]
video broadcasting technology
These are: the transition from website marketing to social networking; creation of high-quality, cognitive, interesting content; transition of marketing policy from push-marketing to pull-marketing; promoting the formation of the most positive personal feedback in electronic form; application of online video broadcasting technologies. [1] This paper proposes a new design of spiral labyrinth microstrip antenna feed by microstrip line with array two element for Digital Video Broadcasting Technology (DVB-T) application at work frequency of 586 MHz. [2]웹사이트 마케팅에서 소셜 네트워킹으로의 전환; 고품질의 인지적이며 흥미로운 콘텐츠 생성 푸시 마케팅에서 풀 마케팅으로의 마케팅 정책 전환; 가장 긍정적인 개인 피드백을 전자 형식으로 형성하도록 촉진합니다. 온라인 비디오 방송 기술의 응용. [1] nan [2]