共查询到19条相似文献,搜索用时 218 毫秒
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在移动视频内容推送中,用户是否最终接受推送的视频内容不但取决于内容本身,还受用户所处的上下文(包括用户使用视频服务的时间、用户所在的位置,以及用户所使用接受视频内容的设备)的影响。上下文对用户接受移动视频内容的影响对移动视频推送具有重要意义。通过数据驱动的方法,利用大量移动用户在真实移动视频服务中接受视频推荐的记录(包括16天共4千万条移动视频访问日志),研究包括时间、位置、设备等上下文信息对用户最终接受移动视频内容的影响。基于实验数据给出的发现包括:(1)时间的周期性和峰值差异性;(2)位置的差异性和特殊区域的不同影响;(3)移动设备类型、移动操作系统的不同影响。这些研究结果将有助于优化移动视频内容的推送,提高用户的移动视频服务体验,例如,用户可以在偏好的上下文背景下获得更好的移动视频推送服务。 相似文献
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基于TCP反馈的主动队列管理算法会无差别地丢弃UDP分组,导致视频质量下降.根据TCP/UDP发送特性和混合流排队机制,推导拥塞窗口、丢弃概率及混合流队列长度的微分方程,通过线性化获得Ad Hoc网络混合流AQM(active queue management)控制模型,提出了一种减少UDP丢弃率的PI-V主动队列管理算法.当视频画质下降时,算法依据视频帧权重与分组长度,动态地调整UDP视频流的丢弃概率.NS(network simulator)仿真表明,PI-V算法优于PI与去尾算法,提高了视频传输质量0.82 d B~2.22 d B的峰值信噪比(PSNR). 相似文献
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为了使终端用户能更好地体验视频业务带来的生活乐趣,满足终端用户语音视频应答,以视频呼叫控制(VCC)为核心技术,提出了一种基于IMS架构设计的交互式语音及视频应答系统(IVVR).提出的IVVR系统是一种全新的无线语音及视频应答增值服务,视频电话用户通过拨打指定电话号码,获得所需信息,参与互动式的语音视频服务.不仅保证兼容现有3G/NGN网络,而且能更好地适应通信网络及终端融合的趋势,为通信网络过渡到IMS做好了充分的准备. 相似文献
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多点对点无线视频图像传输系统的研究和实现 总被引:1,自引:0,他引:1
视频通信是目前计算机和通信领域的一个热点。随着计算机技术、网络通信和多媒体技术 ,特别是视频压缩技术的发展 ,视频传输将成为IP网络的重要业务。近些年来 ,随着局域网的应用领域不断拓宽和现代通信方式的不断变化 ,尤其是移动和便携式通信的发展 ,无线局域网 (WLAN)也逐渐成为计算机通信领域的一个热点。论述了应用无线局域网进行多点对点传输视频的特点 ,并提出一种采用多线程 (Multi thread)和套接口 (Socket)技术实现多点对点无线视频传输系统的解决方案 相似文献
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针对现有监控系统的局限性,提出了一种基于CDMA窄带网络的视频监控报警系统的解决方案,该方案采用先进的多媒体技术,特别适用于有线网络无法到达或者人员无法接近的场所的监控.首先介绍了系统的工作原理,接着分析了系统设计中的一些关键技术,包括视频转发技术、报警触发机制以及短信彩信处理等,最后探讨了系统的实现. 相似文献
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As mobile devices such as tablet PCs and smartphones proliferate, the online video consumption over a wireless network has been accelerated. From this phenomenon, there are several challenges to provide the video streaming service more efficiently and stably in the heterogeneous mobile environment. In order to guarantee the QoS of real-time HD video services, the steady and reliable wireless mesh is necessary. Furthermore, the video service providers have to maintain the QoS by provisioning streaming servers to respond the clients’ request of different video resolution. In this paper, we propose a reliable cloud-based video delivery scheme with the split-layer SVC encoding and real-time adaptive multi-interface selection over LTE and WiFi links. A split-layer video streaming can effectively scale to manage the required channels on each layer of various client connections. Moreover, split-layer SVC model brings streaming service providers a remarkable opportunity to stream video over multiple interfaces (e.g. WiFi, LTE, etc.) with a separate controlling based on their network status. Through the adaptive interface selection, the proposed system aims to ensure the maximizing video quality which the bandwidth of LTE/WiFi accommodates. In addition, the system offers cost-effective streaming to mobile clients by saving the LTE data consumption. In our system, an adaptive interface selection is developed with two different algorithms, such as INSTANT and EWMA methods. We implemented a prototype of mobile client based on iOS particularly by using iPhone5S. Moreover, we also employ the split-layer SVC encodes in streaming server-side as the add-on module to SVC reference encoding tool in a virtualized environment of KVM hypervisor. We evaluated the proposed system in an emulated and a real-world heterogeneous wireless network environments. The results show that the proposed system not only achieves to guarantee the highest quality of video frames via WiFi and LTE simultaneous connection, but also efficiently saves LTE bandwidth consumption for cost-effectiveness to client-side. Our proposed method provides the highest video quality without deadline misses, while it consumes 50.6% LTE bandwidth of ‘LTE-only’ method and 72.8% of the conventional (non-split) SVC streaming over a real-world mobile environment. 相似文献
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Jenq-Shiou Leu Author Vitae Cheng-Wei Tsai Author Vitae 《Journal of Systems and Software》2009,82(11):1916-1925
Thanks to the growing of the wireless networks, the video streaming application becomes a ubiquitous joyful service. In a wireless communication network environment, the service traffic spans across the wired and wireless domains. In this article, we propose a practical design of a proxy agent - SPONGE (Stream Pooler Over a Network Graded Environment) sitting between the wireless User Equipments (UEs) and the video streaming server to facilitate the adaptive video streaming service across wired/wireless networks. To make the wireless streaming service more efficient, an input video session would be encoded as multiple qualities of video streams so that UEs with a similar receiving condition can share streams with the same service quality via SPONGE. SPONGE can alleviate the direct load on the original stream broadcasting server. Meanwhile, it can make each UE get an adaptive streaming service according to the network conditions of the UE by a reduced network condition feedback latency. Our theoretical analysis and simulation results show that SPONGE can help wireless streaming users get a smooth and better playback quality by a quick and accurate reaction to the network condition. 相似文献
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随着无线网络的快速发展和Internet中流媒体视频的巨大成功,无线网络中的视频服务有望在不久的将来得到大规模部署,无线网络上的实时流媒体传输技术已成为研究热点,而其中视频安全组播协议是一个关键问题。但是,由于无线网络中有限的带宽和有限的存储空间,外部的攻击与自适应机制带来的安全性问题在无线流媒体视频中是不可避免的。一个精心设计的密钥管理算法不仅可以明显地提高流媒体视频的性能,还能够保证可靠的数据嵌入以及实时视频应用提供安全支持。如何设计一个高效的密钥管理算法,是当前流媒体视频应用中一个备受关注的问题。针对无线视频应用,针对一个处于开放和不安全的网络环境中的自适应视频应用的密钥管理算法进行了研究,并进行了算法评价。 相似文献
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如何有效地实现基于MPEG视频流的数字VCR(Digilal Video Cassette Recording)功能是视频流服务的一个技术挑战,提出在服务器端建立双向视频流,采用具有最小花费的帧选择方案,在需要网络带宽和解码复杂度最小的情况下有效地实现数字VCR操作。由反向视频流组成的双向流可以有效地执行倒播功能,但在执行其他VCR功能时带来视频帧的动态抖动问题及所需网络带宽和解码复杂度继续减少的问题;直接参考流组成的双向流可以很好地解决这些问题并能更有效地实现VCR的操作。 相似文献
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针对目前Internet未对多媒体应用提供QoS保障的问题,分析了视频流组播的难点,提出了一种基于缓冲区管理的网络自适应组播发送速率控制方法.该机制可以合理控制服务器的发送速率,既能自适应网络状况的变化,又满足流媒体实时播放的需求.实验结果表明,该机制通过控制发送缓冲区占有率,降低了分组丢包率,提高了终端的接收质量,具有良好的实用价值. 相似文献
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The IETF's Differentiated Services architecture is designed to provide different types or levels of service for Internet traffic. One of its key features is that traffic flows are aggregated so that routers in the core network only need to distinguish a relatively small number of aggregate flows, even if those flows consist of hundreds or thousands of individual flows. However, network-level QoS differentiation may not satisfy the requirements of many QoS-sensitive applications such as live video streaming, where end-to-end delay and reliability must be guaranteed.
This paper investigates application-level service differentiation for MPEG video streaming in a Diff-Serv-aware MPLS network infrastructure, along with routing support at the network layer. Based on the fact that MPEG video has become one of the most popular formats for Internet (wired and wireless) users, our approach enhances aggregate QoS for video streaming by employing existing application-level knowledge of the MPEG video structure; therefore it requires neither a new video compression algorithm nor additional bandwidth. Several MPEG video dispersion models are proposed and analyzed. Simulation results show that two such strategies are superior to the other tested. In addition, a new routing scheme is proposed to support searching the ‘best’ paths for efficient multi-path video streaming. Through extensive simulations, we demonstrate that our approaches improve the aggregate QoS of MPEG video streams, as well as overall network efficiency. 相似文献