The wireless communication technology has been developed focusing on fulfilling the demand in various parts of human life. In many real-life cases, this demand directs to most types of commonly-used rich-media applications which – with diverse traffic patterns - often require high quality levels on the devices of wireless network users. Deliveries of applications with different patterns are accomplished using heterogeneous wireless networks using multiple types of wireless network structure simultaneously. Meanwhile, content deliveries with assuring quality involve increased energy consumption on wireless network devices and highly challenge their limited power resources. As a result, many efforts have been invested aiming at high-quality and energy-efficient rich-media content deliveries in the past years.ududThe research work presented in the thesis focuses on developing energy-aware content delivery schemes in heterogeneous wireless networks. This thesis has four major contributions outlined below:udud1. An energy-aware mesh router duty cycle management scheme (AOC-MAC) for high-quality video deliveries over wireless mesh networks. AOC-MAC manages the sleep-periods of mesh devices based on link-state communication condition, reducing their energy consumption by extending their sleep-periods.udud2. An energy efficient routing algorithm (E-Mesh) for high-quality video deliveries over wireless mesh networks. E-Mesh evolves an innovative energy-aware OLSR-based routing algorithm by taking energy consumption, router position and network load into consideration.udud3. An energy-aware multi-flow-based traffic load balancing scheme (eMTCP) for multi-path content delivery over heterogeneous wireless networks. The scheme makes use of the MPTCP protocol at the upper transport layer of network, allowing data streams to be delivered across multiple consequent paths. Meanwhile, this benefit of MPTCP is also balanced with energy consumption awareness by partially off-loading traffic from the paths with higher energy cost to others. udud4. A MPTCP-based traffic-characteristic-aware load balancing mechanism (eMTCP-BT) for heterogeneous wireless networks. In eMTCP-BT, mobile applications are categorized according to burstiness level. eMTCP-BT increases the energy efficiency of the application content deliveries by performing a MDP-based distribution of traffic delivery via the available wireless network interfaces and paths based on the traffic burstiness level.
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机译:无线通信技术的开发致力于满足人类生活各个方面的需求。在许多现实生活中,这种需求都指向大多数类型的富媒体应用程序,这些应用程序具有多种流量模式,通常需要在无线网络用户的设备上达到高质量级别。使用异构无线网络同时使用多种类型的无线网络结构来完成具有不同模式的应用程序的交付。同时,具有质量保证的内容交付涉及无线网络设备上不断增加的能耗,并极大地挑战了其有限的电力资源。因此,在过去的几年中,已经进行了许多努力,以实现高质量和高能效的富媒体内容交付。 ud ud本文中的研究工作着重于开发异构无线中的能量感知内容交付方案。网络。本论文有以下四个主要贡献: ud ud1。一种能量感知型网状路由器占空比管理方案(AOC-MAC),用于通过无线网状网络交付高质量的视频。 AOC-MAC基于链路状态通信条件管理网状设备的睡眠时段,通过扩展其睡眠时段来降低其能耗。 ud ud2。一种节能路由算法(E-Mesh),用于通过无线网状网络传输高质量的视频。 E-Mesh通过考虑能耗,路由器位置和网络负载,发展了一种创新的基于能量感知OLSR的路由算法。一种基于能量的基于多流的流量负载平衡方案(eMTCP),用于通过异构无线网络进行多路径内容传递。该方案在网络的上层传输层使用MPTCP协议,从而允许数据流跨多个后续路径进行传递。同时,MPTCP的这种优势还可以通过从具有较高能源成本的路径中将流量分流给其他人来与能耗意识相平衡。 ud ud4。一种用于异构无线网络的基于MPTCP的流量特征感知负载平衡机制(eMTCP-BT)。在eMTCP-BT中,移动应用程序根据突发性级别进行分类。 eMTCP-BT通过基于可用的无线网络接口和基于流量突发性级别的路径执行基于MDP的流量交付分发,提高了应用程序内容交付的能源效率。
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