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This allows our protocol to exploit the statistical characteristics of variable bit rate (VBR) streams by giving unused time units to a How that requires peak rate allocation. We then present two optimizations to VBR-MCTA, namely VBR-Blind and VBR-TokenBus. The former, by giving ownership of a CTA in a round-robin manner without consideration to traffic profiles, does not consume any valuable \\\"air-time\\\" with signaling overheads. The latter allows a CTA to be shared by multiple devices that take turns owning unused \\\"air-time\\\" from CTAs. We have simulated VBR-MCTA and its optimizations in the ns-2 simulator over an implementation of the IEEE 802.15.3 MAC. Our results show that VBR-TokenBus has the best delay and jitter as it provides a one to six milliseconds reduction in both compared to standard CTA methods. 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引用次数: 10
摘要
IEEE 802.15.3 MAC实现了无线个人局域网中设备间的高速通信,对需要QoS (quality of service,服务质量)的应用有很好的支持。为了满足应用程序的QoS要求,如延迟和抖动,信道时间分配(CTA)调度程序在每个超级帧内CTA的大小和定位中起着重要作用。在本文中,我们首先提出了一种新的CTA共享协议,称为VBR-MCTA,它允许共享属于具有相同组身份的流的CTA。这允许我们的协议利用可变比特率(VBR)流的统计特性,将未使用的时间单位分配给需要峰值速率分配的方法。然后,我们提出了对VBR-MCTA的两种优化,即VBR-Blind和VBR-TokenBus。前者以轮询的方式授予CTA的所有权,而不考虑流量概况,不会消耗任何宝贵的“空中时间”和信令开销。后者允许多个设备共享CTA,这些设备轮流拥有CTA未使用的“通话时间”。我们在ns-2模拟器中模拟了VBR-MCTA及其优化,实现了IEEE 802.15.3 MAC。我们的结果表明,VBR-TokenBus具有最佳延迟和抖动,因为与标准CTA方法相比,它提供了1到6毫秒的延迟和抖动减少。虽然VSR-Blind的性能不如MCTA-Token或VBR-MCTA,但在减少开销的情况下,仍然明显优于传统的CTA方法。
A novel IEEE 802.15.3 CTA sharing protocol for supporting VBR streams
The IEEE 802.15.3 MAC enables high-rate communications between devices in a wireless personal area network and has good support for applications requiring quality of service (QoS). To meet applications' QoS requirements, such as delay and jitter, the channel time allocation (CTA) scheduler plays an important role in sizing and positioning CTAs within each super-frame. In this paper, we first present a novel CTA sharing protocol, called VBR-MCTA that enables the sharing of CTAs belonging to streams with the same group identity. This allows our protocol to exploit the statistical characteristics of variable bit rate (VBR) streams by giving unused time units to a How that requires peak rate allocation. We then present two optimizations to VBR-MCTA, namely VBR-Blind and VBR-TokenBus. The former, by giving ownership of a CTA in a round-robin manner without consideration to traffic profiles, does not consume any valuable "air-time" with signaling overheads. The latter allows a CTA to be shared by multiple devices that take turns owning unused "air-time" from CTAs. We have simulated VBR-MCTA and its optimizations in the ns-2 simulator over an implementation of the IEEE 802.15.3 MAC. Our results show that VBR-TokenBus has the best delay and jitter as it provides a one to six milliseconds reduction in both compared to standard CTA methods. VSR-Blind, although having performing poorer than MCTA-Token or VBR-MCTA, is still significantly better than traditional CTA methods at a reduced overhead.
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