Radio link control protocol for WCDMA based mobile satellite communication systems

Vehicular Technology Conference. IEEE 55th Vehicular Technology Conference. VTC Spring 2002 (Cat. No.02CH37367) Pub Date : 2002-08-07 DOI:10.1109/VTC.2002.1002942

Kisong Lee, Kyu-Tae Jin, D. Cho

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Abstract

In satellite communication systems, channel capacity is limited because of the limited number of satellites. In particular, uplink channel capacity is relatively low due to low-power handheld terminals, collision of many terminals, and fading by long propagation time. Also long propagation delay limits the number of data-retransmissions for real time traffic, and small capacity limits the number of data-retransmissions for non real time traffic. For these reasons, comparative studies are required in order to identify the most appropriate satellite-based RLC (radio link control) protocol for global mobile multimedia communication via LEO satellite networks. In this paper we consider two kinds of traffic, real time traffic and non real time traffic. For real time traffic, a class of adaptive error-control schemes using both the code rate of FEC and frame length based on the estimated channel state/condition are used as an RLC protocol with transparent mode or unacknowledged mode. Also, for non real time traffic, a hybrid ARQ type II/III protocol is used as an RLC protocol with acknowledged mode.

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基于WCDMA的移动卫星通信系统的无线链路控制协议

在卫星通信系统中，由于卫星数量有限，信道容量有限。特别是，由于手持终端功耗低、多终端碰撞、传播时间长导致衰落等原因，上行信道容量相对较低。此外，较长的传播延迟限制了实时流量的数据重传次数，而较小的容量限制了非实时流量的数据重传次数。由于这些原因，需要进行比较研究，以便确定通过低轨道卫星网络进行全球移动多媒体通信的最合适的基于卫星的RLC(无线电链路控制)协议。本文考虑两种流量，实时流量和非实时流量。对于实时通信，采用基于信道状态/条件估计的FEC码率和帧长度的自适应错误控制方案作为透明模式或不承认模式的RLC协议。此外，对于非实时流量，混合ARQ类型II/III协议被用作具有确认模式的RLC协议。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Vehicular Technology Conference. IEEE 55th Vehicular Technology Conference. VTC Spring 2002 (Cat. No.02CH37367)

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