Abstract
The introduction of High Speed Uplink Packet Access (HSUPA) greatly improves achievable uplink bitrate but it presents new challenges to be solved in the WCDMA radio access network. In the transport network, bandwidth reservation for HSUPA is not efficient and TCP cannot efficiently resolve congestion because of lower layer retransmissions. This paper proposes an HSUPA transport network flow control algorithm that handles congestion situations efficiently and supports Quality of Service differentiation. In the Radio Network Controller (RNC), transport network congestion is detected. Relying on the standardized control frame, the RNC notifies the Node B about transport network congestion. In case of transport network congestion, the Node B part of the HSUPA flow control instructs the air interface scheduler to reduce the bitrate of the flow to eliminate congestion. The performance analysis concentrates on transport network limited scenarios. It is shown that TCP cannot provide efficient congestion control. The proposed algorithm can achieve high end-user perceived throughput, while maintaining low delay, loss, and good fairness in the transport network.
Highlights
In response to the increased need for higher bitrate and more efficient transmission of packet data over cellular networks, the WCDMA 3GPP Release 5 extended the WCDMA specification with the High Speed Downlink Packet Access (HSDPA) [1]
The demand for uplink performance improvement is addressed by introducing Enhanced Dedicated Channel (E-DCH)—often referred as Enhanced Uplink (EUL) or High Speed Uplink Packet Access (HSUPA)— in 3GPP Release 6 [2]
The task of the flow control (FC) is to regulate the transfer of MAC-es Protocol Data Units (PDUs) on the Iub/Iur Transport Network (TN) toward SRNC, that is, to perform TN congestion control
Summary
In response to the increased need for higher bitrate and more efficient transmission of packet data over cellular networks, the WCDMA 3GPP Release 5 extended the WCDMA specification with the High Speed Downlink Packet Access (HSDPA) [1]. The possible congestion situation over a transport link cannot be solved by Transmission Control Protocol (TCP) efficiently because of lower layer retransmissions It has been identified in 3GPP that an HSUPA flow control can resolve these congestion situations if transport network congestion detection functionality is available. In [11,12,13], the authors addressed HSDPA flow control It is a common assumption in these papers that Iub transport network capacity is not limiting. In [4], an HSDPA flow control algorithm which solves the efficient usage of air interface and the congestion situation on transport network is proposed.
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