Around the turn of the millennium, 3GPP started development of High-Speed Packet Access (HSPA), with the first version of the specifications released in early 2002 and additional features released in the following years. HSPA is the popular name of WCDMA with enhanced downlink and uplink transmission schemes further optimized for packet data, plus features to further enhance the user experience, such as providing an “always on” perception.HSPA is based on shared-channel transmission with channel-dependent scheduling;fast link adaptation, hybrid ARQ with soft combining and a short Transmission Time Interval (TTI). These features are illustrated in Figure 11. Later releases of the HSPA specifications will provide support of multiple-input, multiple-output (MIMO) transmission schemes, higher-order modulation and multi-carrier use to further boost peak data rates up and above 100Mbps. Worth noting is that many of these basic principles were already part of the evolution of GSM to GPRS and EDGE in the mid to late 1990s.
Similar principles were also used when Cdma2000 was complemented by Evolution Data Only (EV-DO), also called IS-856. In WCDMA/HSPA, strong emphasis was put on the possibility of supporting voice and high-speed packet data on the same carrier to ensure a smooth introduction of high-speed services into existing WCDMA networks. In contrast, EV-DO uses a different frame structure than Cdma2000 and as a result separate carriers need to be used for support of voice services and highspeed packet data. The flexibility for Cdma2000 operators is restricted when introducing high-speed packet data. Since the carrier bandwidth is several times
smaller in Cdma2000/EV-DO than in WCDMA/HSPA, the peak rates achievable in EV-DO are several times lower than in HSPA.
References : http://www.ericsson.com/