3G LTE to enhance 3G networks from 2009.Amid growing interest in alternative technologies, such as DVB-H See mobile TV and DVB. and WIMAX, 3G is set to fight back with 3G LTE (Long Term Evolution) See 3GPP. , or 'Super 3G, which could dramatically enhance the capabilities of 3G networks from 2009, according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. a new report,' Prospects for the Evolution of 3G and 4G,' from Analys, the global advisers on telecomms. HSPA (High Speed Packet Access) A family of high-speed 3G digital data services provided by cellular carriers worldwide that use the GSM technology. HSPA service works with HSPA cellphones as well as laptops and portable devices with HSPA modems. (high-speed packet access High-Speed Packet Access (HSPA) is a collection of mobile telephony protocols that extend and improve the performance of existing UMTS protocols. Two standards HSDPA and HSUPA have been established and a further standard HSOPA is being proposed. ) and MBMS MBMS Multimedia Broadcast/Multicast Service MBMS Manhattan Beach Middle School MBMS Mt. Baker Middle School (Auburn, WA) (multimedia broadcast and multicast service) bring important capability enhancements to W-CDMA See WCDMA. . However, they do not match broadcasting technologies (such as DVB-H) or broadband wireless See wireless broadband. access (such as WIMAX) for delivering mobile TV, Internet access and other important services. 3G may need a major leap forward in capabilities to remain competitive. The relatively little-known 3G LTF--(Long-Term Evolution) standard, often termed 'Super 3G', may provide the necessary breakthrough, to support a range of new services from 2009. By adopting many of the same techniques as alternative wireless technologies, such as WIMAX, 3G LTF--is aiming to achieve a peak downlink data rate of 100Mbit/s, an increase in capacity of three to five times compared to HSPA (in the same bandwidth) and latency as low as 20ms. While its performance in a real network implementation remains to be seen, such capabilities have the potential to enable some significant new service opportunities. Fixed-mobile substitution, when customers cease using fixed voice services altogether, is a great opportunity for mobile-only operators. However, the need to be competitive with DSL DSL in full Digital Subscriber Line Broadband digital communications connection that operates over standard copper telephone wires. It requires a DSL modem, which splits transmissions into two frequency bands: the lower frequencies for voice (ordinary , in terms of performance and pricing, places great demands on wireless technology. HSPA does not achieve the capacity, latency or cost per Mbyte needed to compete head-on with fixed DSL services. But according to Mark Heath, '3G LTE could bring the step change needed for mobile operators to offer a realistic alternative to fixed services' Mobile TV and video are increasingly seen by mobile operators as 'must have' services. However, by the time the majority of users have migrated to 3G networks, HSPA will only be able to support a few minutes of unicast viewing per day. Moreover, within the confines of current 3G paired-frequency allocations, the MBMS broadcasting capability will only support a small number of channels compared to DVB-H. but '3G LTE could enable mobile operators to offer an attractive mix of broadcast and unicast content without needing DVB-H.' The advent of 3G LTE could also make cellular VoIP (voice over IP) commercially viable for the first time. VoIP could bring major benefits for mobile operators, including cost savings and the ability to integrate voice and multimedia services. "While there is insufficient rationale for using VoIP over HSPA, due to IP overbeads, there may be a compelling case with 3G LTE. 'The full benefits of 3G LTE will only be achieved if mobile operators are able to use it in 20MHz (MegaHertZ) One million cycles per second. It is used to measure the transmission speed of electronic devices, including channels, buses and the computer's internal clock. A one-megahertz clock (1 MHz) means some number of bits (16, 32, 64, etc. of bandwidth, which will require new spectrum allocations.' This means that mobile operators will need to secure additional spectrum, such as the GSM extension band, and ensure that other technologies or new entrants do not get access to this valuable spectrum. 'While 3G LTE is being designed to minimise the cost of upgrades for mobile -networks, there are still great uncertainties over the investments that operators will need to make, in terms of network infrastructure and spectrum. The 3G community will need to address these uncertainties quickly if it is to build momentum in 3G LTE. The report is available for purchase online at http://research.analysis.com/store |
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