Radio Networks & Access, Convergence, Spectrum and EMC Cross ICT Platform Issues

1. Werner Mohr, Siemens Networks, Munich, Germany Radio Networks & Access, Convergence, Spectrum and EMCCross ICT Platform Issues

2. A picture from the future Source: Siemens AG

3. Standards evolution Source: Siemens AG

4. 950 1500 1800 1900 2000 2100 2200 5100 5200 5300 5400 5500 5600 5700 2300 2400 2500 2600 2700 850 1400 1700 WRC 2003 only indoor 2010 2402 2480 Blue- tooth ITU Allocations for 3G/WLANs IMT 2000 IMT 2000 Additional band 2500 2690 1885 2170 5150 5350 5470 5725 Europe 2483.5 2520 2025 2110 Hiperlan GSM 900 Hiperlan DECT GSM 1800 MSS UMTS ... ... ... UMTS 2500 2670 MSS 880 925 1980 5470 5725 1880 5350 1710 1785 5150 2170 IMT-2000 Satellite component Depending on market development may be used in longer term by terrestrial component 915 960 1805 Japan High Speed Wireless Access 1918 PDC PDC IMT 2000 IMT 2000 PHS MSS MSS 940 810 5250 5150 1429 1477 1895 2160 826 956 1453 1501 USA U-NII U-NII PCS Reserved MSS MSS 824 869 5725 5825 5350 5150 894 849 Frequency ranges of second, third generation and beyond • WRC 2007 intends to discuss and identify frequency spectrum for systems beyond 3G Source: Siemens AG

5. 2700 – 2900 MHz 4400 – 5000 MHz 3400 – 4200 MHz 450 – 470 MHz 470 – 806/862 MHz 410 – 430 MHz 2300 – 2400 MHz 1 GHz 2 GHz 3 GHz 4 GHz 5 GHz f [GHz] Candidate bands under discussion in ITU-R WP8Ffor additional spectrum identification • In some part bands sharing would be needed – more flexible spectrum usage • Not many wideband consecutive bands possible • Trade-off between QoS, requirements and complexity • Laws of physics to be respected • Final system design depending on identified and available frequency bands Source: ITU-R WP8F

6. Operator A Joint frequency range Joint radio access system Operator B Operator N Potentially available spectrum for beyond 3G systems may require infrastructure sharing • Sharing between different systems for different applications under discussion • Depending on available spectrum from candidate bands potentially infrastructure sharing required to support • QoS with sufficiently wide carrier bandwidth • fair access to spectrum and • competition

7. Exploratory Work Technologies and Markets General Research Activities (e.g. universities) European R&D Projects (e.g. FP6, FP7 & Eureka) National R&D Projects Harmonisation-Standardisation ITU, 3GPP, IETF, IEEE OMA, WWRF Company Internal R&D Regulation (WRC, CEPT, NRAs) Products System Solutions Implementation and Deployment The value chain from research to global products Source: eMobility

8. Increasing investment in solutions • Increasing IPR portfolios Chance for consensus building Products and markets in competitive environment Chance for consensus building decreasing Pre-competitive early collaborative research Standardisation in early competitive environment Grade of concept maturity Increased maturity makes consensus building difficult Increasing IPRs portfolios make consensus building difficult IPRs International consensus building at an early stage Source: Siemens AG

9. Mobile and wireless networks and systems • Backbone and access system (wireless and wireline) towards packet-based transmission and service agnostic networks • Multitude of access systems available • Systems will become service agnostic • Content, service and access provision may be in different hands • Value constellation is blurring Spectrum usage may change from today‘s • Sensor, RFIDs and embedded systems for service provision in conjunction with other systems (e.g. health care) FMC • dedicated allocation to • Services will be designed to be supported independent of system technology • Improvement of existing and emerging systems as well as development of new systems • more spectrum sharing and infrastructure sharing scenarios Fixed networks New packet-based protocol to be developed for better support of mobile and wireless links in addition to fixed links Conclusions