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Přetížení mobilních sítí, iPhone efekt, a co by nás tak ještě mohlo potkat. For internal use only 1 © Nokia Siemens Networks / Co je za tím I. ? • Většina operátorů mobilních sítí nedávno začala s masivním prodejem „Smartphones“ Google, iPhone, Nokia 97 ... • Aplikace, které umožňují uživatelům online připojení jsou velmi oblíbené email, instant messaging, presence ... • Smartphone aplikace zatěžují signalizační kanály (tzv. Control Plane) daleko více než standardní služby typu CS, PS a HSPA. • Zatížení signalizačních kanálů vyžaduje, aby operátoři mobilních sítí a jejich dodavatelé WCDMA RAN technologií přijali určitá opatření. For internal use only 2 © Nokia Siemens Networks / Co je za tím II. ? Výrobci mobilních telefonů : „Musíme snížit spotřebu, jinak budou naši zakázníci nabíjet mobil i vícekrát denně: Fast Dormancy“ Vývojáři aplikací : „Naši klienti chtějí být online. Musíme jim to umožnit: Keep alive messages“ Uživatel Operátoři mobilních sítí a jejich dodavatelé technologií : „Vše pro spokojenost klientů ! Jak ale optimalizovat síť, když do ní stále někdo vrtá“ For internal use only 3 © Nokia Siemens Networks / Some networks are suffering from Smartphones For internal use only 4 © Nokia Siemens Networks / Trocha teorie. For internal use only 5 © Nokia Siemens Networks / Radio Resource Control States RRC Connection Establishment Idle Mode Cell DCH Cell PCH Cell PCH RRC Connection Release Dedicated Mode URA PCH RRC Connection Release Cell FACH URA PCH Cell FACH For internal use only 6 © Nokia Siemens Networks / Smart phone impact to HSPA networks 3GPP HSPA Radio Resource Control (RRC) States 3GPP standard UE power consumption Data volumes 1. RRC states in WCDMA RAN are designed to allow • low UE power consumption, • high network efficiency • low response times to services 2. Large amount of data is carried on Cell DCH state 3. Small amount of data is carried on Cell FACH 4. Cell/URA PCH state is used for UE power saving >0.5 kB Cell DCH >200 mA <0.5 kB Cell FACH >100 mA Cell/URA PCH <5 mA IDLE <5 mA RAB setup = RRC connected = IDLE For internal use only 7 © Nokia Siemens Networks / Smart phone impact to HSPA networks 3GPP HSPA RRC State Changes 3GPP standard compliant solution: 1. RRC state changes are controlled by network parameters 2. Terminal is moved from Cell DCH to Cell FACH and further to Cell PCH based on inactivity. The typical optimized parameters are 2-3 seconds (use of short timers) 3. Optimal parameter settings use short times and are designed for low mobile (smart) phone power consumption and long battery life NSN RNCs have these features included since many years (RAN1.5 onwards, 2003). For internal use only 8 © Nokia Siemens Networks / Cell DCH Data volume >0.5 kB Cell FACH Cell/URA PCH 2-3 s inactivity 2-3 s inactivity RAB setup Idle = RRC connected = IDLE Smart phone impact to HSPA networks 3GPP HSPA RRC State Changes 3GPP standard compliant solution: • Cell PCH feature required to optimally support smart phone behavior. Positive effects: 1. Less RNC control plane capacity needed – Cell PCH state feature provides a major increase in number of UEs with RRC connection – Cell PCH state feature keep UEs in RRC connection state, no RAB setup 2. Longer battery life for smart phone – Complex RAB setup can be avoided Cell DCH Cell FACH Cell/URA PCH 2-3 s inactivity 2-3 s inactivity RAB setup Idle from Idle state to Cell DCH state which consumes lots of control plane capacity NSN RNCs have had Cell PCH state supported for many years (RAN1.5 onwards, 2003). For internal use only 9 © Nokia Siemens Networks / = RRC connected = IDLE Cell/URA PCH Other network switching between the RRC* states Data rate High 1. 2. 3. 4. 5. 6. RRCconnReq RRCconnSetup L1sync NBAPsync UEonDCH RRCconnSetupCompl ete RRC:IDT RANAP:InitialUEmess age RANAP:CommonId RANAP:SMC RRC:SMC RRC:SMComplete RANAP:SMComplete RANAP:RABassignme ntReq GTPtunnelSetup RRC:RBsetup RRC:RBsetupComplet e RANAP:RABassignme ntResp RRC:MControl(HO) RRC:MControl(TVM) UEonDCH but without u-plane 7. 8. Low 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. Zero 19. 20. 21. DCH/HSPA Long inactivity timer 30 signaling messages CELL_FACH Idle Idle 2s Optimized state mgmt. by Nokia Siemens Networks Time Data rate High 1. 2. 3. 4. RRC:CellUpdate RRC:CUConfirm(CRNTI) RRC:UMIConfirm UEonFACH with uplane 4 signaling messages Low CELL_FACH 150 ms *) RRC: Radio Resource Control For internal use only 10 © Nokia Siemens Networks / inactive PCH PCH Zero Long inactivity timer Time Cell/URA PCH Device power consumption Other network switching between the RRC* states >200 mA 1. 2. 3. 4. 5. 6. 7. 8. >100 mA 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. <5 mA 19. 20. 21. RRCconnReq RRCconnSetup L1sync NBAPsync UEonDCH RRCconnSetupCompl ete RRC:IDT RANAP:InitialUEmess age RANAP:CommonId RANAP:SMC RRC:SMC RRC:SMComplete RANAP:SMComplete RANAP:RABassignme ntReq GTPtunnelSetup RRC:RBsetup RRC:RBsetupComplet e RANAP:RABassignme ntResp RRC:MControl(HO) RRC:MControl(TVM) UEonDCH but without u-plane DCH/HSPA Long inactivity timer 30 signaling messages CELL_FACH Idle Idle 2s Time Device power consumption Optimized Data rate state mgmt. by Nokia Siemens Networks >200 mA 1. 2. 3. 4. 4 signaling messages CELL_FACH 150 ms *) RRC: Radio Resource Control / inactive PCH PCH <5 mA For internal use only 11 © Nokia Siemens Networks Low device power consumption with Nokia Siemens Networks RRC:CellUpdate RRC:CUConfirm(CRNTI) RRC:UMIConfirm UEonFACH with uplane >100 mA Long inactivity timer Time Keep alive messages aneb vývojáři aplikací zasahují For internal use only 12 © Nokia Siemens Networks / Always on applications create control plane load • Many applications require always on connectivity for a good service experience. • In order to maintain always on connectivity applications send keep-alive messages frequently. • Keep alive message consumes control plane resources. • Due to explosion of keep alive messages sent control plane load has sky rocketed in many WCDMA networks Keep alive messages make RNC change UE states frequently Cell DCH state Cell PCH / IDLE Keep alive messages For internal use only 13 © Nokia Siemens Networks / Fast Dormancy aneb výrobci mobilních telefonů zasahují For internal use only 14 © Nokia Siemens Networks / Pohled účastníka mobilní sítě: moje priority "future of mobility" survey Klíčové potřeby účastníka 0% 20% 40% 60% 80% 100% Zlepšená životnost baterie Fixní cena za přístup k internetu Nižší cena za mezinárodní roaming Voice over IP (VoIP) Zlepšený procesní výkon zařízení Zlepšené pokrytí v méně obydlených oblastech Aktivní “multiple SIM“ karta ve stejném zařízení http://www.theregister.co.uk/2007/11/19/mobile_experience/ For internal use only 15 © Nokia Siemens Networks / Sudden changes in behaviour can happen In Smart phone dominated network changes can happen overnight, caused by new firmware or killer application For example iPhone user-friendly firmware upgrade makes upgrades unheard fast: in one network 50% of phones were upgraded within 1 week after the new firmware came available – boosting the impact of new firmware For internal use only 16 © Nokia Siemens Networks / Smart phone impact to HSPA networks What Went Wrong? – Why Fast Dormancy was introduced Why is Cell PCH state needed in RNC? 1. When Cell PCH is not supported, operators are forced to use long timers to avoid frequent RAB setups – That leads to high UE power consumption with always-on applications 2. When UE power consumption was high, some UE vendors implemented so called “Fast Dormancy” functionality which releases RRC/RAB connection when data transmission is over. DCH/ HSPA Long timer FACH Long timer PCH RRC idle 3. Frequent RAB release/setups causes problems for network (RNC) capacity. Only NSN implemented Cell PCH state in their RNC (2003). Many operations are using Cell PCH power saving state For internal use only 17 © Nokia Siemens Networks / A co dál ? For internal use only 18 © Nokia Siemens Networks / 3GPP Solution • 3GPP Release 8 (TS 25.331) specified, network controlled Fast Dormancy functionality clarifying the UE behavior and providing the network with information of what the UE actually wants to do, but leaving the network in charge of the UE RRC state. • That is, the UE is not allowed to release RRC connection and move to idle state on its own without network control. • When RNC receives SCRI from UE with a special newly introduced cause value indicating the packet data session end, the RNC can command the UE to PCH state instead of releasing RRC connection and dropping the UE to idle state. • Not yet implemented in networks, nor UEs For internal use only 19 © Nokia Siemens Networks / A co třeba úplně nová síť LTE ? TX Velmi rychlý “Link Adaptation“ (modulace dle kvality kanálu) MIMO Tx Channel Rx 64QAM Modulace variabilita v šířce pásma Krátký TTI = 1 ms Transmission time interval HARQ: Hybrid Automatic Repeat Request DL: OFDMA 1 2 NACK ACK UL: SC-FDMA 1 Combined 2 decoding Rx Buffer For internal use only 20 © Nokia Siemens Networks / RX Advanced Scheduling Time & Freq. (Frequency Selective Scheduling) Děkuji For internal use only 21 © Nokia Siemens Networks /
