2007-11-xx IEEE C802.16m-07/xxx Project IEEE 802.16 Broadband Wireless Access Working Group <http://ieee802.org/16> Title Proposal for System Reference Architecture of Supporting Femto Cell Operations in IEEE 802.16m Date Submitted 2007-11-xx Source(s) Ting-Chen (Tom) Song, Chi-Fang (Richard) Li, Fang-Ching tomtom@itri.org.tw (Frank) Ren, Chun-Yen Wang (Bibo),Tzu-Ming (Brain) Lin, richard929@itri.org.tw Ren-Jr Chen,, Chie-Ming Chou, ITRI frank_ren@itri.org.tw Wern-Ho Sheen, NCTU/ITRI ChunYen@itri.org.tw rjchen@itri.org.tw Re: IEEE 802.16m-07/040 - Responds to Call for Contributions on Project 802.16m System Description Document (SDD) Abstract This contribution proposes the System Reference Architecture for supporting Femto Cell Operations in Draft IEEE 802.16m System Description Document. Purpose Response to call for Reference Architecture regarding to Project 802.16m SDD Notice This document does not represent the agreed views of the IEEE 802.16 Working Group or any of its subgroups. It represents only the views of the participants listed in the “Source(s)” field above. It is offered as a basis for discussion. It is not binding on the contributor(s), who reserve(s) the right to add, amend or withdraw material contained herein. Release The contributor grants a free, irrevocable license to the IEEE to incorporate material contained in this contribution, and any modifications thereof, in the creation of an IEEE Standards publication; to copyright in the IEEE’s name any IEEE Standards publication even though it may include portions of this contribution; and at the IEEE’s sole discretion to permit others to reproduce in whole or in part the resulting IEEE Standards publication. The contributor also acknowledges and accepts that this contribution may be made public by IEEE 802.16. Patent Policy The contributor is familiar with the IEEE-SA Patent Policy and Procedures: <http://standards.ieee.org/guides/bylaws/sect6-7.html#6> and <http://standards.ieee.org/guides/opman/sect6.html#6.3>. Further information is located at <http://standards.ieee.org/board/pat/pat-material.html> <http://standards.ieee.org/board/pat>. 1 1 and 2007-11-xx 1 2 3 4 5 6 7 8 IEEE C802.16m-07/xxx Proposal for System Reference Architecture for Supporting Femto Cell Operations in IEEE 802.16m Ting-Chen (Tom) Song, Chi-Fang (Richard) Li, Fang-Ching (Frank) Ren, Chun-Yen Wang, Tzu-Ming (Brain) Lin, Ren-Jr Chen, Chie-Ming Chou, ITRI Wern-Ho Sheen, NCTU/ITRI 1. Summary 9 10 Since most voice and high-bandwidth data-usage services occur indoors, the deployment of Fixed-Mobile Convergence (FMC) solution [1] in IEEE 802.16m will expand the licensed spectrum of operators with 11 12 13 14 15 16 wireless broadband link in-house. FMC can further improve Quality of Service (QoS) and the reliability indoors, expand macro networks and coverage, and increase ARPU. Despite the number of challenges, which were addressed in the 3GPP2 Femto Cell Workshop, need to be solved and overcome with, all in all, the deployment of the FMC solution within IEEE 802.16m architecture will provide a complete solution of meeting the IMT-Advanced performance requirements by enhancing the data rate indoors and support data rates up to approximately 1Gbit/s for stationary or low mobility and 100 Mbit/s for high-mobility [2]. 17 18 19 20 The aim of this contribution is to propose Femto Cell reference architecture for the IEEE 802.16m SDD in order to facilitate and meet the Femto Cell operations; firstly, to adopt the text proposed that addresses the radio interference issues of deploying Femto Cell and proposed its layout as a basic TOC of the SDD; including the Femto Cells architecture, mobility management issue, access control and measurement issues. 21 22 Secondly, to adopt the proposed reference network architecture that supports IEEE 802.16m Femto cell operations. Access Service Network Gateway(ASN-GW) Internet Base Station(BS) Wireless access link Wired link Connectivity Service Network(CSN) Connectivity Service Network(CSN) ASN R3 MCID 1 BS ASN-GW MCID 1 R4 BS 2 MCID 23 24 ASN-GW BS Figure 1: Legacy 802.16 reference network model 2 1 2007-11-xx Reference Network Architecture IEEE C802.16m-07/xxx 2 3 4 5 6 7 8 A general view of 16m reference network architecture to support Femto Cells operations will describe below. Figure 1 illustrates the legacy network architecture of IEEE802.16 standard [2]. It comprises of three major functional aggregations: Mobile Station (MS), Access Service Network (ASN) and Connectivity Service Network (CSN). The ASN is a collection of functions described as Base Station and ASN Gateway (ASN-GW), which can be rendered in one or more ASN configurations. The CSN comprises network elements such as, user databases, AAA proxy/servers and MIP HA. 9 10 11 R3 interface consists of a set of control plane protocols between the ASN and CSN to support AAA policy enforcement and mobility management capabilities. This also encompasses the bearer plane methods to transfer data between ASN and CSN.R4 interface consists of set of Control and Bearer plane protocols that 12 13 co-ordinate UE mobility between ASNs. R4 encompasses the following functionality relating to mobility management: 14 15 Handover Control and Anchoring: These functions control overall handover decision making and signaling procedures related to handovers. 16 17 Context Transfer: These functions help with the transfer of any state information between network elements. 18 19 Bearer Path setup: These functions manage the data path setup and include procedures for data packet transmission between functional entities. Access Service Network Gateway(ASN-GW) Indoor : Femto Cell Subscriber’s Broadband Circuit Base Station(BS) Wireless access link Femto Cell AP Wired link Connectivity Service Same Handset Network(CSN) available both indoor and outdoor Femto Cell BS Femto Network Gateway (FNG) R5 Internet or IP Based Network Femto Network Gateway (FNG) Connectivity Service Network(CSN) ASN MCID 1 R3 BS ASN-GW MCID 1 R4 BS 2 MCID ASN-GW BS 20 21 Figure 2: Enhanced reference network Architecture for IEEE 802.16m Femto cell operations. 3 2007-11-xx IEEE C802.16m-07/xxx 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 2. Proposal 1: Reference Network Architecture for the IEEE 802.16m Femto cell operations The concept of Femto cell is illustrated in Figure 2: A plug-and-play low power Femto Cells Base Station (BS) transceiver is installed indoors (home or office), and connected to the internet via cable, DSL, or a similar IP backhaul technology. This connection is used to integrate the Femto cell with the WAN wireless operator’s core network via an apparatus called Femto Network Gateway (FNG). For supporting Femto Cell operations, the Femto Network Gateway (FNG) system shall: - ensure the security connection between the operator’s core network and Femto cells, aggregate signaling from multiple Femto cells to reduce number of interfaces to macro network, minimize Femto cell design by perform as a Foreign agent to the Femto cells, e.g. Access control and measurement, Mobility management and Hand over procedures. IEEE 802.16m network components consist of base stations (BSs), Access Service Network Gateway (ASN-GW), Femto Network Gateway (FNG), Femto Cell BS and mobile stations (MSs). BSs constitute the radio interface between radio access and fixed network systems, and are under the control of ASN gateway through R4 interfaces. Femto cells AP transceiver constitute the radio interface between radio access and IP based system, and are under the control of FN Gateway through IP based interfaces. In general, FNGs and 22 23 24 25 BSs are responsible for cell selection, radio resource management, mobility management, access and measurement control…etc. 26 3. Proposal 2: The SDD Table of Content (TOC) relating to Femto Cell Operations --------------------------------------------------------------------------------------------------------------------------------- 27 28 X.1 Femto Cell Architecture and Operations 29 X.2 Mobility Management in Femto Cells_IDLE 30 X.3 Mobility Management in Femto Cells_ACTIVE 31 X.3.1 Hand over (HO) decision and initiation 32 X.3.2. Forward Link (Macro to Femto) 33 X.3.3. Reverse Link (Femto to Macro) 34 X.4 Access Control and Measurements 35 X.4.1. Neighbor Femto measurement 36 X.4.2. Neighbor Macro measurement 4 2007-11-xx IEEE C802.16m-07/xxx 1 2 3 Conclusion 3 4 5 6 7 In this contribution, a Femto Cell reference architecture is proposed for IEEE 802/16m in order to facilitate and meet the Femto Cell requirements. Radio Interference issues of deploying Femto Cell are discussed and formed as a basic layout of the SDD Table of Content. It is proposed to capture the reference operation and architecture into the IEEE 802.16m system description document (SDD). 8 9 10 ---------------------------------------------------------------------------------------------------------------------------------- 11 12 13 14 15 16 [1] [2] [3] [4] References 3GPP2 Femto Cell Workshop, www.3gpp2.org/FEMTO IEEE802.16m-07/002r3 “Draft IEEE 802.16m Requirements” P802.16Rev2/D0d “Part 16: Air Interface for Broadcast Wireless Access Systems” P802.21D06 “Draft Standard for Local and Metropolitan Area Networks: Media Independent Handover Services” 17 5 2007-11-xx IEEE C802.16m-07/xxx 1 Proposed Text 2 -----------------------------Begin Proposed Text ---------------------------------------------------------------------- 3 The following text is proposed to be adopted as TOC for Femto Cell Operations in 802.16m SDD. 4 X 5 6 7 8 Femto Cells Function Architecture X.1 Femto Cells Architecture and Operations This section describes legacy network model and 802.16m’s Femto Cell Operations reference architecture. A new entity Femto Network Gateway (FNG) and a new interface (R5) are introduced in order to support and meet Femto cell operations. Access Service Network Gateway(ASN-GW) Indoor : Femto Cell Subscriber’s Broadband Circuit Base Station(BS) Wireless access link Femto Cell AP Wired link Connectivity Service Same Handset Network(CSN) available both indoor and outdoor Femto Cell AP Femto Network Gateway (FNG) R5 Internet or IP Based Network Femto Network Gateway (FNG) Connectivity Service Network(CSN) ASN MCID 1 R3 BS ASN-GW MCID 1 R4 BS 2 MCID ASN-GW BS 9 10 11 12 13 14 15 16 Figure X: Enhanced reference network Architecture for IEEE 802.16m Femto cell operations. A plug-and-play low power Femto Cells Access Point (AP) transceiver is installed indoors (home or office), and connected to the internet via cable, DSL, or a similar IP backhaul technology. This connection is used to integrate the Femto cell with the WAN wireless operator’s core network via an apparatus called Femto Network Gateway (FNG). 6 1 2 3 4 5 6 7 2007-11-xx IEEE C802.16m-07/xxx For supporting Femto Cell operations, the Femto Network Gateway (FNG) system shall: 8 ensure the security connection between the operator’s core network and Femto cells, aggregate signaling from multiple Femto cells to reduce number of interfaces to macro network, minimize Femto cell design by perform as a Foreign agent to the Femto cells, e.g. Access control and measurement, Mobility management and Hand over procedures. provide MSs roaming facility between BSs and Femto cell BSs . X.2 Mobility Management in Femto Cells_IDLE 9 10 11 Femto Cell shall only allow specific MS and/or a family of MSs to access its network. A Femto Cell shall remain idle when no specific MSs is detected in order to save power and reduce interference. Any non-members entering Femto Cell zone will prohibited to access such Femto Cell BS. 12 13 14 15 In this case, MS identifier and Femto cell BS identifier shall be broadcast over the air. The MSs shall store the identifiers of the Femto Cell which is allowed to access for the MSs. X.3 Mobility Management in Femto Cells_ACTIVE 16 17 In order to support mobility from Macro BS to Femto cell BS and maintain service continuity, the following functionalities are necessary: 18 19 Network topology acquisition: BSs shall be able to provide information regarding to network topology and schedule appropriate scanning period for MSs to acquire Femto Cell BS condition. 20 Both BSs and MSs are able to trigger Forward and Backward Handover process. Handover procedure 21 22 shall consist of HO decision and initiation, PHY layer re-synchronization, network re-entry and connection re-setup. 23 24 25 26 X.3.1 27 28 Hand over (HO) decision and initiation MSs and Femto Cell BS shall initiate the scanning process. Femto cell BSs could schedule and allocate time intervals for MSs to scan Femto cell BS’s signal. According to the number of receivers in MSs, allocation of scanning interval can be categorized into single-receiver and multi-receiver MS scanning. The reporting scanning results can be either periodic or event-triggered. 29 Once handover is initiated, MSs will synchronize with Femto BSs and perform authorization and register to setup its connection. 30 X.3.2. Forward Link (Macro to Femto) 31 MS handover from Macro to Femto cells can be used in a number of situations. For instance: 32 33 If higher QoS needs to be preserved When an MS enter the Femto cell BS zone, Forward Link HO is necessary to maintain its connectivity. 34 7 2007-11-xx 1 IEEE C802.16m-07/xxx X.3.3. Reverse Link (Femto to Macro) 2 MS handover from Femto BSs to Macro BSs can be used in a number of situations. For instance: 3 4 5 When an MS leaves the Femto cell BS zone, Reverse Link HO is necessary to maintain its connectivity. X.4 Access Control and Measurements 6 X.4.1. Neighbor Femto measurement 7 X.4.2. Neighbor Macro measurement 8 9 ---------------------------End of Text Proposal --------------------------------------------------------------------- 10 8