C08 wireless atm[1]

Mobile Communications
Chapter 8: Wireless ATM
 ATM  Enhanced functionality
 Basic principle  Architecture
 B-ISDN  Radio Access Layer
 Protocols  BRAN

 Adaptation layer  Handover
 Addressing
 Wireless ATM
 QoS
 Reference model

8.0.1
Mobile Communications: Wireless ATM

Why wireless ATM?

 seamless connection to wired ATM, a integrated services high-
performance network supporting different types a traffic streams
 ATM networks scale well: private and corporate LANs, WAN
 B-ISDN uses ATM as backbone infrastructure and integrates
several different services in one universal system
 mobile phones and mobile communications have an ever
increasing importance in everyday life
 current wireless LANs do not offer adequate support for
multimedia data streams
 merging mobile communication and ATM leads to wireless ATM
from a telecommunication provider point of view
 goal: seamless integration of mobility into B-ISDN

Problem: high complexity of the system

8.1.1

ATM - basic principle

 favored by the telecommunication industry for advanced high-
performance networks, e.g., B-ISDN, as transport mechanism
 statistical (asynchronous, on demand) TDM (ATDM, STDM)
 cell header determines the connection the user data belongs to
 mixing of different cell-rates is possible
different bit-rates, constant or variable, feasible
 interesting for data sources with varying bit-rate:
 e.g., guaranteed minimum bit-rate
 additionally bursty traffic if allowed by the network

ATM cell: 5 48 [byte]

cell header user data

connection identifier, checksum etc.

8.2.1

Cell-based transmission

 asynchronous, cell-based transmission as basis for ATM
 continuous cell-stream
 additional cells necessary for operation and maintenance of the
network (OAM cells; Operation and Maintenance)
 OAM cells can be inserted after fixed intervals to create a logical
frame structure
 if a station has no data to send it automatically inserts idle cells that
can be discarded at every intermediate system without further
notice
 if no synchronous frame is available for the transport of cells (e.g.,
SDH or Sonet) cell boundaries have to be detected separately
(e.g., via the checksum in the cell header)

8.3.1

B-ISDN protocol reference model

3 dimensional reference model
 three vertical planes (columns)
 user plane
 control plane
 management plane
management plane
 three hierarchical layers

plane management
 physical layer control user

layer management
 ATM layer plane plane
 ATM adaptation layer higher higher
Out-of-Band-Signaling: user data is layers layers
transmitted separately from control ATM adaptation layer
information
ATM layer

physical layer
layers
planes

8.4.1

ATM layers

Physical layer, consisting of two sub-layers
 physical medium dependent sub-layer
 coding
 bit timing
 transmission
 transmission convergence sub-layer
 HEC (Header Error Correction) sequence generation and verification
 transmission frame adaptation, generation, and recovery
 cell delineation, cell rate decoupling

ATM layer
 cell multiplexing/demultiplexing
 VPI/VCI translation
 cell header generation and verification
 GFC (Generic Flow Control)

ATM adaptation layer (AAL)

8.5.1

ATM adaptation layer (AAL)
Provides different service classes on top of ATM based on:
 bit rate:
 constant bit rate: e.g. traditional telephone line
 variable bit rate: e.g. data communication, compressed video
 time constraints between sender and receiver:
 with time constraints: e.g. real-time applications, interactive voice and video
 without time constraints: e.g. mail, file transfer
 mode of connection:
 connection oriented or connectionless

AAL consists of two sub-layers:
 Convergence Sublayer (CS): service dependent adaptation
 Common Part Convergence Sublayer (CPCS)
 Service Specific Convergence Sublayer (SSCS)
 Segmentation and Reassembly Sublayer (SAR)
 sub-layers can be empty

8.6.1

ATM and AAL connections

end-system A end-system B

service dependent
AAL AAL connections
AAL

service independent
ATM ATM
ATM connections
physical physical
layer layer

ATM network
 ATM layer:
application
 service independent transport of ATM cells
 multiplex and demultiplex functionality
 AAL layer: support of different services

8.7.1

ATM Forum Wireless ATM Working Group
 ATM Forum founded the Wireless ATM Working Group June 1996
 Task: development of specifications to enable the use of ATM
technology also for wireless networks with a large coverage of
current network scenarios (private and public, local and global)
 compatibility to existing ATM Forum standards important
 it should be possible to easily upgrade existing ATM networks with
mobility functions and radio access
 two sub-groups of work items

Radio Access Layer (RAL) Protocols Mobile ATM Protocol Extensions
 radio access layer  handover signaling
 wireless media access control  location management
 wireless data link control  mobile routing
 radio resource control  traffic and QoS Control
 handover issues  network management

8.8.1

WATM services

Office environment
 multimedia conferencing, online multimedia database access
Universities, schools, training centers
 distance learning, teaching
Industry
 database connection, surveillance, real-time factory management
Hospitals
 reliable, high-bandwidth network, medical images, remote monitoring
Home
 high-bandwidth interconnect of devices (TV, CD, PC, ...)
Networked vehicles
 trucks, aircraft etc. interconnect, platooning, intelligent roads

8.9.1

WATM components
WMT (Wireless Mobile ATM Terminal)
RT (Radio Transceiver)
AP (Access Point)
EMAS-E (End-user Mobility-supporting ATM Switch - Edge)
EMAS-N (End-user Mobility-supporting ATM Switch - Network)
APCP (Access Point Control Protocol)
UNI+M (User-to-Network Interface with Mobility support)
NNI+M (Network-to-Network Interface with Mobility support)

8.10.1

Reference model

EMAS-N
WMT RT

AP
RT EMAS-E
APCP NNI+M
WMT UNI+M
EMAS-N
RT
AP

8.11.1

User plane protocol layers

radio segment fixed network segment

WATM WATM fixed
MATM ATM
terminal access EMAS-E EMAS-N end
terminal switch
adapter point system

user user
process process
AAL AAL

ATM ATM ATM ATM ATM ATM ATM

PHY PHY RAL RAL PHY PHY PHY PHY PHY PHY PHY PHY

MATM WATM WATM ATM
EMAS-E EMAS-N ATM switch
terminal adapter access point terminal

8.12.1

Control plane protocol layers

radio segment fixed network segment

WATM WATM fixed
MATM ATM
terminal access EMAS-E EMAS-N end
terminal switch
adapter point system

SIG, APCP
SIG, SIG, SIG,
SIG, APCP UNI+M
NNI+M NNI, UNI UNI
UNI+M NNI+M

SAAL SAAL SAAL SAAL SAAL SAAL
L RT C W
L RT C W

-

ATM ATM ATM ATM ATM ATM ATM
-

PHY PHY RAL RAL PHY PHY PHY PHY PHY PHY PHY PHY

MATM WATM WATM ATM
EMAS-E EMAS-N ATM switch
terminal adapter access point terminal

8.13.1

Enhanced functionality I
Additional protocols needed for the support of mobility
 Mobile Connection Management Protocol
 supports a user for connection setup, specifies, reserves, and controls
QoS for a connection
 controls the assignment of VCIs to connections on the wireless and
wired segment
 supports setup of new or partially new paths during handover
 Mobile Handover Management Protocol
 support of user mobility
– find a new base station
– redirect the data stream during handover
– return unused VCIs after a handover
– provide buffers and functions to sort packets out of sequence
(ATM guarantees in-sequence delivery of cells!)
 standard functions of user and control plane still needed

8.14.1

Enhanced functionality II
 Mobile Location Management Protocol
 terminals can change their access points, therefore, several location
functions are needed
– where is a mobile user, what is the current access point, what is the current
sub-network of a mobile terminal etc.
 Mobile Routing Protocol
 access points change over time
– dynamic topologies influence routing protocols, not supported by traditional
routing protocols
– routing has to support wireless and fixed part of the network
 example: connection setup between two mobile hosts
– with the help of the addresses and location registries the current access
points can be located
– routing within fixed network without changes

8.15.1

Enhanced functionality III

 Mobile Media Access Control Protocol
 a single base station serves as access point for many mobile terminals
within radio range
– coordination of channel access
– coordination of QoS requirements
– traditional access schemes do not support different traffic classes with a
larger variety of QoS requirements
 Mobile Data-Link Control Protocol
 transmission and acknowledgement of frames
 frame synchronization and retransmission
 flow control

Also fixed networks need many of these functions, however,
wireless networks require many adaptations and different
mechanisms due to higher error rates and frequent
interruptions.

8.16.1

Functional model for the modular access scheme

MTSA CCF NSA

IMFT CCFT MMF SCF
UIM MMFT APCF
APCF

ACFT ACF

ATMCT RRCT RRC ATMC ATMC

RTRT RTR
WMT AP EMAS-E

8.17.1

Wireless mobile terminal side
Mobility Management Function (MMFT)
 analysis and monitoring of the network, paging response, location update
Call control and Connection control Function (CCFT)
 call set-up and release, access control, connection control
Identity Management Function (IMFT)
 security related information, user dependent
Mobile Terminal Security Agent (MTSA)
 additional security information, user independent
Radio Transmission and Reception (RTRT)
 LLC, MAC, PHY layers for radio transmission
Radio Resource Control function (RRCT)
 trigger handovers, monitor radio access, control radio resources
Association Control Function (ACFT)
 set-up and release access to access point
ATM Connection function (ATMCT)
 responsible for ATM connections, standard services (CBR, VBR, ABR,
UBR)
8.18.1

Mobility supporting network side
Access Point Control Function (APCF)
 paging, handover, AP management
Call control and Connection control Function (CCF)
 call set-up and release, connection control, requests network and radio resources
Network Security Agent (NSA)
 identity management, authentication, encryption, confidentiality control
Service Control Function (SCF)
 management of service profiles, consistency checks
Mobility Management Function (MMF)
 location management, handover, location data, subscriber identity
Association Control Function (ACF)
 set-up and release access to mobile terminal
Radio Resource Control function (RRC)
 management of radio channels, initiate handover
Radio Transmission and Reception function (RTR)
 LLC, MAC, PHY layers, support of ATM traffic parameters
ATM Connection function (ATMC)
 responsible for ATM connections, standard services (CBR, VBR, ABR, UBR)

8.19.1

Radio Access Layer (RAL) requirements: PHY layer

 Definition of cell characteristics
 frequencies, efficient re-use of frequencies, antennas, power, range
 Carrier frequency, symbol rate, modulation, coding, training
sequences etc.
 Data and control interfaces to the radio unit

 Requirements
 Bit Error Rate (BER) <= 10-4, availability 99.5 %
 data rate: 25 Mbit/s
 range: indoor 30-50 m, outdoor 200-300 m
 power: 100 mW

8.20.1

Radio Access Layer (RAL) requirements: MAC layer

 Supports
 simultaneous access of several mobile terminals to the medium
 several ATM service classes (CBR, VBR, ABR, UBR) including
QoS control
 MAC protocol and syntax definition, MAC control algorithms
 Interfaces to PHY and LLC layer
 Support of user mobility

 Requirements
 MAC efficiency: 60-75 % (over 90% is possible)
 data rates
 peak 25 Mbit/s
 sustained 6 Mbit/s
 still efficient for low rates (e.g., 32 kbit/s CBR)

8.21.1

Radio Access Layer (RAL) requirements: LLC layer

 Layer between ATM and MAC/PHY layers to solve specific
problems of the wireless transmission
 Definition of LLC protocol and syntax
 wireless header, control messages
 Special functions for ATM service classes
 error control
 error detection and correction
 selective retransmission
 forward error correction

 Requirements
 mandatory: ARQ (Automatic Repeat Request)
 optional: FEC for real-time services
 optional: meta-signaling to support handover

8.22.1

ETSI Broadband Radio Access Network (BRAN)

Motivation
 deregulation, privatization, new companies, new services
 How to reach the customer?
 alternatives: xDSL, cable, satellite, radio
Radio access
 flexible (supports traffic mix, multiplexing for higher efficiency, can be
asymmetrical)
 quick installation
 economic (incremental growth possible)

Market
 private customers (Internet access, tele-xy...)
 small and medium sized business (Internet, MM conferencing, VPN)

Scope of standardization
 access networks, indoor/campus mobility, 25-155 Mbit/s, 50 m-5 km
 coordination with ATM Forum, IETF, ETSI, IEEE, ....

8.23.1

Broadband network types

Common characteristics
 ATM QoS (CBR, VBR, UBR, ABR)
HIPERLAN 2
 short range (< 200 m), indoor/campus, 25 Mbit/s
 extension of HIPERLAN 1, access to telecommunication systems,
multimedia applications, mobility (<10 m/s)
HIPERACCESS
 wider range (< 5 km), outdoor, 25 Mbit/s
 fixed radio links to customers (“last mile”), alternative to xDSL or
cable modem, quick installation
HIPERLINK
 intermediate link, 155 Mbit/s
 connection of HIPERLAN access points or connection between
HIPERACCESS nodes

8.24.1

BRAN and legacy networks

Independence
 BRAN as access network independent from the fixed network
 interworking of TCP/IP and ATM under study

Layered model
 Network Convergence Sub-layer as superset of all requirements for
IP and ATM
Coordination
core network core network  IETF (TCP/IP)
ATM IP
 ATM forum (ATM)
network convergence sublayer  ETSI (UMTS)
 CEPT, ITU-R, ...
BRAN data link control (radio frequencies)

BRAN PHY-1 BRAN PHY-2 ...

8.25.1

ETSI Broadband Radio Access Network (BRAN)

 wireless access with bit rates ≥ 25 Mbit/s
 connection to private and public networks
 scope of specifications
 physical layer
 data link control layer
 interworking, especially to fixed ATM networks and TCP/IP protocols
 coordination with ATM Forum, IEEE 802.11, IETF, ITU-R, ...
 reference points
H2.1.2

mobility
user H2.0 H2.1.1 H2.1.1.1 H2.2 enhanced H2.3
wireless switch
AP AP external
terminal
transceiver controller network
adapter

mobile node wireless access point
wireless sub-system

8.26.1

Handover

Procedure to hand over connection(s) from a mobile ATM terminal
from one access point to another access point
Support of an handover domain
 several access points cover a certain area
 common handover protocol and strategy
 all access points and switches belong to one administrative domain

Requirements
 multiple connection handover
 point-to-point and point-to-multipoint
 QoS support
 data integrity and security
 signaling and routing support
 high performance and low complexity

8.27.1

Simple handover reference model

handover
segment

anchor
point
RT

WMT AP

RT fixed
segment
handover
domain
RT

AP

8.28.1

Types of handover
Hard handover
 only one connection to one access point possible
Terminal initiated
 WTM initiates HO based on, e.g., signal quality
Network initiated
 Network initiates HO based on, e.g., network load
Network initiated, terminal assisted
 WTM provides information about radio conditions
Network controlled
 HO decision always at network
Backward handover
 standard type, WMT initiates HO, everything is prepared for HO
before HO takes place
Forward handover
 WMT suddenly arrives at a new AP, connection loss possible

8.29.1

Handover scenarios

EMAS-N
Intra-EMAS-E/ RT1 COS
Intra-AP
EMAS-E1

RT2 AP1

WMT EMAS-E2
RT3
AP2
RT4
Intra-EMAS-E/
Inter-AP
RT5 AP3
RT6
Inter-EMAS-E/
Inter-AP

8.30.1

Backward handover with multiple possible APs

AP1 EMAS-E1 COS
AP2 EMAS-E2
WMT
AP3
BW_HO_REQUEST
APCP_EnquiryReq
APCP_EnquiryRes
APCP_EnquiryReq
APCP_EnquiryRes
HO_REQUEST_QUERY
APCP_EnquiryReq
APCP_EnquiryRes
HO_REQUEST_RESPONSE
Selection of RT
BW_HO_RESPONSE

8.31.1

BW handover - Intra-EMAS-E/Intra-AP

WMT AP EMAS-E

BW_HO_REQUEST
APCP_EnquiryReq
APCP_EnquiryRes
BW_HO_RESPONSE
APCP_DisassocReq
APCP_DisassocCnf
APCP_AssocReq
APCP_AssocCnf
CONN_ACTIVATE
CONN_ACTIVE

8.32.1

BW handover - Intra-EMAS-E/Inter-AP

AP1 EMAS-E
WMT AP2

BW_HO_REQUEST
APCP_EnquiryReq
APCP_EnquiryRes
BW_HO_RESPONSE
APCP_EnquiryReq
APCP_EnquiryRes
APCP_DisassocReq
APCP_DisassocCnf
APCP_AssocReq
APCP_AssocCnf
CONN_ACTIVATE
CONN_ACTIVE

8.33.1

BW handover - Inter-EMAS-E/Inter-AP
AP1 EMAS-E1 COS
WMT AP2 EMAS-E2
BW_HO_REQUEST HO_REQUEST_QUERY
APCP_EnquiryReq
APCP_EnquiryRes
BW_HO_RESPONSE HO_REQUEST_RESPONSE
HO_COMMAND
APCP_EnquiryReq
APCP_EnquiryRes SETUP

HO_COMPLETE CONNECT
HO_RELEASE
APCP_DisassocReq
APCP_DisassocCnf RELEASE
RELEASE_COMPLETE
APCP_AssocReq
CONN_ACTIVATE APCP_AssocCnf
CONN_ACTIVE

8.34.1

FW handover - Intra-EMAS-E/Intra-AP

WMT AP EMAS-E

APCP_DisassocReq
APCP_DisassocCnf
APCP_AssocReq
APCP_AssocCnf
FW_HO_REQUEST
APCP_EnquiryReq
APCP_EnquiryRes
FW_HO_RESPONSE

8.35.1

FW handover - Intra-EMAS-E/Inter-AP

AP1 EMAS-E
WMT AP2

APCP_DisassocReq
APCP_DisassocCnf
APCP_AssocReq
APCP_AssocCnf
FW_HO_REQUEST
APCP_EnquiryReq
APCP_EnquiryRes
FW_HO_RESPONSE

8.36.1

BW handover - Inter-EMAS-E/Inter-AP

AP1 EMAS-E1 COS
WMT AP2 EMAS-E2
APCP_DisassocReq
APCP_DisassocCnf APCP_AssocReq
APCP_AssocCnf
FW_HO_REQUEST
HO_NOTIFY
APCP_EnquiryReq
APCP_EnquiryRes
FW_HO_RESPONSE SETUP
CONNECT
CONN_ACTIVE
HO_COMPLETE
RELEASE
RELEASE_COMPLETE

8.37.1

Location management

Requirements
 transparent for users
 privacy of location and user information
 cell and network identification
 minimum of additional signaling required
 access control, accounting
 roaming
 scalability
 standardized method for registration (i.e, a new user joins the
network)
 mobile terminals get temporary, routable addresses
 common protocol for database/registry updates
 location management must cooperate with unchanged ATM
routing

8.38.1

Registration and location update

visited home home
WMT AP
EMAS-E EMAS home AUS
Broadcast_ID LS
Association
Register
Loc_Update_Home
Auth_Req
Auth_Req_Reply
Loc_Update_LS
Loc_Update_LS_Reply
Loc_Update_Home_Reply
Loc_Update_Reply

8.39.1

Incoming connection setup, WMT in foreign network
2

EMAS-E2
WMT RT1 LS
8
EMAS-E1 3
AP1 1

EMAS AP2
7
4 T
5 RT2
6 LS
network without
visited network home network mobility support

LS: Location Server

8.40.1

Addressing

 should support all formats of ATM end-system addresses
(AESA)
 uses a permanent, location independent address which has to
correspond with a routable address from the “home network”
 supports the assignment of temporary, routable addresses
during registration of the mobile terminal in a foreign domain

8.41.1

Mobile Quality of Service (M-QoS)
Main difference to, e.g., Mobile IP
M-QoS main reason for high complexity
M-QoS parts
 Wired QoS
 same as in wired ATM networks
 Wireless QoS
 delay and error rates higher, multiplexing and reservation important
 Handover QoS
 blocking, cell loss during handover, duration of handover
Hard handover QoS
 no QoS guarantee after handover
 disconnect if not enough resources in new cell

Soft handover QoS
 only statistical guarantees
 applications have to adapt

8.42.1

Access Point Control Protocol
Interface between a wireless aware segment and an unchanged
segment of the ATM network
 Switch protocol to control wireless access points
 reservation and release of resources
 preparation of access points for new connections
 handover support
 announcement of new mobile terminals

AP EMAS-E
WCAC RM RM: switch resource management
CC: call control
CAC: connection admission control
RRM APCM CC CAC MM MM: mobility management
RRM: radio resource management
WCAC: wireless CAC
APCM: AP connection management
radio
sub-system APCP: AP control protocol
APCP

8.43.1

Reference model with further access scenarios I
1: wireless ad-hoc ATM network
2: wireless mobile ATM terminals
3: mobile ATM terminals
4: mobile ATM switches
5: fixed ATM terminals
6: fixed wireless ATM terminals

WMT: wireless mobile terminal
WT: wireless terminal
MT: mobile terminal
T: terminal
AP: access point
EMAS: end-user mobility supporting ATM switch (-E: edge, -N: network)
NMAS: network mobility supporting ATM switch
MS: mobile ATM switch

8.44.1

Reference model with further access scenarios II

1 WMT

AP ACT WMT

2 EMAS EMAS
T 5
WMT AP -E -N

EMAS
-E 6
MT
3 AP WT

NMAS
MS
AP
AP
T
4

8.45.1

C08 wireless atm[1]

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C08 wireless atm[1]

Editor's Notes