PHYSICAL LAYER. 6.2 Transport Channels and their Mapping to the Physical Channels.
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Transcript of PHYSICAL LAYER. 6.2 Transport Channels and their Mapping to the Physical Channels.
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PHYSICAL LAYER
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6.2 Transport Channels and their Mapping to the Physical Channels
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6.2 TRANSPORT CHANNELS AND THEIR MAPPING TO THE PHYSICAL CHANNELS
In UTRA the data generated at higher layers
is carried over with transport channels
which are mapped in the physical layer to different physical channels
Physical layer support variable bit rate transport
channels to offer bandwidth-on-demand services
multiplex several services to one connection
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Transport channels may have a different number
of blocks at any moment not all the
transport channels are necessarily active
Each transport channel accompanied by Transport
Format Indicator (TFI) TFI
indicates the local UMTS air interface transport format to be used for the transmission time interval
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Physical layer combines TFI information
from different transport channels to Transport Format Combination Indicator (TFCI)
TFCI transmitted in physical
control channel to inform the receiver which transport channels are active for the current frame
decoded in the receiver and the resulting TFI is given to higher layers for each of the transport channels that can be active for the connection
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Figure 6.1 two transport channels are mapped to a single
physical channel error indication is provided for each transport
block
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Coded Composite Transport Channel (CCTrCh) a technology used in the UMTS physical layer the connection between Transport Channel and
Physical Channel which results a data stream from encoding and multiplexing of one or several transport channels
CCTrCh consists of one physical control channel one or more physical data channels
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Two types of transport channel dedicated channels common channels
Dedicated channel a resource, identified by a certain code on a
certain frequency, is reserved for a single user only
Common channel a resource, divided between all or a group of
users in a cell
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6.2.1 Dedicated Transport Channel6.2.2 Common Transport Channels6.2.3 Mapping of Transport Channels onto the
Physical Channels6.2.4 Frame Structure of Transport Channels
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6.2.1 DEDICATED TRANSPORT CHANNEL
The only dedicated transport channel :dedicated channel (DCH)
Dedicated transport channel carries all the information intended for the given
user coming from layers above the physical layer
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Dedicated transport channel carries both service data
such as speech frames higher layer control information
such as handover commands or measurement reports from the terminal
Dedicated transport channel is characterized by fast power control fast data rate change on a frame-by-frame basis the possibility of transmission to a certain part of
the cell or sector Dedicated channel supports soft handover
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6.2.2 COMMON TRANSPORT CHANNELS Six different common
transport channel types defined for UTRA in Release ’99 Broadcast Channel (BCH) Forward Access Channel
(FACH) Paging Channel (PCH) Random Access Channel
(RACH) Uplink Common Packet
Channel (CPCH) Downlink Shared Channel
(DSCH)
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Common channels do not have soft handover some of them can have fast power control
The new transport channel in Release 5 High-speed Downlink Shared Channel (HS-DSCH)
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6.2.2.1 Broadcast Channel6.2.2.2 Forward Access Channel6.2.2.3 Paging Channel6.2.2.4 Random Access Channel6.2.2.5 Uplink Common Packet Channel6.2.2.6 Downlink Shared Channel6.2.2.7 Required Transport Channels
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6.2.2.1 BROADCAST CHANNEL
Broadcast Channel (BCH) used to transmit information specific to the UTRA
network or for a given cell needed for transmission with relatively high
power to reach all the users within the intended coverage area
The information rate on the broadcast channel is limited by the ability of low-end terminals to decode the data resulting in a low and fixed data rate for the
UTRA broadcast channel
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6.2.2.2 FORWARD ACCESS CHANNEL
Forward Access Channel (FACH) a downlink transport channel that carries control
information to terminals known to be located in the given cell
this is used, for example, after a random access message has been received by the base station
It is possible to transmit packet data on FACH
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There can be more than one FACH in a cell one of the forward access channels must have
such a low bit rate that it can be received by all the terminals in the cell area
with more than one FACH, the additional channels can have a higher data rate
FACH does not use fast power control
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6.2.2.3 PAGING CHANNEL
Paging Channel (PCH) a downlink transport channel that carries data
relevant to the paging procedure i.e., when the network wants to initiate
communication with the terminal e.g., a speech call to the terminal
the network transmits paging message to the terminal on the paging channel of the cells
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The terminals must be able to receive the paging information in the whole cell area
Design of the paging channel affects the terminal’s power consumption in standby mode the less often the terminal has to tune the
receiver in to listen for a possible paging message, the longer the terminal’s battery will last in standby mode
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6.2.2.4 RANDOM ACCESS CHANNEL Random Access Channel (RACH)
an uplink transport channel to be used to carry control information from the terminal, such as requests to set up a connection
can also be used to send small amounts of packet data from terminal to network
The random access channel must be heard from the whole cell coverage area which means that practical data rates have to be
rather low
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6.2.2.5 UPLINK COMMON PACKET CHANNEL
Uplink common packet channel (CPCH) an extension to the RACH channel that is
intended to carry packet-based user data in the uplink direction
The reciprocal channel providing the data in the downlink direction is the FACH
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In physical layer, the main differences to RACH use of fast power control a physical layer-based collision detection
mechanism a CPCH status monitoring procedure
Uplink transmission CPCH data : last several frames RACH message : one or two frames
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6.2.2.6 DOWNLINK SHARED CHANNEL
Downlink shared channel (DSCH) used to carry dedicated user data and/or control
information can be shared by several users
It is similar to the forward access channel, but shared channel supports fast power control variable bit rate on a frame-by-frame basis
DSCH does not need to be heard in the whole cell area always associated with a downlink DCH
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6.2.2.7 REQUIRED TRANSPORT CHANNELS
Mandatory common transport channels RACH, FACH and PCH
Optional common transport channels DSCH and CPCH
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6.2.3 MAPPING OF TRANSPORT CHANNELS ONTO THE PHYSICAL CHANNELS
Different transport channels are mapped to different physical channels though some of the
transport channels are carried by identical (or even the same) physical channel
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In addition to the transport channels there exist physical channels to carry
only information relevant to physical layer procedures
Those channels that are not directly visible to higher layers and are mandatory from the system function point of view, to be transmitted from every base station Synchronization Channel (SCH) Common Pilot Channel (CPICH) Acquisition Indication Channel (AICH)
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Those channels are needed if CPCH is used CPCH Status Indication Channel (CSICH) Collision Detection/Channel Assignment
Indication Channel (CD/CA-ICH)
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Dedicated channel (DCH) is mapped onto two physical channels Dedicated Physical Data
Channel (DPDCH) carries higher layer
information, including user data
Dedicated Physical Control Channel (DPCCH) carries the necessary
physical layer control information
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these two dedicated physical channels are needed to support efficiently the variable bit rate in the physical layer
the bit rate of the DPCCH is constant, while the bit rate of DPDCH can change from frame to frame
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6.2.4 FRAME STRUCTURE OF TRANSPORT CHANNELS UTRA channels use a 10ms radio frame structure The frame structure also employs a longer period,
called the system frame period System Frame Number (SFN)
a 12-bit number and is used by procedures that span more than a single frame
Physical layer procedures, such as the paging procedure or random access procedure, are examples of procedures that need a longer period than 10ms