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8/10/2019 2.Interfaz de Radio GSM_en
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Interfaz de Radio GSM
Confidential Information of Huawei. No Spreading WithoutPermission
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In the Public Land Mobile communication Network (PLMN), the MS is connected with the
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network via the radio channel. In this way, the subscribers can access the network and
obtain communication services. To achieve the interworking between MS and BTS, a
set of standards are needed for signal transmission through the radio channel. This set
of specifications which are related to the radio channel signal transmission, aim at Uminterface.
The Um interface is a kind of radio interface. It is responsible for the communication
between the mobile station and the BTS and provides the interworking link between the
mobile station and GSM system. Its physical connection is achieved via the radio waves.
The Um interface is the most important interface among all the interfaces in GSM
system. First of all, the complete and normative Um interface realizes full compatibility
between MS of different venders and different networks. That is fundamental conditions
needed in global roaming of the GSM system; second, the radio interface determines the
rate of frequency spectrum utilization of GSM system. The name Um is derived fromthe name of the interface between the client terminal and the network in ISDN , in which
the m means mobile.
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The first layer is the physical layer, which is marked as L1 and is the lowest layer. This layer provides the
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radio link needed in transmission of bit stream. It defines the radio access capability of the GSM system and
provides the most fundamental radio channel (logical channel) for the information transmission of higher-
layer , including the traffic channel and control channel. For detailed description of logical channel, please
refer to relevant documents.
The second layer, marked as L2, is the data link layers and it is the middle layer. It applies the LAPDmprotocol. This layer includes various types of data transmission structures. It controls the data transmission
so as to ensure the reliable dedicated data links which are set up between the mobile station and base
station. The LAPDm protocol is based on the D channel link access protocol (LAPD) in ISDN. For LAPDm,
the radio transmission and control characteristics are suitable to the signal transmission at the Um interface.
The third layer is the network application layer, which is marked as L3 and is the top layer. It includes
various types of messages and programs for control and management of the services. That is to say, in this
layer, specific messages of the mobile station and the system control processes are packed into different
protocols and mapped to logical channels. L3 includes three sub-layers: the Radio Resources management
(RR), Mobility Management (MM) and Communication Management (CM). These are the major contents of
the messages transmitted via the Um interface. The CM sub-layer includes three major parts: CC (call
control service), SS (supplementary service) and SMS (short message service).
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The GSM Um interface applies the multiple access technology. With this technology,
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. ,
there are three modes of channelization for multiple access, the frequency, time and
code division multiple access connections respectively. They are frequency division
multiple access (FDMA), time division multiple access (TDMA) and code division
multiple access (CDMA)
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FDMA-frequency division multiple access:
The frequency division is also called channelization sometimes. In this mode, thewhole assignable frequency spectrum is divided into many single radio channels.
Under the control of the system, each subscriber can be served by any one of
these channels.
The analogue cell system, AMPS, is a typical example that uses the FDMA
technology. The digital cell system can also use the FDMA. The difference is that
it only uses the frequency division mode, but the GSM system uses the FDMA
also.
TDMA-time division multiple access:
The time division multiple access refers to dividing a broadband radio channelinto several timeslot, so that every subscriber seizes one of the timeslots; and the
signal is received (or transmitted) only in that specific timeslot. That is the reason
why it is called time division multiple access. This multiple access mode is used
in digital cell systems and GSM as well.
CDMA-Code division multiple access:
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It is a multiple access mode in which the spread spectrum technique is used to
form different code sequences. It is quite different from FDMA and TDMA. In
FDMA and TDMA, the subscriber information is divided or separated based on
the frequency and time, but CDMA mode can transmit information of multiplesubscribers via the same radio channel at the same time.
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The radio channel is quite different from the wired channel. First, the radio channel has a
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distinct time-change characteristic. The radio channel is exposed to the air, so it is
vulnerable to the interferences in the air. The signal is influenced by various
interferences, multi-path fading and shadow fading, so the error bit ratio is rather high.
To solve the problems mentioned above, a series of forward and backward(uplink &downlink) transmission techniques are applied. The original subscriber data or signaling
data are transformed before being carried by the radio waves. And at the other end of
the transmission, a reverse transforming will be done. This can provide necessary
protection to the transmitting signal. The transformation methods roughly include the
channel coding/decoding, interleaving/de-interleaving, burst formatting,
encryption/decryption, and modulation/demodulation. For the voice, to pass an analog-
to-digital converter is actually a sampling process in the rate of 8KHz,after quantification
each 125s contains 13bit of code stream; then speech coding is performed with every
20ms as a segment and the code transmission rate is reduced to 13Kbit/s, which
becomes 22.8Kbit/s after the channel coding; then the voice becomes a code stream at
33.8kbit/s after code interleaving, encryption and burst formatting and is transmitted
finally. The processing at the terminal is just the reverse of the above procedures.
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The voice compression coding technique is widely used in the modern digital
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communication systems. In this technique, a voice coder is used to set up a model to
simulate the voice and noise produced by human vocal organs. The parameters to form
the model will be transmitted through the TCH channels.
The voice coder is based on the residual excited linear prediction (REIP) coder.Moreover, the long term predictor (LTP) is used to enhance the compression effect. LTP
can make the coding of residual data more advantageous by removing the vowels from
the voice. With 20ms as the unit, the voice coder outputs 260bits after compressed
coding. Therefore, the code rate is 13kbps. According to the different classes of the
importance of the information, the output bits can be classified into three categories: 50
very important bits,132 important bits and 78 ordinary bits.
Comparing with the traditional PCM line on which the voice is coded directly and
transmitted (64kbps), the 13kbps voice rate of the GSM system is much lower. The more
advanced voice coder in the future can further reduce the rate to 6.5kbps (half-rate voicecoding).
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To check and correct errors during the transmission, redundancy data and the
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information calculated from the source data are added to the stream so as to increase
the bit rate. For the voice, the length of these codes is 456 bits every 20ms.
The bit rate of code stream output from the voice coder is 13Kbit/s, which is divided into
many 20ms continuous segments with each segment containing 260 bits. They can beclassified as:
50 very important bits;
132 important bits;
78 ordinary bits,
Redundancy processing is conducted, as shown in the above diagram.
The block coder is applied with 3 bits of redundancy code; while the excited coder
applies with 2 times redundancy and then adds 4 tail bits into the data stream. There are three channel coding modes in the GSM system: convolution coding, block
coding and parity coding. For detailed information, please refer to related documents.
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If the voice signal is modulated and transmitted directly after channel coding, due to the
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condition changes in mobile communication channel, a deep of the fading will influence
a successive string of bits and cause high bit error rate.
If the bits of a successive string are interfered or lost, the other end of the communication
can not decode the interfered or lost bits. To solve this problem, some technique ormethod to separate the successive bits are required. Thus the successive bits in a
message can be transmitted dispersedly so that the bit error should be discrete. In this
way, even if errors occur, the errors are only concerned with a single or very short bit
stream, which will not lead to that the whole burst or the whole message block cannot be
decoded. In this case, the channel coding will take effect and recover the bit errors. This
method is called interleaving technique. The interleaving method is the most effective
coding method for dispersion of bit errors.
The key point of interleaving is to disperse some bits( suppose there are b bits) of the
code into some ( suppose to be n bursts) burst sequences so as to change theadjacent relationship between bits. The higher the value of n is, the better the
transmitting works. However, the transmission delay is higher too. Therefore, a balanced
consideration is needed, the interleaving is related to the purpose of the channel. In the
GSM system, the second interleaving is applied.
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After channel coding, the extracted 456 bits are distributed into 8 groups with each group
containing 57 bits. That is the first interleaving, also called internal interleaving as shown
in the above diagram. Through the first interleaving, the successive messages in thegroups are dispersed. One burst carries two segments of voice information composed of
57 bits. Obviously, if the two groups of 57 bits information from the first interleaving of a
successive 20ms voice blocks are inserted to the same burst sequence, the loss of the
burst will lead to loss 25% bits in the 20ms voice block. Therefore, one more interleaving
is needed between two voice blocks, which is called the inter-block interleaving or
second interleaving.
Suppose that voice block B is divided into 8 groups: perform inter-block interleaving to
the first four groups (B0, B1, B2 and B3) of block B and the last four groups (A4, A5, A6
and A7) of the previous voice block A ; thus, four bursts are constituted: (B0, A4), (B1,
A5), (B2, A6) and (B3, A7); to break the adjacency relationship between successive bits,bits of block A occupy the even position of the burst while bits of block B occupy the odd
position of the burst. For example, B0 occupies the odd bit of the burst while A4 occupies
the even bit. Similarly, perform interleaving to the last four groups of block B and the first
four groups of the next block C. After the second interleaving, a 20ms voice block is
inserted into 8 different burst sequences respectively and then transmitted one by one.
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, .
is influenced and the errors can be corrected through channel coding at the other end. In
addition, the second interleaving for the control information is different. The interleaving
mode is (B0, B4), (B1, B5), (B2, B6) and (B3, B7).
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As shown in the diagram, the front and end 3 tail bits delimit the burst; the 26 bits are
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training sequence bits; and the bit at both sides of the training bits are used as bit
stealing flags.
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Transmission delay is unavoidable in the radio interface. If the mobile station moves away fromthe base station during a call, the further distance the more delay. The uplink is as the same.
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If the delay is too high, the timeslots of the signal from a certain mobile station and that of thenext signal from another mobile station received by the base station will overlap each other,thus causing inter-code interference. To avoid this, during a call, the measurement report sentfrom the mobile station to the base station carries a delay value. Moreover, the base stationshould monitor the time when the call arrives and send an instruction to the mobile station via
the downlink channel every 480ms so as to inform the mobile station the time of advancetransmission. This time is the TA (timing advance), which ranges between 0~63 (0~233s ).The TA value is limited by the timing advance code 0~63bit of the GSM system. Therefore, themaximum coverage distance of the GSM is 35km. Its calculation is as follows:
1/2*3.7 s /bit*63bit*c=35km
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{In the formula, 3.7s /bit is the duration per bit (577/156.25); 63bit is the maximum bitnumber of the time adjustment; c is the light speed (transmission speed of the signal); and indicates that the go and return trip of the signal.}
According to the above description, the distance corresponding to 1bit period is 554m.Influenced by the multi-path propagation and MS synchronization precision, the TA errormay reach up to about 3bit (1.6km).
When the MS is in idle mode, the time sequence within the MS can be adjusted via theSCH channel. However, the mobile station does not know how far it is away from thebase station. If the distance between the MS and the base station is 30km, the timesequence of the MS will be 100s slower than that of the base station. When the mobilephone sends its first RACH signal, it is already 100s later. For there is still another100s of transmission delay, when the signal reaches the base station, the total delay is200s . It is very possible that the signal collides with the pulse of the adjacent timeslot
around the base station. Therefore, RACH and some other channel access pulses will beshorter than other pulses. Only after receiving the time sequence adjustment signal (TA)from the base station, MS can send pulses of normal length. In this case, the MS needs tosend signals by 200s in advance.
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When the voice signal is transmitted after being processed and modulated, the
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requency opp ng ec n que w e use oo, .e. e ransm ss on carr er var esconstantly at different timeslots (of course, the variation should comply with thefrequency planning principles).
The following two factors are considered in introduction of the frequency hoppingtechnology:
1. For the fading process is related to the frequency band, the application of thefrequency hopping in the system may reduce the effects of the rayleigh fading.
2. Due to the interference diversity, in areas with dense traffic, the cell capacity isrestricted by the interference caused by the frequency multiplexing. In addition, thesystem is designed to meet the demands of subscribers, the maximum capacity of thesystem is calculated on the assumption that the quality of a certain number of calls isreduced distinctly due to interference. The lower the diversity measured around thespecified C/I value, the larger the system capacity. The interference on a call is theaverage value of the interference level caused by many other calls. Thus, for a specifiedinterference intensity, the more the interference sources, the better the systemperformance.
The radio interface of the GSM system is designed with the slow frequency hopping
(SFH) technique. The difference between SFH and the fast frequency hopping (FFH) isthat the frequency change of the latter is faster than the modulating frequency. Duringthe whole burst sequence transmission period of the GSM system, the transmittingfrequency remains unchanged. Therefore, it belongs to slow frequency hopping, asshown in the above diagram.
The GSM system allows 64 types of different frequency hopping sequences. There aremainly two parameters involved in description of them: mobile allocation index offset(MAIO) and hopping sequence number (HSN). The values for MAIO can be as many asthe frequencies in a group; and there are 64 different values available for HSN.
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Actually, during the communication process, the mobile subscriber talks only 40% of the
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time and there is not much useful information transmitted during rest of the time. If all the
information is transmitted to the network, it will not only be a waste of the system
resources but also add more interference to the system. In order to overcome this
problem, the DTX technique is used in the GSM system, i.e. the transmission of radio
signals is prohibited when there is no voice signal being transmitted. This is to reduce
the interference level and increase the system efficiency. In addition, this mechanism
can also save the battery of the mobile station and prolong the standby time of the
mobile station. Note that, the DTX function is not used for data transmission.
There are two transmission modes for the GSM system: one is the normal mode. In this
case, the noise obtains the same transmission quality as the voice; the other is the
discontinuous transmission mode. In this case, the mobile station only transmits the
voice signals. The noise at the receiving end is artificial.
The artificial noise is used to inform the hearer that communication connection is ok
when none of the subscribers are speaking. And the noise is designed as a comfortablenoise which will not make the hearer uncomfortable.
The comfortable noise transmission also meets the requirements of the system
measurement. In DTX mode, only 260bit codes are transmitted per 480ms; while in
normal mode, 260bit codes are transmitted per 20ms. In the DTX mode, these 260 bits
will generate SID (Silence Descriptor) frames. These frames, like the voice frames, will
be processed via channel coding, interleaving, encryption and modulation, and then be
transmitted in 8 continuous bursts. In other time, there is no message transmitted.
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The DTX mode is optional. However, the transmission quality will be reduced a bit in the
DTX mode. Especially when both ends of the communication are mobile subscribers, the
influence on the transmission quality will be more severe because the DTX will be used
twice on the same path. In addition, to implement the DTX function, the system should
be able to indicate when to start the discontinuous transmission and when to stop it; and
when the DTX is active the coder should be able to detect whether the signal is a voice
signal or a noise signal. Thus, the VAD technique has to be used. The VAD algorithm
determines whether each output frame contains voice or background noise by
comparing the measured signal energy with the threshold defined for it. The principle of
the determination is that the noise energy should always be lower than the voice energy.
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During the process of radio transmission of signals, to reduce the interference, to
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increase the utilization efficiency of the frequency spectrum, and to prolong the battery
life, the transmission power can be adjusted, that is called power control. More
specifically, the power control refers to adjust the transmission power of the mobile
station or base station in the radio mode within a certain range. Its objective is the sameas that of the DTX. When the receiving level and quality is rather strong, the
transmission power at the TX terminal can be reduced appropriately so that the
communication can be kept at a certain level. In this way, the interference on other calls
around can be reduced. The specific process will be described in the subsequent
content together with Huawei power control algorithm.
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The major basic concept concerned with the radio path transmission of the GSM system
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is the burst sequence (simplified as Burst). It is a string of transmission units including
more than 100 modulation bits. The burst sequence has a restricted duration and seizes
a restricted radio frequency spectrum. They can be described as output from the time
and frequency window. This window is called Slot. In other words, within the system
frequency band, the central frequency of the slot is set every 200KHz (observed from the
opinion of FDMA); while the slot occurs cyclically as the time evolves, which seizes
15/26ms (i.e. approximately 0.577ms) each time (observed from the opinion of TDMA).
The intervals of these slots are called Time Slots and the duration of them is called the
time unit (marked as BP, indicating the Burst Period).
We can use the time/frequency chart to draw the slot as a small rectangle with the length
of 15/26ms and width as 200KHz, as shown in the above diagram. Similarly, we can call
the 200KHz bandwidth specified in GSM as Frequency Slot, which is equivalent to the
Radio Frequency Channel (i.e. RF channel) in the GSM specifications.
The two terms: timeslot and burst sequence are different to a degree in actualapplication. For example, the burst sequence is sometimes related to the time-frequency
rectangular unit and sometimes to its content. Similarly, the timeslot has the meaning of
time value or indicates that a slot in every 8 slots is used periodically.
To use a specified channel means to transmit the burst sequence at the specified
moment and frequency, i.e. the specified slot. Generally, the time of slots in a channel is
discontinuous.
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The physical channel is the medium over which the information is carried.
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The logical channel consists of the information carried over the physical channels.
A Physical Channel (a TS, defined by a fixed position (0-7) on a given TDMA frame) may
be used to broadcast messages containing different kinds of information:
traffic messages for speech and data,
signaling messages for different procedures and supplementary services,
synchronization messages for temporal and logical synchronization between the mobile
stations and the BTS,
measurements messages for uplink report of the downlink measurements,
control messages to manage the access to the network.
All these kinds of messages are classified in Logical Channels. Depending on the
quantity of information to transmit and on their consistency, several logical channels may
be mapped onto one physical channel, in order to use its successive Time Slots as much
as possible (optimization of the resources number by maximizing the occupancy duration
of each).
As a conclusion:
Physical Channel = information container
Logical Channel = specification of the information global content
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The Logical Channel is used in time multiplex in a physical channel, which is
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categorized according to the types of messages transmitted in the physical channel.
Different logical channels are used in transmission of different types of information
between BS and MS, such as the signaling or traffic data. In GSM system, five different
types of burst sequences are specified for different logical channels, which have differenttime-amplitude diagrams as shown in the above diagrams.
The training sequence helps to discriminate radio channels with same frequency so as to
help to demodulate the signals. However, there is no training sequence for FB and DB;
for SB and AB, the training sequence is constant, i.e. the synchronous bit; for NB, there
are 8 different training sequences specified in the specifications. These 8 different
training sequences of NB are numbered from 0 to 7, which are called training sequence
numbers. By allocating training sequences with distinct differences to channels of the
same frequency used in cells that are close to and may interfere with each other, the co-
frequency interference can be avoided efficiently during modulation.
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As we know, every cell has several TRX and every TRX includes 8 timeslots (i.e.
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providing 8 basic physical channels). In the radio subsystem, the physical channel
supports the logical channel based on the type of message transmitted . In this way, the
physical channels are mapped as different logical channels. In the GSM system, the
logical channel is classified as the dedicated channel (DCH) and the common channel(CCH). Sometimes, it can also be classified as the traffic channel and control channel.
The traffic channel (TCH) carries voice or data, which are the full-rate traffic channel
(TCH/F) and half-rate traffic channel (TCH/H). These two types of channels carry
information at the rates of 13 kbit/s and 6.5 kbit/s respectively. The channel using half of
the time slots of a full-rate channel is the half-rate channel. Therefore, a carrier can
provide 8 full-rate or 16 half-rate traffic channels.
The frequency correction channel (FCCH) carries the information for frequency
correction of MS and BTS.
The control channel (CCH) is used to transmit signaling or synchronous data. There are
mainly 3 types of control channels: Broadcast Channel (BCCH), Common Control
Channel (CCCH) and Dedicated Control Channel (DCCH).
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1. Frequency correction channel (FCCH)
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It carries the information for frequency correction for the mobile station. The MS can communicate
with a cell and demodulate other information of the same cell just via FCCH. Moreover, the MS
can also know whether the carrier is a BCCH carrier via FCCH.
2. Synchronous channel (SCH)
After FCCH decoding, the MS will continue to decode the SCH channel message. This message
includes the information for MS frame synchronization and BS identification: Base Station
Identifying Code (BSIC). It seizes 6 bits, in which 3 bits are PLMN color codes ranging between
0~7; while the remaining 3 bits are Base Station Color Codes (BCC) ranging between 0~7.
The simplified TDMA frame number (RFN) seizes 22 bits.
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3. Broadcast control channel (BCCH)
Generally, there is always a BCCH channel in every cell , which is responsible for
broadcasting system information to the mobile station. These system information enablethe MS to identify and access network at the idle mode.
4. Paging channel (PCH)
This is a downlink channel which is used to page mobile stations. When the network is to
set up communication with a certain MS, it will send paging messages via the PCH
channel to all cells in the LAC area in which the certain MS has currently registered,
and indicates TMSI or IMSI of the certain mobile.
5. Access granted channel (AGCH)
This is a downlink channel used in answering a network access request by the mobile
station, i.e. allocation of an SDCCH or a TCH directly.
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1. Random access channel (RACH)
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It is an uplink channel used for MS randomly access to network by requesting for an SDCCH. The
request includes a 3bit setup reason (call request, paging response, location update request and
short message request etc.) and a 5bit random reference number for MS to differentiate the access
granted messages.
2. Stand-Alone Dedicated Control Channel (SDCCH)
It is a bi-directional dedicated channel used in transmission of signaling messages concerned with
connection setup, location update message, short message, authentication message, encryption
command, channel allocation message and various kinds of additional services etc. It can be divide
into the Stand-Alone Dedicated Control Channel (SD/8) and the Dedicated Control Channel in
combination with CCCH (SD/4).
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3. Slow associated control channel (SACCH)
It is used together with the traffic channel or SDCCH. It carries some specificinformation while transmitting the subscriber information. At the uplink, it mainly
transmits the measurement report ; while at the downlink, it mainly transmits some
system information. These messages include the quality of communication, LAI, CELL
ID, BCCH signal strength of the adjacent cell, NCC permit, cell option, TA and power
control level etc.
4. Fast associated control channel (FACCH)
It is used together with TCH for providing signaling messages whose speed and
timeliness are much higher than the slow associated control channel (SACCH) for the
system during the transmission process. This channel uses frames borrowed from thetraffic channel for its connection and transmits such instruction messages as
handover. For the voice decoder can repeat the voice of the last 20ms, this kind of
interruption due to frame stealing will not be detected by the subscriber. Besides the
three types of control channels described above, there is a cell broadcast control
channel (CBCH). It is used at the downlink and carries the short message service cell
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broadcast (SMSCB) information. This kind of control channel uses the same physical
channel as that used in SDCCH.
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As shown above, CCCH=PCH+RACH+AGCH; downlink CCCH=PCH+AGCH; and
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uplink CCCH=RACH. In the above combinations, combination 3 and 4 must be allocated
to slot 0 of the BCCH carrier configured for the cell; while combination 5 must be
allocated to timeslots 2, 4 and 6 of the BCCH carrier. The FACCH works in the frame
stealing mode, for which no fixed time sequence will be allocated. In addition, the cyclicmultiframe period of SACCH/C4 and SACCH/C8 is 102 frames.
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The TDMA/FDMA multiplexing is used in GSM, the information needed in the
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synchronization between MS and BTS is provided by FCCH+SCH.
The MS determines the frequency of the BCCH carrier by searching for the frequency
correction Burst transmitted via FCCH; then it finds the SCH (synchronization channel)
according to the relationship between SCH and FCCH and decodes the current framenumber and BSIC for synchronization with BTS. Furthermore, it determines whether the
cell is barred or not and decodes the system information on BCCH.
In the structure diagram of extended BCCH, except that the F and S timeslots are
replaced by Idle timeslots, the rest of the structures are the same as that of the main
BCCH.
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It is used in the configuration of cells of low traffic density and small capacity. The
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Combined BCCH is only configured at timeslot 0.
Channel combination: FCCHSCHBCCHCCCH+SDCCH/4+SACCH/4
SDCCH/4: Stand-alone dedicated control channel. Each TDMA multiframe with 51
frames has 4 SDCCH;
SACCH/4: Slow SDCCH/4 associated control channel;
Compared with the main BCCH channel, 4 signaling channels are added to the 51
frames. The functions of these 4 signaling channels are the same as those of the
SDCCH8 channel. Therefore, this channel combination can be taken as a combination of
the functions of the above two channels. This combination take effect on two aspects:
first, this reduced the quantity of AGCH+PCH on CCCH and only a small-capacity
system is provided; second, this combination provides a certain quantity of signaling
channels in timeslot 0. Thus, it is unnecessary to assign SDCCH8 channels in a small-
capacity system. This channel suitable for small-capacity systems. And it is also an
example of the flexible GSM network configuration.
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Channel combination: SDCCH/8+ SACCH/C8
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SDCCH/8: Stand-alone dedicated control channel. Each TDMA multiframe with 102
frames has 8 SDCCH.
SACCH/C8: Slow SDCCH/8 associated control channel.
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Channel combination: TCH/F + FACCH/F + SACCH/F
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TCH/F: Full-rate voice channel;
FACCH/F: Full-rate fast associated control channel;
SACCH/F: Fast TCH/F associated control channel.
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One TDMA frame includes 8 basic timeslots, and each timeslot is a basic physical
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c anne .
The Physical Channel is a combination of FDMA and TDMA, which is composed of thetimeslot streams between the base station (BS) and the mobile station (MS). Thepositions of these timeslots do not change in different TDMA frames. The above diagramshows the complete structure of the TDMA frame, including the timeslot and burst
sequence. It should be remembered that the TDMA frame is the physical framerepeated on the radio link.
Every TDMA frame includes 8 timeslots, which seize 60/134.615ms altogether. Everytimeslot contains 156.25 bit duration, which seize is 15/260.557ms. Multiple TDMAframes constitute a Multi-frame, which has two types of structures including 26 or 51coherent TDMA frames respectively. These multiframes should be used when differentlogical channels are mapping to one physical channel.
The period of the multiframe containing 26 frames is 120ms, which is used in the trafficchannel and the associated control channel. In these frames, 24 bursts are used for thetraffic and the remaining two are used for the signaling.
The period of the multiframe containing 51 frames is 3060/13235.385ms, which is usedespecially in the control channel.
Multiple multi-frames constitute a Super frame, which is a coherent 5126TDMAframes. That is to say, one super frame can contain either 51 26TDMA multi-frames or26 51TDMA multi-frames. The period of all super frames is 1326 TDMA frames, i.e. 6.12seconds.
Furthermore, multiple super frames constitute a Hyper frame, which contains 2048super frames and its period is 12533.76 seconds, i.e. 3 hours, 28 minutes, 53 secondsand 760 milliseconds. The hyper frame is used in encrypted voice and data. Each periodof the hyper frame contains 2715648 TDMA frames, which are numbered in sequencefrom 0 to 2715647 successively. The frame number is transmitted in the synchronouschannel, which is also a necessary parameter in the frequency hopping algorithm.
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The common control channel includes PCH, AGCH and RACH, in which AGCH and
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PCH are downlink while RACH is uplink. Its purpose is to send the access granted
(immediate assignment) message, paging message and random access message.
Based on the configuration of traffic channels in the cell and the traffic model of the cell,
the CCCH channel can be borne by one or more physical channels. Moreover, theCCCH can share the same physical channel with the SDCCH channel. The combination
mode for the common channel in the cell depends on the configuration parameter of the
common channel.
As a way for load control, the MS may be distributed to several different sub-groups by
operators for access or other operation purposes. The CCCH grouping and paging
grouping are two examples.
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