MRN -3 – Mobility - Politecnico di Milanohome.deib.polimi.it/capone/wn/MRN-EN-3-Mobility.pdf ·...
Transcript of MRN -3 – Mobility - Politecnico di Milanohome.deib.polimi.it/capone/wn/MRN-EN-3-Mobility.pdf ·...
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Politecnico di MilanoFacoltà di Ingegneria dell’Informazione
MRN -3 – Mobility
Mobile Radio NetworksProf. Antonio Capone
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Mobility management
o In mobile radio networks, users can freely move in the area of the system changing the cell to which they are associated
o This obviously poses routing problems (bot for voice calls and data sessions)
o All the procedures that the system adopts for allowing users mobility with seamless connectivity are denoted as “mobility management”
A. Capone: Mobile Radio Networks 2
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Mobility management
o Users while roaming the in service area can:n Calln Be called n Have an active call/session
o It is necessary to use some mechanisms for tracking user position in the network and adapt routing accordingly
A. Capone: Mobile Radio Networks 3
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Mobility management
o In the case of voice service, mobility management procedures differs according to the user state, IDLE (no call in progress) or ACTIVE (call in progress)n ACTIVE: there is an active connection that must be
rerouted at each cell change to guaranty continuous connectivity (Handover)
n IDLE: user must be localized in order to be reached in case of an incoming call (Location Update, Cell Selection, Cell Reselection)
A. Capone: Mobile Radio Networks 4
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Mobility management: Cell selection
o User terminal autonomously selects the base station based on the level of the signal received by base station s
o Base stations periodically transmits broadcast message on a common control channel, which includes system information and its identity (cell ID)
o User terminal scans frequencies for receiving broadcast messages of base stations in the neighborhood
o Terminal select the base station from which it receives the strongest signal
o Terminal continues to scan frequencies and whenever a base station with a stronger signal is received the new cell is reselected
o In the cell selection and reselection process also other system information are usually considered (like the network identification)
A. Capone: Mobile Radio Networks 5
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A. Capone: Mobile Radio Networks 6
Handover
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Mobility management: Handover
o This is the procedure that allows a terminal with an active session to change its base station without loosing connectivity
o Handover is always started by the network, based on measurements (signal strength, quality, etc.) performed both on user and network sides
o In order to guaranty connectivity and avoid information losses, handover procedures need to be fast and efficient
o For the MRN technologies we’ll see how handover is handled with signaling and rerouting procedures
A. Capone: Mobile Radio Networks 7
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Mobility management: Handover
A. Capone: Mobile Radio Networks 8
o The selection of handover activation thresholds is a critical element
o If h is too small we may loose the connection because time is not enough
o If h is too big we may have too many handover procedures even when not necessary
When to start a Handover?
Dt t
Handover TH
Receiver THh
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Mobility management: Handover
A. Capone: Mobile Radio Networks 9
o There are different possible approaches1 – strongest signal
o handover is initiated in A
Due to signal fluctuations connection can be switched back-and-forth several times (ping-pong effect)
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Mobility management: Handover
A. Capone: Mobile Radio Networks 10
2 – strongest signal with thresholdo If signal of previous BS is below a threshold (e.g. T2) and the
power of the new BS is stronger; handover is initiated in B
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Mobility management: Handover
A. Capone: Mobile Radio Networks 11
3 – stronger signal with hysteresiso If the power of the new BS is stronger with a difference ³ h;
handover is initiated in C
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Mobility management: Handover types
A. Capone: Mobile Radio Networks 12
o Hard Handover (GSM-2G)
o Soft Handover (UMTS-3G)
In each time only one connection is active
User is contemporary connected to more than one base station
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Handover performance
o When a handover is necessary a channel is released in the previous cell and another one must be available in the new cell
o Let us define the handover failure probability (Phf) as the probability that a handover request is rejected since there are no channel available, and blocking probability (Pb) as the probability that a new call is rejected
o If the system does not make distinction between handover requests and call requestswe have Phf=Pb
o Actually, it is usually more tolerable to block new calls rather than dropping already active ones
o We can try to privilege handovers
A. Capone: Mobile Radio Networks 13
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Guard channels
A. Capone: Mobile Radio Networks 14
o Guard Channelsn Some channels are reserved for handover requestsn Phf becomes lower but system capacity for new calls
is reduced (Pb is increased)n Dimensioning guard channels may be critical and
requires traffic and mobility estimations (how many guard channels do we need?)
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Handover performance
A. Capone: Mobile Radio Networks 15
Assumptions:• Traffic flows of new calls and
handovers are Poisson processes and are independent
• m available channels
New calls
Handover requests
Completed calls
hl
il
cµ
We can simply use Erlang-B with B(A,m)
c
hiAµll +
=
Without guard channels
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Handover performance
A. Capone: Mobile Radio Networks 16
Let us define:
c
hh
c
ii
µlr
µlr
=
=Assumptions:• Traffic flows of new calls and handovers are
Poisson processes and are independent• m = c + g available channels• g reserved for handovers
New calls
Handover requests
Completed calls
hl
il
cµ
With guard channels
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Handover performance
A. Capone: Mobile Radio Networks 17
0 1 2 c c+g
hlih ll +
cµ cµ2 ccµ ( ) cc µ1+ ( ) cgc µ+
c+1
hlih ll +ih ll +
… …
π1 =λh +λiµc
π 0 = ρh + ρi( )π 0
π 2 =12ρh + ρi( )2 π 0
...
π k =1k!
ρh + ρi( )k π 0 1≤ k ≤ c
π k =1k!
ρh + ρi( )c ρhk−cπ 0 c < k ≤ c+ g
#
$%%
&%%
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Handover performance
A. Capone: Mobile Radio Networks 18
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Handover performance
o The model takes as input the parameters: lh, li, µc
o Unfortunately, these parameters are dependent each other and basically determined by traffic intensity and user mobility
o Parameter tc=1/µc represents the average of the channel holding time Xc
o Let us define the parameter th=1/h as the average time spent by a user in a cell Xh
A. Capone: Mobile Radio Networks 19
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Handover performance
o Let us define the parameter t=1/µ as the average value of the call duration X
o We have:
o Assuming X and Xh are exponential random values we can observe that :
A. Capone: Mobile Radio Networks 20
Xc =min X,Xh{ }
hµµt
+==
11
cc
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Handover performance
o The probability that a call requires a handover is given by :
o Let us define n as the average number of handovers per call:
A. Capone: Mobile Radio Networks 21
Ph = Pr X > Xh[ ] = dx ηe−ηxµe−µy dyx
+∞
∫0
+∞
∫ =
= −η e−(µ+η )y dx0
+∞
∫ =η
µ +η
ν =ττ h
=ηµ
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Handover performance
A. Capone: Mobile Radio Networks 22
o We can now compute lh as a function of li:
o Solving by lh:
( ) ( )[ ]hhfibhh PPP lll -+-= 11
( )( )[ ] i
hfh
bhh PP
PP ll---
=111
1/6 of traffic moving out of the cell
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Handover performance
o Unfortunately the equation depends on the probabilities Pb and Phf which are the values we want to compute with the Markov chain
o We can adopt an iterative approach to solve the problem:1. We assign initial values to Pb and Phf and we compute lh
2. We solve the chain and compare the results with the two values3. If the difference us greater that a threshold we set the values of
Pb and Phf according to step 2 and than go back to step 1; otherwise STOP.
A. Capone: Mobile Radio Networks 23
( )( )[ ] i
hfh
bhh PP
PP ll---
=111
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Handover performance
o In most cases however, it is reasonable to assume that Pb and Phf are small
o And therefore:
o Obviously the assumption must be verified solving the chain
A. Capone: Mobile Radio Networks 24
( )( )[ ] ( ) iii
h
hi
hfh
bhh P
PPPPP nll
µhlll ==
-@
---
=111
1
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Handover performance
o The handover failure probability Phf is not however a parameter directly related to service quality
o We need to calculate the probability that a call is dropped due to handover failure:
A. Capone: Mobile Radio Networks 25
( )( ) ( )
hfhfh
h
i hfh
hfhihf
ihhfh
hfhhfhhfd
PPPP
PPPP
PPPP
PPPPPP
n=-
@
=--
=-=
=+-+=
å¥
=
1
111
...1
0
2
1@
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Handover performance
A. Capone: Mobile Radio Networks 26
o We still need to calculate parameter h as a function of the terminal speed and cell size
o Let us consider first a simple case with square cells:
a
r
l
o # of handovers g = # of horizontal lines + # of vertical lines crossed
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Handover performance
A. Capone: Mobile Radio Networks 27
o We get:
( )
lV
rV
lr
lr
dl
rl
r
pgh
paa
p
aaap
g
p
p
4
4cossin2
sincos2
2/
0
2/
0
==
=úûù
êëé -
=+= ò
where V is the speed
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Handover performance
A. Capone: Mobile Radio Networks 28
o Proof: Let us consider an infinitesimal segment of the perimeter dl and the probability that a terminal crosses it in the time internal dt.
o Let fV(v) be the probability density of the speed and a the incidence angle on segment dl
o Terminal will cross the segment only if it is in the infinitesimal area:
o In general we have: S
LVp
h = Where L is the perimeter and S the area
dl
a acosvdt
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Handover performance
A. Capone: Mobile Radio Networks 29
o The probability is then given by the area divided by the total area:
o Averaging on v and on a, we get:
o Integrating along the perimeter:o And therefore the cell crossing frequency:
Sdldtvp acos
=
12πS
dv v fV v( )cosα dl dt−π /2
π /2
∫0
∞
∫ dα =
=12πS
2 v fV v( ) dl dt dv0
∞
∫ =VπS
dldt
dtSVLpp
=
SLVp
h =
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Mobility management: Handover
A. Capone: Mobile Radio Networks 30
LETTURA CONSIGLIATA:Trends in handover design Pollini, G.P.IEEE Communications Magazine , Volume: 34 Issue: 3 , March 1996 Page(s): 82 -90
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Location update
A. Capone: Mobile Radio Networks 31
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Mobility Management: Location Update
o Location Area: topological entity hierarchically on top of the cell (group of cells)
o An IDLE terminal is localized based on the Location Area (and not based on cell)
o The last Location Area visited is stored into network data bases
A. Capone: Mobile Radio Networks 32LA 1 LA 2
Data Base
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Mobility Management: Location Update
A. Capone: Mobile Radio Networks 33
o If a IDLE terminal moves from a LA to another, it initiates a Location Update procedure
o The information on the LA currently visited by a terminal is used by the network to route incoming calls
LA 2
Data Base
LA 1
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Pagingo When a new call is coming, the data base is searched to know the
LA currently isitedo Then a paging procedure is startedo Every base stations in the LA start transmitting a paging message
with the ID of the terminal on a broadcast control channelo When the terminal replies on the access channel the exact cell is
identified and the call is routed
A. Capone: Mobile Radio Networks 34
Data Base
pagingpaging
reply
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Paging vs. Location Updateo QUESION:
n What is the most convenient size (number of cells) of the Location Areas?o smallo big
n What does suggest to make them big and what small?
A. Capone: Mobile Radio Networks 35
LA 2
Data Base
LA 1
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Paging vs. Location Update
o The dimensioning of the location areas is a tradeoff between two opposite needs:n Increasing the location area size (number of
cells) we increase the signaling traffic due to paging
n Decreasing the size we increase the signaling traffic due to location updates
o Thus there is an optimal size that depends on a number of parameters including the terminal mobility and the arrival frequency of calls
A. Capone: Mobile Radio Networks 36
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Location Area dimensioningo A simple method for the dimensioning is based on the
calculation of the signaling cost per usero Let us consider squared cells of edge l, and squared location
areas with k ´ k cellso Let us denote with
n Cp the signaling cost per user per cell due to an incoming call [bytes/paging/cell]
n Cu the signaling cost due to a location update [bytes/update]
n l incoming call arrival frequency per user [calls/hour/user]
n uk location update frequency per user [update/hour/user]
A. Capone: Mobile Radio Networks 37
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Location Area dimensioning
o The signaling cost per user can be expressed as:
o Let us denote withn m the average number of users getting out of the
location area in the time unitn r the density of users per unit arean v the speed of the user (V=E[v])
A. Capone: Mobile Radio Networks 38
( ) ukpk CuCkukC += ll 2,,
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Location Area dimensioning
A. Capone: Mobile Radio Networks 39
o Similarly to what we did for the calculation of the parameter h for the handover we can calculate:
o And thereforep
r Vklm ××=
4
ku
klV
klmuk 1
2
4)(
===pr
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Location Area dimensioning
o Normalizing Cu to 1 and defining c(k,l)= C(k,l)/Cu we can give the normalized cost as:
o where
A. Capone: Mobile Radio Networks 40
kukkc /),( 12 += lgl
up CC /=g
plVu 4
1 =
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Location Area dimensioningo Let us define:
o The optimal value of k, kopt, can be computed looking for the maximum value of k for which D is negative:
A. Capone: Mobile Radio Networks 41
)1()1()12(
),,1(),,(),,(
1
111
----
=
=--=D
kkukkk
ukcukcukgl
lll
kopt (λ,u1) =1 se Δ(2,λ,u1)> 0max k |Δ(k,λ,u1) ≤ 0[ ] otherwise
#$%
&%
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Location Area dimensioning
A. Capone: Mobile Radio Networks 42
o Example:
l = 300 mV = 8 km/hγ =Cp /Cu = 0.1λ = 0.6 [calls/h/user]
user][update/h/ 95.3341 ==
plVu
29.0),,8(03.0),,7(46.0),,6(16.1),,5(41.2),,4(36.5),,3(80.16),,2(
1
1
1
1
1
1
1
+=D-=D-=D-=D-=D-=D-=D
uuuuuuu
lllllll
o We get:
7=optk