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An SMR Based Advance Resource Reservation Scheme For Combined Mobility and QoS Provisioning Hao Wang The University of Edinburgh WP2, Ubiquitous Service. Outline. QoS Provisioning in the Mobile Environment A Session-to-Mobility Ratio Based Advance Resource Reservation Scheme - PowerPoint PPT Presentation
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1
An SMR Based Advance
Resource Reservation
Scheme For Combined
Mobility and QoS
Provisioning
Hao WangThe University of EdinburghWP2, Ubiquitous Service
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2
Outline
QoS Provisioning in the Mobile Environment
A Session-to-Mobility Ratio Based Advance Resource Reservation Scheme
Performance Comparison
Conclusions
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QoS Provisioning in the Mobile Environment
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Resource ReSerVation Protocol (RSVP)
RSVP is a network layer protocol which can be used to reserve resources in the network to guarantee “hard” QoS provisioning.
Sender
Receiver
PATH
RESV
The simplified procedure: The sender sends out
the PATH messages that includes the traffic profile.
The receiver replies with the RESV messages that reserves the resources along the data path.
Reservation is identified by the IP addresses and port numbers.
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RSVP in the mobile environment (1/2)
In the mobile environment, the mobile node has to changes its IP address after a network layer (L3) handover.
Correspondent
Mobile Node
Therefore, the mobile node has to re-establish the reservation after handover: for example:
Subnet 1
IP Address 1 IP Address 2
Subnet 2
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RSVP in the mobile environment (2/2)
This resource re-reservation results in two major problems:1. reservation delay: the delay of this reservation may be
so long that a delay-sensitive session has to be terminated.
2. reservation blocking: it is possible that this reservation request is blocked due to the lack of resources in the new subnet.
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Solutions of the problems in the literature
To reduce the reservation delay: identify the common part of the old and new data path
so that the reservation signalling can be restricted within the affected part of the network
To reduce the reservation blocking probability: make advance resource reservations in the networks
that a mobile node may visit before the handover
The combination of them would be a good approach to provide QoS in the mobile environment.
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How to make advance reservation (1/3)
There are two major types of advance resource reservation approaches:1. Agent-based: uses a special agent to make advance
reservation.2. Multicast-based: takes advantage of multicast routing
protocol.
1. Agent-based approach: there is an agent in every subnet which takes charge
of resource reservation. the mobile node makes active reservation in its current
subnet. the mobile node makes passive reservations in its
neighbouring subnets. when the mobile node hands over to a new subnet, it
can uses the passive reservation.
The active reservation is actively used for
communicationThe passive reservation is not used
but only reserved
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How to make advance reservation (2/3)
2. Multicast-based schemes: the current and neighbouring subnets of the mobile
node form a multicasting group, and packets are delivered using multicasting routing, i.e., the packets are sent to all the nodes that belong to the group.
similar to the agent-based schemes, the mobile node makes conventional reservation and predictive reservations in its current and neighbouring subnets respectively.
handover of the mobile node is modelled as leaving and joining the branches of a multicast tree.
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How to make advance reservation (3/3)
An example showing different types of reservations:
Core Network
Foreign Subnet
Active/Convensional reservation
Passive/Predictive reservation
Correspondent
Foreign Subnet
Local Subnet
Mobile Node
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Problems of advance resource reservation
1. Making advance reservations in a subnet increases the blocking probability of new session requests originating from that subnet. reduces the Grade of Service (GoS) of the network
2. Since advance reserved resources are not actively used, they waste network resources from the QoS traffic’s perspective. Proposals that allow traffic with lower QoS level to
temporarily borrow the advance reservations is not reliable.
Only allowing best-effort traffic to use the passive reservations wastes network resources from the QoS traffic’s perspective.
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Our solution
Integrate the call admission control (CAC) mechanisms into the advance resource reservation scheme so that the network resource utilisation is improved.
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A Session-to-Mobility Ratio Based Advance Resource Reservation Scheme
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Motivation and approach
Motivation: to design a scheme which can balance the amount of
active reservations (requested by local mobile nodes) and passive reservations (requested by foreign mobile nodes) in a subnet.
Approach: two CAC mechanisms1. Passive reservation bounding2. SMR based replacement
Modularity: The detailed signalling procedure is left open and the
scheme can be regarded as a building block of the proposals that combine MM and QoS
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Passive reservation bounding (1/2)
Aim: to restrict the amount of passive reservations in a
subnet.
We give a higher priority to active reservations by setting aside resources (e.g. channels) just for them.
Therefore, there are two types of channels: dedicated channels: for only active reservations standard channels: for passive reservations and for
active reservations when there is no free dedicated channel
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Passive reservation bounding (2/2)
Needs the help of the bandwidth broker (BB) in each subnet which takes charge of allocating channels according to the type of requests: active reservation –> dedicated or standard channel passive reservation –> standard channel
To avoid over-restricting passive reservation, the BB should try to assign an active reservation to a dedicated channel first, and then to a standard channel if no free dedicated channel is available.
Assume the total number of channels in a subnet is N and there are S standard channels, then the maximum number of passive reservations is S, and at least N-S active reservations can be accepted
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SMR based replacement (1/2)
Aim: to efficiently utilise the standard channels of a subnet
since they are scarce resources from the viewpoint of the foreign mobile nodes.
The mobile nodes who are most likely to handover during the session are the most eligible to make passive reservations.
This probability can be reflected in the ratio of session duration to subnet residence time, i.e., the session-to-mobility ratio (SMR).
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SMR based replacement (2/2)
The replacement procedure works as follows:1. If the BB receives a passive reservation request and
finds out there is no free standard channel available, then:
2. The BB compares the SMR value of the requesting foreign mobile node (SMR_request) and the smallest of the SMRs of the foreign mobile nodes that have already acquired standard channels (SMR_smallest).
3. If SMR_request > SMR_smallest, then the standard channel is re-allocated to the requesting mobile node.
4. Otherwise, the passive reservation request is rejected.
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Flow chart of the SMR based advance resource reservation scheme
BB receives a reservation request.
Is it an active reservation request?
Yes
Allocate a dedicated channel.
Block the reservation request.
Is there a free dedicated channel?
Is there a free standard channel?
Allocate a standard channel.
No
Yes
No
Yes
Block the reservation request.
NoIs there a free standard channel?
Allocate a standard channel.
Yes
No Any replaceable standard channel?
No
Replace thatstandard channel.
Yes
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About the traffic type
In our work, the QoS sessions are assumed to be of the same type. Therefore, a mobile node is more eligible in the sense that it has a larger SMR value.
However, in a broader sense, the type of the QoS sessions should be considered and it is an important criterion for determining which mobile node is more suitable for making passive reservations.
Admission control according to different types of traffic can be implemented in the “policy control” module defined in the RSVP protocol.
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About the scheme
1. Although the advance resource reservation scheme looks similar to the handover prioritised scheme used in the cellular networks, they are different majorly in the ways in which resource are reserved. In handover prioritised schemes, reserved resources
can be used by anyone. In advance resource reservation schemes, resources
are reserved exclusively and so network utilisation is deteriorated.
2. The side effects of the scalability problem of RSVP can be reduced by RSVP aggregation techniques (e.g. RFC 3175).
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Performance Comparison
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Assumptions in the PEPA models
Traffic Model: Two-phase hyper exponential (2P-HE) distribution for
session duration: 2P-HE is validated by both simulation and
experimental measurements
Mobility Model Exponential distribution for the subnet residence time
What determines the handover behaviour: cell shape movement pattern type of handover
No proven probability distribution exists.
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Performance metrics
We investigate the congestion level of the network form the viewpoint of different types of reservations, i.e.,1. Active reservation blocking probability
2. Passive reservation blocking probability
Tuning parameters are traffic intensity:1. session arrival rate
2. session holding time
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Active reservation blocking prob. vs. session arrival rate (mean session holding time = 400s)
50 100 150 200 250 300 350 400 450 50010
-5
10-4
10-3
10-2
10-1
100
101
102
Mean Session Arrival Interval
Act
ive
Res
erva
tion
Blo
ckin
g P
roba
bilit
y
Ordinary Scheme
SMR Based Scheme
Difference (using division)
SMR based scheme is better because it sets
aside dedicated channels for active reservations
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Active reservation blocking prob. vs. session holding time (mean session arrival interval = 180s)
150 200 250 300 350 400 450 50010
-4
10-3
10-2
10-1
100
101
102
Mean Session Holding Time
Act
ive
Res
erva
tion
Blo
ckin
g P
roba
bilit
y
Ordinary Scheme
SMR Based Scheme
Difference (using division)
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Passive reservation blocking prob. vs. session arrival rate (mean session holding time = 400s)
50 100 150 200 250 300 350 400 450 50010
-3
10-2
10-1
100
101
Mean Session Arrival Interval
Pas
sive
Res
erva
tion
Blo
ckin
g P
roba
bilit
y
Ordinary Scheme
SMR Based Scheme
Difference (using division)
SMR based scheme is better when the traffic
intensity is high
due to bounded resources for passive
reservations
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Passive reservation blocking prob. vs. session holding time (mean session arrival interval = 180s)
150 200 250 300 350 400 450 50010
-3
10-2
10-1
100
101
Mean Session Holding Time
Pas
sive
Res
erva
tion
Blo
ckin
g P
roba
bilit
y
Ordinary Scheme
SMR Based Scheme
Difference (using division)
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Discussion (1/2)
The reason why SMR based scheme performs better is because it1. sets aside dedicated resources for active reservations2. only allows eligible foreign mobile nodes to make
passive reservations.
The expense of the SMR based scheme is that slow mobile nodes have to make reservation requests
after handover
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Discussion (2/2)
However, the SMR based scheme is still reasonable because:1. Blocking passive reservations has no effect on the
foreign mobile node’s ongoing session since it is not actively used, while an active reservation implies there is a local mobile node that really needs it.
2. When the foreign mobile node without advance reservation hands over into the local subnet, its reservation request is an active one which will benefit from the passive reservation bounding.
3. The passive reservation brings no revenue whilst active reservation does.
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Conclusions
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In conclusion
The SMR based advance resource reservation scheme can efficiently reduce both active and passive reservation blocking probabilities.
The enhancements are achieved by the means of: setting aside dedicated channels for active
reservations, and only allowing mobile nodes with large SMR values to
make passive reservations.
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For further information please contact:Hao Wang
E-mail: [email protected]