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Transcript of 1 The Medium Access Control Sublayer Chapter 4. 2 The Channel Allocation Problem Static Channel...
![Page 1: 1 The Medium Access Control Sublayer Chapter 4. 2 The Channel Allocation Problem Static Channel Allocation in LANs and MANs Dynamic Channel Allocation.](https://reader034.fdocuments.net/reader034/viewer/2022051210/5513ba305503465b298b466e/html5/thumbnails/1.jpg)
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The Medium Access ControlSublayer
Chapter 4
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The Channel Allocation Problem
• Static Channel Allocation in LANs and MANs• Dynamic Channel Allocation in LANs and MANs
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Dynamic Channel Allocation in LANs and MANs
1. Station Model.N independent stations sending messages according Poisson distribution.
2. Single Channel Assumption.A single channel is available to all stations to transmit to and receive from.
3. Collision Assumption.If stations transmit at the same time frames will collide and garbled. All
stations can detect collision and retransmit frame later.
4. (a) Continuous Time: Frame can start transmission at any time.
(b) Slotted Time: Frame can start transmission at given time instance.
5. (a) Carrier Sense: Stations can sense if the channel is in use and wait. (b) No Carrier Sense: Stations cant tell if the channel is free.
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Multiple Access Protocols
• ALOHA• Carrier Sense Multiple Access Protocols• Collision-Free Protocols• Limited-Contention Protocols• Wavelength Division Multiple Access Protocols• Wireless LAN Protocols
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Pure ALOHA
In pure ALOHA, frames are transmitted at completely arbitrary times.
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Collision conditions in pure Aloha
period is 2t
If another frame startshere we will have collision
All frames are of the same size.
Frame transmission can start at any time instant.
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Throughput versus offered traffic for ALOHA systems.
Max throughputs: 18% at G = 0.5 for pure 37% at G = 1 for slotted.
(th
rou
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t p
er p
acke
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(1-p) carr
->random back off
Persistent and Non-persistent CSMA
no carr
-> transmit
carr
-> check afterrandom time
nonpersistent
no carr
-> transmitwith prob p.
p-persistent is slotted
carr
-> check next slot
carr
->check next slot
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CSMA with Collision Detection
CSMA/CD can be in one of three states: contention, transmission, or
idle. Minimum contention slot is 2 where is the propagation delay
between the two most remote stations.
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Collision free protocols:the basic bit-map protocol
.
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The binary countdown protocol
. A dash indicates silence.
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Wireless LAN Protocols
A wireless LAN. (a) A transmitting. (b) B transmitting.
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Wireless MACA (Multiple Access with Collision Avoidance)
a) C hears RTS to B 30 bytes frame with the length of the frame to follow.
b) D hears B responding with a CTS to A (copying the length of the next frame).
c) A starts transmitting.
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Ethernet
• Ethernet Cabling• Manchester Encoding• The Ethernet MAC Sublayer Protocol• The Binary Exponential Backoff Algorithm• Ethernet Performance• Switched Ethernet• Fast Ethernet• Gigabit Ethernet• IEEE 802.2: Logical Link Control• Retrospective on Ethernet
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Ethernet 802.3
10 MHzSegment length in hundredths meters
Baseband
Vampire taps
T conn.
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Ethernet Cabling
Three kinds of Ethernet cabling.
(a) 10Base5, (b) 10Base2, (c) 10Base-T.
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Ethernet coding
(a) Binary encoding, (b) Manchester encoding, (c) Differential Manchester encoding.
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Ethernet MAC Sublayer Protocol
Frame formats. (a) DIX Ethernet, (b) IEEE 802.3.
• Address bit 46 determines local or global address.• Min frame is 64 bytes from dest. address to checksum.
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Collision detection can take as long as 2
This is to sense a collision before end of the frame reach far end.In 10 Mbps LAN 1 bit is 100 nsec, and max segment 2500 m roundtrip delay is 2 = 50 mksec = 500 bits = 64 bytes.
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Binary exponential backoff
Frame
Contentionperiod
Contentionperiod
FrameFrame Frame
Idleperiod
p = 1/2
p = 1/4
p = 1/8
If k stations contend for a channel probability that any of k gets a channel is:
A = kp(1 – p)k-1 p = 1/k gives Amax
Average number of contention slots =
jA(1 – A)j-1 = 1/A.Therefore,
channel efficiency = P/(P + 2/A)
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Ethernet Performance
Efficiency of Ethernet at 10 Mbps with 512-bit slot times.
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Switched Ethernet
A simple example of switched Ethernet.
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Fast Ethernet
The original fast Ethernet cabling.
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Gigabit Ethernet
(a) A two-station Ethernet. (b) A multistation Ethernet.
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Gigabit Ethernet (2)
Gigabit Ethernet cabling.
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IEEE 802.2: Logical Link Control
(a) Position of LLC. (b) Protocol formats.
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Wireless LANs
• The 802.11 Protocol Stack
• The 802.11 Physical Layer
• The 802.11 MAC Sublayer Protocol
• The 802.11 Frame Structure
• Services
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The 802.11 Protocol Stack
Part of the 802.11 protocol stack.
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The 802.11 MAC Sublayer Protocol
(a) The hidden station problem.(b) The exposed station problem.
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The 802.11 MAC Sublayer Protocol (2)
The use of virtual channel sensing using CSMA/CA.
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The 802.11 MAC Sublayer Protocol (3)
A fragment burst.
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The 802.11 MAC Sublayer Protocol (4)
Interframe spacing in 802.11.
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The 802.11 Frame Structure
The 802.11 data frame.
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802.11 Services
• Association
• Disassociation
• Reassociation
• Distribution
• Integration
Distribution Services
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802.11 Services
• Authentication
• Deauthentication
• Privacy
• Data Delivery
Intracell Services
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Broadband Wireless
• Comparison of 802.11 and 802.16
• The 802.16 Protocol Stack
• The 802.16 Physical Layer
• The 802.16 MAC Sublayer Protocol
• The 802.16 Frame Structure
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The 802.16 Protocol Stack
The 802.16 Protocol Stack.
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The 802.16 Physical Layer
The 802.16 transmission environment.
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The 802.16 Physical Layer (2)
Frames and time slots for time division duplexing.
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The 802.16 MAC Sublayer Protocol
Service Classes
• Constant bit rate service
• Real-time variable bit rate service
• Non-real-time variable bit rate service
• Best efforts service
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The 802.16 Frame Structure
(a) A generic frame. (b) A bandwidth request frame.
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Bluetooth
• Bluetooth Architecture
• Bluetooth Applications
• The Bluetooth Protocol Stack
• The Bluetooth Radio Layer
• The Bluetooth Baseband Layer
• The Bluetooth L2CAP Layer
• The Bluetooth Frame Structure
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Bluetooth Architecture
Two piconets can be connected to form a scatternet.
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Bluetooth Applications
The Bluetooth profiles.
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The Bluetooth Protocol Stack
The 802.15 version of the Bluetooth protocol architecture.
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The Bluetooth Frame Structure
A typical Bluetooth data frame.
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Data Link Layer Switching
• Bridges from 802.x to 802.y• Local Internetworking• Spanning Tree Bridges• Remote Bridges• Repeaters, Hubs, Bridges, Switches, Routers, Gateways• Virtual LANs
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Data Link Layer Switching
Multiple LANs connected by a backbone to handle a total load higher than the capacity of a single LAN.
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Bridges from 802.x to 802.y
Operation of a LAN bridge from 802.11 to 802.3.
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Bridges from 802.x to 802.y (2)
The IEEE 802 frame formats. The drawing is not to scale.
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Local Internetworking
A configuration with four LANs and two bridges.
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Spanning Tree Bridges
Two parallel transparent bridges.
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Spanning Tree Bridges (2)
(a) Interconnected LANs. (b) A spanning tree covering the LANs. The dotted lines are not part of the spanning tree.
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Remote Bridges
Remote bridges can be used to interconnect distant LANs.
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Repeaters, Hubs, Bridges, Switches, Routers and Gateways
(a) Which device is in which layer.
(b) Frames, packets, and headers.
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Repeaters, Hubs, Bridges, Switches, Routers and Gateways (2)
(a) A hub. (b) A bridge. (c) a switch.
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Virtual LANs
A building with centralized wiring using hubs and a switch.
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Virtual LANs (2)
(a) Four physical LANs organized into two VLANs, gray and white, by two bridges. (b) The same 15 machines organized into two VLANs by switches.
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The IEEE 802.1Q Standard
Transition from legacy Ethernet to VLAN-aware Ethernet. The shaded symbols are VLAN aware. The empty ones are not.
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The IEEE 802.1Q Standard (2)
The 802.3 (legacy) and 802.1Q Ethernet frame formats.
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Summary
Channel allocation methods and systems for a common channel.