计算机网络复习ppt市公开课一等奖百校联赛优质课金奖名师赛课获奖课件.ppt

1、单击此处编辑母版标题样式,单击此处编辑母版文本样式,第二级,第三级,第四级,第五级,*,Computer Networks,*,本资料仅供参考，不能作为科学依据。谢谢。本资料仅供参考，不能作为科学依据。本资料仅供参考，不能作为科学依据。谢谢。本资料仅供参考，不能作为科学依据。,Computer Networks计算机网络,1/105,6/20/2025,1,Computer Networks,时间安排,答疑时间：,18周周三、19周周一，早晨10:00-12:00,期末考试：,19周周三(06月27日)14:00-16:00，厚209,试验：19周周四20周周二,2/105,6/20/2025

2、2,Computer Networks,What is a Computer Network?,Computer Network is an interconnected collection of autonomous(,自治,)computers connected by a single technology.,The,Internet,is a network of networks.,3/105,6/20/2025,3,Computer Networks,Classification of Networks,by scale,LAN,WAN and MAN,by topology,

3、Bus,Star,Ring and Tree,by switching approach,Circuit switching and Packet switching,by transmission media,Wireless network and Wired network,4/105,6/20/2025,4,Computer Networks,Circuit Switching,电路交换,Link bandwidth,switch capacity,Dedicated resources with no sharing,Guaranteed transmission capacity,

4、Call setup required,End-to-end resources reserved for“call”,5/105,6/20/2025,5,Computer Networks,Circuit Switching,电路交换,Capacity of medium(媒体,介质)exceeds the capacity required for transmission of a single signal,How can we improve“efficiency”?,Lets,multiplex(复用),.,Divide link bandwidth into“pieces”:,F

5、DM(Frequency Division Multiplexing 频分复用),TDM(Time Division Multiplexing 时分复用),6/105,6/20/2025,6,Computer Networks,Circuit Switching:FDM and TDM,FDM,频分多路复用,frequency,time,TDM,时分多路复用,frequency,time,4 users,Example:,partial link,bandwidth,Time slot(时隙),7/105,6/20/2025,7,Computer Networks,Packet Switchi

6、ng,分组交换,source breaks long messages into smaller“packets(,数据包，数据分组,)”,packets,share,network resources,each packet uses full link bandwidth,“store-and-forward(,存放转发,)”transmission,8/105,6/20/2025,8,Computer Networks,A,C,E,B,D,H,1,H,3,H,5,H,6,H,4,H,2,分组交换网示意图,访问结点,用户子网,通信子网,转接结点,链路,9/105,6/20/2025,9,C

7、omputer Networks,Packet Switching:Statistical Multiplexing,Sequence of A&B packets does not have fixed pattern,statistical multiplexing,统计多路复用,.,A,B,C,10 Mbs,Ethernet,1.5 Mbs,D,E,statistical multiplexing,Queue(,队列,)of packets waiting for output link,10/105,6/20/2025,10,Computer Networks,How do loss

8、and delay occur?,packets,queue,in router buffers,packet arrival rate to link exceeds output link capacity,packets queue,wait for turn,if queue is full,arriving packets dropped(Drop-Tail),A,B,packet being transmitted,(delay),packets queueing,(delay),free(available)buffers:arriving packets,dropped(,lo

9、ss,)if no free buffers,11/105,6/20/2025,11,Computer Networks,d,proc,=processing delay(处理时延),typically a few microsecs or less,d,queue,=queuing delay(排队时延),depends on congestion,d,trans,=transmission delay(发送时延),=L/R,significant for low-speed links,d,prop,=propagation delay(传输时延),a few microsecs to h

10、undreds of msecs,Four sources of packet delay,12/105,6/20/2025,12,Computer Networks,Nodal delay,总时延=处理时延+排队时延+发送时延+传输时延,13/105,6/20/2025,13,Computer Networks,Packet switching vs.Circuit switching,Packet switching is great for,bursty data,(突发性数据),resource sharing,Packet switching causes,excessive(额外)

11、congestion,packet delay and loss,protocols needed for reliable data transfer,congestion control,Is packet switching a“slam dunk”winner?,14/105,6/20/2025,14,Computer Networks,Network Architecture,网络体系结构,OSI(Open System Interconnection)is an ISO standard for worldwide communications,The,OSI Reference

12、Model defines a networking framework for implementing protocols in seven layers.,15/105,6/20/2025,15,Computer Networks,The ISO/OSI Reference Models,16/105,6/20/2025,16,Computer Networks,A,protocol,is the special set of rules used to control communication between,entities.,Based on the communication

13、between two entities controlled by protocols,one layer provides,services,to another layer above.,Network Architecture,网络体系结构,17/105,6/20/2025,17,Computer Networks,Relationship between a service and a protocol.,Network Architecture,网络体系结构,18/105,6/20/2025,18,Computer Networks,Application,Presentation

14、Session,Transport,Network,Data Link,Physical,Application,Presentation,Session,Transport,Network,Data Link,Physical,Physical,Control is passed from one layer to the next,starting at the application layer in one station,proceeding to the bottom layer,over the channel to the next station and back up t

15、he hierarchy.,Network Architecture,网络体系结构,19/105,6/20/2025,19,Computer Networks,Physical Layer,how to transmit bits,to the channel,；,Data Link Layer,how to transmit frames,to adjacent,node,(neighbour),over a single link,；,Network Layer,how to route packets,to a host on the other side,across network(

16、s),Network Architecture,网络体系结构,20/105,6/20/2025,20,Computer Networks,Transport Layer,how to send data segments to a process running on another host,across network(s),Session Layer,manage connections,Presentation Layer,encode/decode messages,security,encryption,Application Layer,everything else!,Netw

17、ork Architecture,网络体系结构,21/105,6/20/2025,21,Computer Networks,Comparison:OSI and TCP/IP,Physical,Data Link,Network,Transport,Session,Presentation,Application,Network Interface,IP,Transport,Application,22/105,6/20/2025,22,Computer Networks,TCP/IP Architecture,The TCP/IP Architecture was defined by In

18、ternet Engineering Task Force(IETF),Transparent Design,Everything over IP;,IP over Everything;,Best-effort.,FTP,TCP,UDP,IP,NET,1,NET,2,NET,n,HTTP,Multi-,media,TFTP,23/105,6/20/2025,23,Computer Networks,Encapsulation,App.,TCP,IP,Ethernet driver,User Data,User Data,Com.,Application PDU,Application PDU

19、TcpH,TcpH,IpH,Application PDU,TcpH,IpH,EthH,Eth.T,message,TCP segment,IP packet,Ethernet frame,Ethernet,24/105,6/20/2025,24,Computer Networks,De-capsulation,App.,TCP,IP,Ethernet driver,User Data,User Data,Com.,Application PDU,Application PDU,TcpH,TcpH,IpH,Application PDU,TcpH,IpH,EthH,Eth.T,message

20、TCP segment,IP packet,Ethernet frame,Ethernet,25/105,6/20/2025,25,Computer Networks,Encapsulation and Demultiplexing,26/105,6/20/2025,26,Computer Networks,Encapsulation and Demultiplexing:Ethernet Header,27/105,6/20/2025,27,Computer Networks,Encapsulation and Demultiplexing:IP Header,28/105,6/20/20

21、25,28,Computer Networks,Encapsulation and Demultiplexing:IP Header,29/105,6/20/2025,29,Computer Networks,Encapsulation and Demultiplexing:TCP Header,Option:,maximum segment size,30/105,6/20/2025,30,Computer Networks,Encapsulation and Demultiplexing:TCP Header,31/105,6/20/2025,31,Computer Networks,Me

22、chanical and electrical specifications,Encoding/Dencoding techniques,Propagation Effects:,Attenuation衰减,Distortion失真,Noise噪音,Interference冲突,The Physical Layer,32/105,6/20/2025,32,Computer Networks,Bandwidth带宽:Capacity of a media to carry information,A channel is a portion of the total bandwidth used

23、 for a specific purpose.,Simplex channel 单工信道,Half-duplex channel 半双工信道,Full-duplex channel 全双工信道.,The Physical Layer,33/105,6/20/2025,33,Computer Networks,Wired Transmission Media:,Twisted pair 双绞线,Coaxial cable同轴电缆,Fiber optic cable光缆,Wireless Transmission Media:,radio wave,无线电波,microwave,微波,(incl

24、uding satellite),infrared,红外线,The Physical Layer,34/105,6/20/2025,34,Computer Networks,The data link layer is responsible for efficient reliable communication across a physical link.,LOGICAL LINK sublayer(LLC),MEDIA ACCESS sublayer(MAC),Ethernet (IEEE802.3),Wireless LAN(IEEE802.11),The Data Link Lay

25、er,35/105,6/20/2025,35,Computer Networks,The Data Link Layer,OSI,Application,Presentation,Session,Transport,Network,Data Link,Physical,Framing,Error control,Flow control,Transmission/reception of frames,MEDIA ACCESS sublayer,LOGICAL LINK sublayer,36/105,6/20/2025,36,Computer Networks,Sender A,Receiv

26、er B,frame1,ack,frame2,重发,frame2,ack,nak,frame3,Data Link Protocols,Protocols in which the sender sends one frame and then waits for an acknowledgement before proceeding are called stop-and-wait.,37/105,6/20/2025,37,Computer Networks,Stop and Wait Protocols,停顿等候协议,Problem:,B sends a NAK frame back t

27、o A,after having received a data frame with errors.What happens if A always gets NAK frames.,Solution:,set a max.number for retransmission times,e.g.,8.If not successful,gives an error report to the above layer.,38/105,6/20/2025,38,Computer Networks,Stop and Wait Protocols,停顿等候协议,Problem:,Due to poo

28、r link conditions,the frame sent by A doesnt get B at all.It gets lost!In this case,A will never get any,response from the peer.,Solution:,schedule a timeout timer to expire at some time after the ACK should have been returned.If the timer goes off,retransmit the frame.,39/105,6/20/2025,39,Computer

29、Networks,Stop and Wait Protocols,停顿等候协议,Problem:,Retransmissions may introduce duplicate frames received by B,Solution:,assign sequence numbers,序号,for every frame,so that B can distinguish between new frames and old copies.However,an ACK for the duplicated frame is still,necessary!,40/105,6/20/2025,

30、40,Computer Networks,A protocol,in which the sender waits for a positive acknowledgement before advancing to the next data item,are often called,ARQ,(,A,utomatic,R,epeat re,Q,uest).,The ARQ protocol is very simple；,Unfortunately,it gives poor link utilization.,Stop and Wait Protocols,停顿等候协议,41/105,6

31、/20/2025,41,Computer Networks,Stop-and-Wait Protocol Performance,Propagation delay,:,defined as the delay between transmission and receipt of,frame,s between hosts,can be used to estimate timeout period,Frame transmission time,Acknowledgment transmission time,Total delay,(ignoring ACK transmission t

32、ime):,A,B,42/105,6/20/2025,42,Computer Networks,Of this time,only,t,frame,is actually spent transmitting data.Therefore,the efficiency or utilization is:,If we define,a,:,then,Stop-and-Wait Protocol Performance,43/105,6/20/2025,43,Computer Networks,目标：限制发送方已经发出，但未被确认,数据帧数目。,发送窗口用来控制发送方流量。发送窗口内帧是允许发送

33、帧，而不考虑有没有收到接收方确实认。,0,1,2,3,4,5,6,7,8,9,10,滑动窗口协议,(Sliding Window Protocols),44/105,6/20/2025,44,Computer Networks,0,1,2,3,4,5,6,7,8,9,发送方,接收方,N=5,10,滑动窗口协议,(Sliding Window Protocols),45/105,6/20/2025,45,Computer Networks,发送方,接收方,N=5,0,1,2,3,4,5,6,7,8,9,10,滑动窗口协议,(Sliding Window Protocols),46/105,6/2

34、0/2025,46,Computer Networks,0,1,2,3,4,5,6,7,8,9,发送方,接收方,10,N=5,滑动窗口协议,(Sliding Window Protocols),47/105,6/20/2025,47,Computer Networks,PPP,是当前最流行数据链路层协议,PPP is the most popular protocol for the Data link layer,48/105,6/20/2025,48,Computer Networks,Ethernet,以太网,The 802.3 standard describes the operat

35、ion of the MAC sub-layer in a bus LAN that uses CSMA/CD,Mechanism for Channel Access信道访问机制CSMA/CD,：,C,arrier,S,ense,M,ultiple,A,ccess with,C,ollision,D,etection载波侦听多路存取/碰撞检测,49/105,6/20/2025,49,Computer Networks,CSMA,载波侦听、多路存取,Carrier Sense,:,With carrier sensing,A host will only transmit its own fr

36、ames when it cannot hear any data being transmitted by other hosts.,Multiple Access,:,Multiple hosts share a single channel,载波侦听,:每个主机在发送数据之前首先监听信道，只有当信道空闲时才发送数据帧；假如信道忙，暂不发送（退避一个随机时间），以免发生碰撞；,多路存取:,多个主机共享信道。,50/105,6/20/2025,50,Computer Networks,CSMA/CD 载波侦听多路存取/冲突检测,CSMA with,Collision Detection,Th

37、e host always listens to the cable while it is transmitting data.,It aborts transmission as soon as it detects a collision,It tries later again,with a“,binary exponential back-off algorithm,”,冲突检测,:在发送数据过程中一直监听信道，一旦冲突马上中止发送，退避一个随机时间(二进制指数退避算法)，再重新发送。,51/105,6/20/2025,51,Computer Networks,Ethernet,以太

38、网,When a host transmits a frame,there is a small chance that a collision will occur,i.e.non-deterministic,不确定性,The frame should be longer enough for sender to detect the collision,52/105,6/20/2025,52,Computer Networks,Ethernet,以太网,This means that the frame must be of a minimum length.,The minimum fr

39、ame size is related to,the distance which the network spans;,the type of media being used;,the number of repeaters,中继器,which the signal may have to pass through to reach the furthest part of the LAN.,53/105,6/20/2025,53,Computer Networks,Ethernet,以太网,Ethernet defines a minimum frame size,i.e.no fram

40、e may have less than 46 bytes of payload.,54/105,6/20/2025,54,Computer Networks,Ethernet Bandwidth,Ethernet:10Mbps,FastEthernet:100Mbps,Gigabit Ethernet:1Gbps,55/105,6/20/2025,55,Computer Networks,Ethernet Cabling,“10”代表信号传输速率为10Mbps。,“BASE”代表是基带信号。,“5”表示每一段电缆最大长度为500m。,“2”表示每一段电缆最大长度为200m（实际上是185m)

41、T”代表双绞线,“”代表光缆,56/105,6/20/2025,56,Computer Networks,Ethernet Cabling,In option of 10Base-T Ethernet Cabling,all stations have a cable running to a central hub,集线器,in which they are all connected electrically.,In this case,the,physical topology,of the LAN is,star,however,the,logical topology,is s

42、till,bus,.,57/105,6/20/2025,57,Computer Networks,Ethernet Cabling,Stations must compete the shared channel using CSMA/CD before transmit frames.,Only one station can transmit at a time,Otherwise,a collision will occur!,58/105,6/20/2025,58,Computer Networks,双绞线Ethernet总是和集线器配合使用。,术语：10Base-T Ethernet

43、10”代表10Mbit/s数据率。,“T”代表,双绞线星型网,。,用集线器Hub来连接站点。,物理上是星型网，但逻辑上仍是总线网,。各站仍使用CSMA/CD协议，并共享逻辑上总线。,各站必须竞争公共信道，并在任何时刻只有一个站能够发送数据。不然发生碰撞！,Ethernet Cabling,59/105,6/20/2025,59,Computer Networks,Ethernet Extension,At the Physical Layer,Hub集线器,Repeaters中继器,At the Data Link Layer,Bridge(网桥),Switch(交换机),At the N

44、etwork Layer,Internetworking,60/105,6/20/2025,60,Computer Networks,Wireless LAN,无线局域网,IEEE 802.11 defines CSMA/CA protocol.,CSMA part is the same as in 802.3 Ethernet,CA stands for Collision Avoidance,冲突防止,How CSMA/CA works:,Device wanting to transmit senses the medium(Air),If medium is busy defers,

45、If medium is free for certain period,transmits frame,61/105,6/20/2025,61,Computer Networks,avoid collisions:two or more nodes,transmitting at same time,802.11:CSMA sense(监听)before transmitting,dont collide with ongoing transmission by other node,CSMA/CA,载波监听多路存取/冲突防止,62/105,6/20/2025,62,Computer Net

46、works,802.11 sender,if sense channel idle,for DIFS,then,transmit entire frame(no CD),802.11 receiver,-if frame received OK,return ACK after SIFS(ACK needed due to hidden terminal problem),sender,receiver,DIFS,data,SIFS,ACK,CSMA/CA,载波监听多路存取/冲突防止,63/105,6/20/2025,63,Computer Networks,802.11:,no,collis

47、ion detection(没有冲突检测)!,cant sense all collisions in any case:hidden terminal隐蔽终端,fading信号衰减,goal:,avoid collisions:,CSMA/C(ollision)A(voidance),A,B,C,A,B,C,As signal,strength,space,Cs signal,strength,CSMA/CA,载波监听多路存取/冲突防止,64/105,6/20/2025,64,Computer Networks,Wireless LAN,无线局域网,By sending Request to

48、 Send(RTS),sender is allowed to“reserve”channel rather than random access of data frames:avoid collisions of long data frames,65/105,6/20/2025,65,Computer Networks,Collision Avoidance(,冲突防止,):RTS/CTS exchange,A,B,time,RTS(A),RTS(B),RTS(A),CTS(A),CTS(A),DATA(A),ACK(A),ACK(A),reservation collision,def

49、er,C,66/105,6/20/2025,66,Computer Networks,Infrastructure mode,Access Point,(AP),Internet,IEEE802.11 WLAN,67/105,6/20/2025,67,Computer Networks,Ad Hoc mode,IEEE802.11 WLAN,68/105,6/20/2025,68,Computer Networks,The network layer,based on services provided by the data link layer,provides a end-to-end

50、transparent path for end-to-end transparent data transmission across networks.,The Network Layer,69/105,6/20/2025,69,Computer Networks,The functions of network layer：,Store-and-Forward Packet,数据包存放转发,A host with a packet to send transmits it to the nearest router;,The packet is stored there until it