Multimedia Applications over Packet Networks
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1 Multimedia Networking and Quality of Service Mario Baldi Technical Univeristy of Torino Computer Engineering Department staff.polito.it/mario.baldi Nota di Copyright This set of transparencies, hereinafter referred to as slides, is protected by copyright laws and provisions of International Treaties. The title and copyright regarding the slides (including, but not limited to, each and every image, photography, animation, video, audio, music and text) are property of the authors specified on page 1. The slides may be reproduced and used freely by research institutes, schools and Universities for non-profit institutional purposes. In such cases, no authorization is requested. Any total or partial use or reproduction (including, but not limited to, reproduction on magnetic media, computer networks, and printed reproduction) is forbidden, unless explicitly authorized by the authors by means of written license. Information included in these slides is deemed as accurate at the date of publication. Such information is supplied for merely educational purposes and may not be used in designing systems, products, networks, etc. In any case, these slides are subject to changes without any previous notice. The authors do not assume any responsibility for the contents of these slides (including, but not limited to, accuracy, completeness, enforceability, updated-ness of information hereinafter provided). In any case, accordance with information hereinafter included must not be declared. In any case, this copyright notice must never be removed and must be reported even in partial uses. Multimedia&QoS_en - 2 Outline Multimedia applications Requirements and consequences on the network Quality of service techniques Queuing Access control Quality of service approaches IntServ and DiffServ Multimedia Applications over Packet Networks Multimedia&QoS_en - 3 Multimedia&QoS_en - 4
2 What is Multimedia? Simultaneous deployment of various media Text Soud Images Video Media Coding Sampling and quantization Loss of quality Un-noticeable Coding of samples Possibility of playing back without loss of quality Multimedia&QoS_en - 5 Multimedia&QoS_en - 6 Compression Image Coding Redundancy elimination Spatial Temporal Possible information loss Loss of quality JPEG JPEG2000 GIF TIFF Multimedia&QoS_en - 7 Multimedia&QoS_en - 8
3 Video Coding MPEG1 Low quality 1.5 Mb/s MPEG2 High quality (DVD) 3.6 Mb/s Video Coding MPEG4 Coding and compression based on identification of objects H.261 Videoconference Low quality Low bandwidth Multimedia&QoS_en - 9 Multimedia&QoS_en - 10 Voice Coding Audio Coding AVI PCM (64 Kb/s 56 Kb/s) GSM (13 Kb/s) MP3 (MPEG layer 3 - audio) 128 Kb/s or 112 Kb/s G.729 (8 Kb/s) CD equivalent quality G723.3 (6.4 Kb/s & 5.3 Kb/s) Multimedia&QoS_en - 11 Multimedia&QoS_en - 12
4 Audio Coding MP3 Particularly robust Each fragment can be played back independently from the others Suitable to the Internet Coding Standards: Which one to choose? The coding choice depends on Processing capability of terminals Resource availability in the network Type of application Live (real-time) Store&retrieve Multimedia&QoS_en - 13 Multimedia&QoS_en - 14 Networked Multimedia Applications Networked Multimedia Applications World Wide Web Video broadcasting Video on Demand Telephony Radio Jukebox service Teleconference Interactive distributed games Distance learning Virtual reality Multimedia&QoS_en - 15 Multimedia&QoS_en - 16
5 Networked Multimedia Applications Distinctive Features: Streaming Continuous flow of data Maybe just one media, but different features with respect to traditional applications The profile of generated flow must be the same as the profile of the flow to be played back Continuous playout Very different from traditional applications Multimedia&QoS_en - 17 Multimedia&QoS_en - 18 Distinctive Features: Interactivity Distinctive Features With another human Large transmission bandwidth With a computer Short response time Group communications Many to many communications Multimedia&QoS_en - 19 Multimedia&QoS_en - 20
6 Streaming Requirements on the network Limited loss Many applications tolerate loss to some extent Constant delays Network Multimedia&QoS_en - 21 Multimedia&QoS_en - 22 Interactivity Large Transmission Bandwidth Low delay Verbal interaction: below 100 ~ 150 ms one way High resource availability Transmission capacity Memory in network nodes (buffers) Processing power (routing, etc.) Switching Technology advances help Multimedia&QoS_en - 23 Multimedia&QoS_en - 24
7 Group Communications Delay: That s the Problem!! Multicast transmission services IP multicasting MBone Multimedia applications are also generally called real-time applications Server with reflector functionality or multiconference unit Multimedia&QoS_en - 25 Multimedia&QoS_en - 26 Delay: What s the Problem? Countermeasures in End-Systems Compensate delay variations Replay buffer Fixed dimension for non-interactive applications It is different depending on the instantaneous load on network nodes Adaptive for interactive applications Multimedia&QoS_en - 27 Multimedia&QoS_en - 28
8 Countermeasures in End-Systems The only way to compensate for delay variations is to conform each data unit to maximum delay End-to-end delay increase Critical for interactive applications (telephony, conferencing, games, virtual reality) Countermeasures in End-Systems Adaptation to network conditions Decrease traffic generated when quality of session decreases Adaptability of applications is not unlimited Multimedia&QoS_en - 29 Multimedia&QoS_en - 30 Information Exchange Tools Time data RTP - Real-time Transport Protocol Time stamp Communication state RTCP - RTP Control Protocol Multimedia&QoS_en - 31 Multimedia&QoS_en - 32
9 Adaptive Coding Layered Coding Quantization granularity Compression parameters Feedback E.g., RTCP Base Layer Transmitted at higher priority Resources are possibly reserved Additional layers enable quality improvement Transmitted at lower priority Possibly as best-effort Multimedia&QoS_en - 33 Multimedia&QoS_en - 34 Countermeasures in the Network Control on Traffic Traffic classification Sophisticated scheduling algorithms WFQ, RR, WRR, CBQ Control on traffic entering the network At various levels (QoS routing) Packet level Shaping/policing Call/flow level Signalling with resource reservation RSVP Resource reservation Protocol (IP) UNI User Network Interface (ATM) Multimedia&QoS_en - 35 Multimedia&QoS_en - 36
10 Control on Traffic Countermeasures in the Network A priori Network engineering Network dimensioning according to expected traffic Limit on the number of users Traffic engineering Controlled distribution of traffic across the network Multimedia&QoS_en - 37 Multimedia&QoS_en - 38 Collateral Problems RTP Greedy Applications UDP at the transport layer UDP IP TCP adapts to traffic conditions, UDP ignores them Real-time requirements are usually incompatible with TCP retransmission timing An originally lost or corrupted packet eventually reaching the destination is useless because it took too long Lost packets prevent delivery of following packets to applications Multimedia applications can harm the others Especially those based on TCP, that is polite Traffic segregation and policing (bandwidth shaper) Multimedia&QoS_en - 39 Multimedia&QoS_en - 40
11 Classification Tools for Quality of Service Support Classification Identifying packets to which quality is to be guaranteed in other words In which queue to store an incoming packet Multimedia&QoS_en - 41 Multimedia&QoS_en - 42 Classification Classification Based on information contained in the IP and TCP/UDP headers (quintuplet) Destination IP address Source IP address Transport protocol Destination port Source port Complex algorithms Hardware implementations ASIC: Application Specific Integrated Circuit CAM: Content Addressable Memory Multimedia&QoS_en - 43 Multimedia&QoS_en - 44
12 Simple Queuing FIFO (First In First Out) Tools for Quality of Service Support Queue TX Scheduling Transmitter Multimedia&QoS_en - 45 Multimedia&QoS_en - 46 Statistical Multiplexing Multiple Queues and Scheduling A A C B C Switch A C B C A TX Multimedia&QoS_en - 47 Multimedia&QoS_en - 48
13 Scheduling Algorithms Priority Queuing Round Robin Weighted Round Robin Class Based Queuing (CBQ) Weighted Fair Queuing (WFQ) Deadline queuing Jitter Earliest Due Date (non work-conserving) Queuing and Switching Output queuing The simplest solution but Switching capacity is a limited resource There is no guarantee for packets to be swithed as they arrive Multimedia&QoS_en - 49 Multimedia&QoS_en - 50 Switching Capacity Queuing and Switching Guaranteed immediate switching requires speed-up The transfer speed of the switching fabric is higher than the input link speed Particularly critical when operating with high capacity links Input queuing Distributed control (complex) Virtual output queuing Queues inside the switching fabric (distributed queuing) Multimedia&QoS_en - 51 Multimedia&QoS_en - 52
14 Are We Set? A A C B C Switch AB C B A C A C A B C A Tools for Quality of Service Support Control on Traffic Multimedia&QoS_en - 53 Multimedia&QoS_en - 54 Policing and shaping Leaky bucket Make sure that traffic entering the network has the expected profile Token bucket Non conformant packets are Delayed Made conformant Discarded Token bucket Leaky Bucket Set at a lower priority (possibly best effort) TX TX Multimedia&QoS_en - 55 Multimedia&QoS_en - 56
15 Call Admission Control (CAC) Signalling Description of generated traffic Description of required service Examples: RSVP e UNI ATM Resource Reservation QoS routing Finding a route with required resources Routing protocols distribute in real-time information on resource availability Very dynamic information Multimedia&QoS_en - 57 Multimedia&QoS_en - 58 QoS routing Routing decisions are based on resource availability information Not only on topological information Instability with connectionless data transfer E.g., PNNI (private network node interface) in ATM Cranckback Network engineering Traffic engineering Preventive actions Network is dimensioned for the (almost) worst case Statistics on user traffic Traffic matrix is determined Traffic distribution Multimedia&QoS_en - 59 Multimedia&QoS_en - 60
16 Network engineering Traffic engineering Network engineering Traffic engineering Actions throughout Network state is continuously monitored Network dimensioning and traffic matrix can be chenged if needed Distinctive properties Low efficiency in network resource utilization Simplicity and scalability Multimedia&QoS_en - 61 Multimedia&QoS_en - 62 Policy Defines general aspects of how the network functions Tools for Quality of Service Support Complementary Issues Determines specific aspects of how a device functions Queuing strategy Call admission control rules Leaky bucket parameters Multimedia&QoS_en - 63 Multimedia&QoS_en - 64
17 Flexibility: Policy Management A policy might depend on Type of traffic Time of day You don t want to have to configure every single device and to periodically change its configuration COPS (Common Open Policy Service) Automatic policy distribution Network devices retrieve policies from a server Distribution model A server actively installs policies into devices Provisioning model Multimedia&QoS_en - 65 Multimedia&QoS_en - 66 Internet s Ambitious Solution: Integrated Services (IntServ) Internet Quality of Service Support Frameworks IntServ and DiffServ Features Per-flow resource reservation RSVP: Resource reservation Protocol Guaranteed quality of service Per-flow queuing inside routers Multimedia&QoS_en - 67 Multimedia&QoS_en - 68
18 Internet s Ambitious Solution: Integrated Services (IntServ) Limits High complexity Low scalability Internet s Ambitious Solution: Integrated Services (IntServ) State of the art Standard completed Implemented by router vendors RSVP message handling Queuing algorithms (?) Unusable on a large scale (public networks) Multimedia&QoS_en - 69 Multimedia&QoS_en - 70 Lowering Ambitions: Differentiated Services (DiffServ) No quality of service guarantees No resource reservation Different service to different types (class) of traffic: class of service DS (DiffServ) field Per-class queuing Lowering Ambitions: Differentiated Services (DiffServ) How Network engineering Traffic engineering Access control at the boudaries Policing Multimedia&QoS_en - 71 Multimedia&QoS_en - 72
19 Lowering Ambitions: Differentiated Services (DiffServ) Features Low efficiency Large fraction of traffic is best- effort Simplicity and scalability Increasingly used IP telephony Multimedia&QoS_en - 73
Multimedia Networking and Quality of Service
Multimedia Networking and Quality of Service Mario Baldi Politecnico di Torino (Technical Univeristy of Torino) Department of Computer Engineering mario.baldi [at] polito.it +39 011 564 7067 staff.polito.it/mario.baldi
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