- course id
- EOIP
- duration
- 5 day(s)
- Aimed At
-
All telecommunications and IT professionals, managers, consultants, engineers and supply chain personnel implementing, maintaining, supporting or procuring IP products and/or services.
- Prerequisites
-
Basic knowledge of the network layers and protocols including a rudimentary understanding of IP concepts.
- Course in a Nutshell
-
Everything over IP is an intensive workshop that includes key EoIP concepts, architecture, and in-depth labs that reveal the intricacies and internal details of underlying protocols and systems.
Covered are: How to successfully use IPv4 and IPv6 networks to deliver data, voice, video, signaling and telemetry information (EoIP), migration, architectures and routing, Virtual Private Networks (VPN), Quality of Service (QoS) and Experience (QoE), IPsec and security, cryptography, VoIP and SIP, special challenges posed by voice and video over IP, unified communications, Web 2.0, fixed/mobile convergence, and emerging communications.
The course relies heavily on instructor/class interaction and lab exercises to make sure that you get the most out of the class and can apply the material back on your job. To be able to participate in the hands-on activities, please bring a wireless-enabled laptop to the class. If using a company computer, please make sure beforehand you have full administrative rights to load new software on the computer.
- Customize It!
-
Customize this course to your exact requirements at little to no added cost. We can adjust the topics and level of details to suit your audience, whether technical, managerial, marketing/sales, or procurement -- and with or without prior exposure to the IP issues. If the participants are well versed in IPv4 and IPv6, the course can be shorthand to three days.
- Learn How To
-
- Interpret and troubleshoot IPv4, IPv6 and related protocols
- Understand, explain, design and troubleshoot routed IP architectures
- Integrate data, voice, video, signaling and telemetry on a single IP infrastructure
- Secure IP sessions and streams in a multi-user IP network environment
- Assure that subscribers achieve desired Quality of Service (QoS) and Quality of Experience (QoE) goals
- Migrate existing networks into multimedia unified communications systems
- Course Outline
-
Day 1: IP Concepts & IPv4 Protocol
Packet Networking Concepts
- Circuits, Packets and Cells
- Multiplexing & Addressing
- TDM and Time Slots
- TDM and Frequencies
- Stat Muxing & Addresses: Virtual Connection Identifiers (VCIs), Classful and Classless IP Addressing
- Error Handling
- Discard
- Retransmission
- Forward Error Correction (FEC)
- Routing & Forwarding
- Packets, Flows and Sessions
- Broadband vs Narrowband
- (Very) Brief History of IP
- IPv4 & IPv6 Highlights
- NIST Profile for IPv6 in the US Government
- IP Global View & Future
IPv4 Protocol
- Lower OSI Layers
- Upper OSI Layers
- Layer 3 Functionality
- End Systems
- Intermediate Systems
- IP v4 Header Fields and Functions
- Protocol Processing
- ICMP
- PING
- TRACE ROUTE
Hands-on IPv4 Lab
- Protocol Analyzer Overview
- Load and Run WireShark Protocol Analyzer
- WireShark Familiarity Exercise
- IPv4 Protocol Trace Analysis
- Analysis and Reporting Exercise
- Independent Discovery, Time Permitting
Day 1 Review
Day 2: IPv6 Protocol, IP Routing and QoS
IPv6 Protocol Overview
- Need for IPv6
- Interim Fixes/Patches to IPv4
- Dynamic Host Configuration Protocol (DHCP)
- Network Address Translation (NAT) and Port Address Translation (PAT)
- Classless Inter-Domain Routing (CIDR)
- Addressing, Structure and Address Space
- Unicast, Multicast and Anycast
- Discovery: Neighbor and Multicast Listener
- Autoconfiguration and Name Resolution
- ICMPv6 and Management Tools
- Header Format
- Migration
- IPv6 Protocol Trace Analysis
- Analysis and Reporting Exercise
- Independent Discovery, Time Permitting
- Routing Basics
- Topology Discovery
- Routing Tables
- Interior and Exterior Routing Protocols
- Router Simulation Using Class Participants
- Router Functions, Routing Tables
- Route Failures and Route Resilience
- General QoS Concepts
- IPv4 and IPv6 Variations
- QoS Models
- Prioritization
- Bandwidth Reservation
- Route Optimization
- Hybrid(s)
- QoS Issues in Multimedia Networks
Day 2 Review
Day 3: IP Security and IPSec
IP Security and IPSec Concepts
- Introductions: Bob, Alice, Malory & Eve
- Crypto Concepts
- Keys and Key Management
- Public/Private Key Infrastructure
- Key Recovery
- Tunnels and L2TPv3
- Virtual Private Networks (VPNs)
- IPSec Architectural Model
- L2TPv3 Tunnel Setup
- Logical Multimedia Connections
- Lab Includes PPP, L2TPv3, PAP and CHAP
- Encapsulating Security Payload (ESP)
- Authentication Header (AH)
- Internet Key Exchange (IKE)
- IETF IPSec Roadmap
- IPSec Implementation
- IPSec Modes
- Security Associations (SAs)
- IPSec Processing
- ESP Header
- ESP Modes
- ESP Procedures
- AH Header
- AH Modes
- AH Procedures
- ISAKMP
- Public/Private Key Exchange Systems
- Diffie-Hellman and Variations
- Internet Key Exchange (IKE)
- ISAKMP Domain of Interpretation (DOI)
- ESP & AH Headers
- ISAKMP/IKE and Security Associations
- Independent Discovery, Time Permitting
Day 3 Review
Day 4: Everything over IP
Data, Voice, Video, Signaling & Telemetry
Brief History
- H.323 vs SIP vs Skinny vs TIPHON
- SIP Wins!
- H.323
- SIP / SIP-T
- Skinny
- Megaco
- MGCP
- SIP in Multimedia
- SIP Servers
- Proxy Servers
- Redirect Servers
- Location and Directory Servers
- Registration
- Locating SIP Servers
- SIP Messages and Procedures
- Message Structure
- Requests and Responses
- Addressing
- Completion/Error Codes
- Basic Call Flows and Service Examples
- Media Streams/Packets in SIP Sessions
- RTP/RTCP
- Media Coding
- Session Description Protocol (SDP)
- SIP Protocol Operation
- Call Set-Up
- Invite
- SDP
- Media Streams/Packets
- RTP/RTCP
- Media Coding
- Content Monitoring
- Call Tear-Down
- SIP Trunking
- Uses
- Protocol and Operation
- Load and Run ClearSight Protocol Analyzer
- Call Set-Up, Media Transfer and Tear-Down
- Independent Discovery, Time Permitting
Day 4 Review
Day 5: Unified Communications and QoE
Unified Communications Overview
Inside UC Part 1: Sessions
- Session Initiation Protocol (SIP)
- SIP SIMPLE
- Session Description Protocol (SDP)
- RSVP
- Call Admission Control
- Quality of Service (QoS)
- Quality of Experience (QoE)
- Location Tracking
- Presence Applications/SIP Presence Engine (SPE)
- User Location
- Session Border Controller (SBC)
- HTTP/sHTTP
- HTML/XML
- FTP/TFTP
- SIP Voice
- SCCP/Cisco Skinny
- H.323
- MGCP
- Videoconferencing Rooms
- Unified IP Phones
- Unified Video Advantage
- Multipoint/Multimedia Control Unit
- H.320 / H.323
- SCCP
- SIP
- Integration
- SMTP
- Jabber
- Outlook
- Webex and Web Conferencing
- TelePresence
- Privacy and Security
- Certificates and Certificate Authorities
- Encryption
- Key Management, PKI, pKI
- SIP Proxy/Secure Authentication
- HTTP Digest Authentication
- Secure Real Time Protocol
- Cisco Remote Party ID (RPID)
- QoS vs QoE and Importance of both
- Expectations
- Age/Gender of Speaker/Listener
- Speaker/Listener Familiarity
- Native Language
- Prior Experience
- Network Requirements
- Voice Algorithm
- Voice Compression
- Silence Suppression
- Echo Cancellation
- Tandem Hops/Multiple Encoding
Day 5 Review
Course Wrap-up: Final Words, Q/A, Evaluations
Eogogics Offers a Week of Hands-on VoIP/SIP Workshops Starting Late January
