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Well rivan systems has developed a one week basic to intermeidate approach to learning all three systems and our laboratory allows you to route call between these systems. Sweet.
When you enrol to our “you can find these only in here” course you get these topics squeezed to your brain:
1. Introduction to Packet Voice Technologies
- Traditional telephony networks
- Packet voice networks
- IP data networks
2. Analog and Digital Voice Connections
- Basics of analog and digital voice
- Processes and standards of voice digitization, compression, and digital signaling
- Signaling methods
- ISDN voice interfaces
- Signaling between PBXs
- Common Channel Signaling (CCS) systems
- Internetworking of signaling systems
- Fax and modem usage over a VoIP network
3. Configuring Voice Interfaces
- Analog and digital voice interfaces
- Analog and digital voice ports for optimal voice quality
4. Voice Dial Peers
- Call flows
- Inbound and outbound dial peers
- Application of voice dial peers
- Special purpose connections
5. Introduction to Voice over IP
- Fundamentals of VoIP
- Differences and similarities between VoIP and Voice over other technologies, such as Frame Relay or ATM
- Roles of Gateways in integrating VoIP with the traditional voice technologies found in enterprise and service provider networks
- VoIP protocol stack
- Applied headers
- Use of Real-Time Transport Protocol compressed (cRTP)
- Bandwidth requirements for various codecs and data links
- Methods to reduce bandwidth consumption
- Implications of implementing security measures in VoIP networks
6. Voice over IP Signaling and Call Control
- Types of various signaling
- Call control models
- Call control services
- Functional components of H.323
- Functional components of SIP
- Functional components of MGCP
- H.323, SIP, and MGCP call control models
7. Improving and Maintaining Voice Quality
- Voice Quality Measurement including codec choice, which affects quality
- Transporting real-time voice in a non-real-time IP internetwork
- Quality of Service (QoS) functional areas and tools
- Campus networks
- WAN
- Effect of network design on QoS
- Overcoming jitter
- Overcoming delay
- Call Admission Control tools
- Resource Reservation Protocol (RSVP)
- Busy-hour bandwidth allocation for both voice and data traffic
8. Scalable Numbering and Applications
- Implementing a scalable numbering plan
- Cost-saving applications
And
1. Introduction to IP QoS
- The Need for QoS
- Understanding QoS
- Implementing QoS
2. The Building Blocks of IP QoS
- Models for Implementing QoS
- The Differentiated Services Module
- IP QoS Mechanisms
- Case Study: QoS Mechanisms
- Case Study: The Life of a Packet
3. Introduction to Modular QoS CLI and AutoQoS
- Introducing Modular QoS CLI
- Introducing AutoQoS
4. Classification and Marking
- Classification and Marking Overview
- Case Study: Classification and Marking
- Using MQC for Classification
- Using MQC for Class-Based Marking
- Using NBAR for Classification
- Configuring QoS Pre-Classify
- Configuring QoS Policy Propagation Through BGP
- Configuring LAN Classification and Marking
5. Congestion Management
- Introduction to Queuing
- Queuing Implementations
- FIFO and WFQ
- CBWFQ and LLQ
- LAN Congestion Management
6. Congestion Avoidance
- Introduction to Congestion Avoidance
- Introduction to RED
- Configuring Class-Based Weighted RED
- Case Study: WRED Traffic Profiles
- Configuring Explicit Congestion Notification
7. Traffic Policing and Shaping
- Traffic Policing and Shaping Overview
- Configuring Class-Based Policing
- Configuring Class-Based Shaping
- Configuring Class-Based Shaping on Frame Relay Interfaces
8. Link Efficiency Mechanisms
- Link Efficiency Mechanisms Overview
- Class-Based Header Compression
- Link Fragmentation and Interleaving
9. QoS Best Practices
- Traffic Classification Best Practices
Rivan systems use the most advance equipment to deliver our VoIP courses. Our competitors simply drool in envy. Nice.
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