CCIE Collaboration v3.1 Training
Overview

The Cisco CCIE Collaboration (v3.1) Practical Exam is an eight-hour, hands-on exam that requires a candidate to plan, design, implement, operate, and optimize complex enterprise Collaboration solutions.

$1499

Description

Complete Study Guide Cisco CCIE Collaboration v3.1 Training Mumbai

For IT professionals aiming to specialize in collaboration technologies, Cisco’s CCIE Collaboration v3.1 certification offers an elite pathway. At IP Route, we provide comprehensive Cisco CCIE Collaboration v3.1 Training Mumbai India designed to equip you with the skills and knowledge required to excel in both the exam and your career.

Our training program covers everything from fundamental collaboration technologies to advanced real-world scenarios. With hands-on labs, practical exercises, and detailed study materials, you’ll be well-prepared to tackle the CCIE Collaboration v3.1 exam confidently. Whether you’re looking to advance your career or enhance your expertise, our training offers a complete package for success.

Benefits of Choosing Cisco CCIE Collaboration v3.1 Training Mumbai

Master Collaboration Technologies with Practical Labs and Hands-On Experience
Our training is designed to provide hands-on experience with Cisco collaboration technologies, including IP telephony, video, messaging, and conferencing solutions. You’ll work with real-world lab environments, ensuring you develop practical skills that go beyond theoretical knowledge.

Comprehensive Curriculum Aligned with Cisco CCIE Collaboration v3.1 Blueprint
The curriculum covers all areas required for the exam, including configuration, troubleshooting, and integration of collaboration solutions. By closely following the Cisco CCIE Collaboration v3.1 exam blueprint, we ensure you’re well-prepared for every aspect of the test.

Access to Expert Instructors and Support for Better Learning
Our program is led by industry experts with extensive experience in collaboration technologies. They’ll guide you through complex topics, offering insights and tips that make the learning process easier and more effective. Plus, we provide continuous support throughout your training.

Flexible Learning Options to Suit Your Schedule and Location
We offer flexible training options, including on-site, remote, and hybrid models, to accommodate your needs. This flexibility ensures that you can learn at your own pace and according to your schedule, whether you’re based in Mumbai or elsewhere.

Tailored for Success in Mumbai’s Competitive IT Market
The training program is designed with Mumbai’s growing IT landscape in mind. Our localized approach prepares you not only for the exam but also to tackle real-world collaboration challenges that businesses face in this competitive market.

FAQs

1. What is Cisco CCIE Collaboration v3.1 training?
It is a specialized training program designed to help professionals prepare for the Cisco CCIE Collaboration v3.1 certification exam. The program includes practical labs, theoretical knowledge, and exam-focused preparation.

2. Is this training suitable for beginners?
While the training is geared toward professionals with some experience in collaboration technologies, the comprehensive curriculum and expert guidance make it accessible to beginners as well.

3. What topics are covered in the training?
The training covers collaboration infrastructure, IP telephony, video, messaging, and troubleshooting, all aligned with the Cisco CCIE Collaboration v3.1 exam blueprint.

4. Can I take the training remotely?
Yes, we offer remote, on-site, and hybrid training options to provide flexibility for candidates who cannot attend in person.

5. What kind of support do you offer during the training?
We provide access to expert instructors, continuous guidance, and support throughout your training journey to ensure that you succeed in your exam and career.

Course Summary
CCIE Collaboration v3.1 - Topics

The following topics are general guidelines for the content likely to be included on the exam. However, other related topics may also appear on any specific delivery of the exam. To better reflect the contents of the exam and for clarity purposes, the guidelines below may change at any time without notice.

  • 1.1 SIP signaling protocol
    • 1.1.a SIP Theory (Request and Respond)
    • 1.1.b Identity headers (Name, number, URI, Privacy)
    • 1.1.c Route headers
    • 1.1.d Diversion headers
    • 1.1.e CallID, SessionID, and CiscoGUID
  • 1.2 Media negotiation
    • 1.2.a SDP Offer/Answer model
    • 1.2.b SDP Early offer, delayed offer, early media
    • 1.2.c SDP Payload type interworking
  • 1.3 Media path optimization
    • 1.3.a Interactive Connectivity Establishment (ICE)
    • 1.3.b TURN and STUN
  • 1.4 Media protocols
    • 1.4.a RTP/RTCP, SRTP/SRTCP
    • 1.4.b Binary Floor Control Protocol (BFCP)
    • 1.4.c ActiveControl (iX)
  • 1.5 DTMF relay
    • 1.5.a In-band vs out-of-band
    • 1.5.b RFC 2833
    • 1.5.c Key Pad Markup Language (KPML)
    • 1.5.d Unsolicited NOTIFY
    • 1.5.e Interworking
  • 1.6 Collaboration APIs
    • 1.6.a Unified CM Administrative XML (AXL) API
    • 1.6.b Webex REST API
    • 1.6.c Unified CM User Data Service API
  • 1.7 Security protocols
    • 1.7.a TLS negotiation
    • 1.7.b TLS certificate verification
    • 2.1 Network services
      • 2.1.a DHCP
      • 2.1.b NTP
      • 2.1.c DNS
      • 2.1.d LLDP
    • 2.2 Troubleshoot layer 2 and layer 3 network connectivity issues
    • 2.3 Quality of service for Collaboration applications and endpoints on LAN/WAN/WLAN (Cisco IOS-XE)
      • 2.3.a Identification
      • 2.3.b Classification and marking
      • 2.3.c Queuing and scheduling
      • 2.3.d Congestion management
    • 2.4 Troubleshoot voice and video quality issues
      • 2.4.a Media stream packet loss, jitter, and latency
      • 2.4.b Endpoint media quality metrics
      • 2.4.c One-way or no-way media
      • 2.4.d Media quality troubleshooting tools in Webex Control Hub
    • 2.5 Call Admission Control
      • 2.5.a Cisco Unified Border Element (CUBE)
      • 2.5.b Cisco Unified Communications Manager (UCM)
    • 2.6 Certificate management
      • 2.6.a Premise based PSTN gateway
      • 2.6.b UCM, Instant Messaging & Presence (IM&P), Cloud Connected UC
      • 2.6.c Cisco Expressway Series
  • 3.1 Global dial plans
    • 3.1.a Localization and globalization
    • 3.1.b Numbering schemes
    • 3.1.c Dialing habits
    • 3.1.d Interdigit timeouts
    • 3.1.e Calling privileges
    • 3.1.f Number presentation
  • 3.2 Dial plan features on UCM
    • 3.2.a Partitions and calling search spaces
    • 3.2.b Translation and transformation patterns
    • 3.2.c Urgent priority
    • 3.2.d Path selection
    • 3.2.e Global dial plan replication
    • 3.2.f Local route groups
    • 3.2.g Emergency Location Groups
  • 3.3 Dial plan features on Webex Calling
    • 3.3.a Location and numbers, Routing prefix
    • 3.3.b Interworking dial plan, route list, route groups, trunks, call typing, unknown extension dialing
    • 3.3.c Outgoing and incoming permissions
    • 3.3.d Transfer and forwarding restrictions
  • 3.4 URI and domain-based routing
  • 3.5 Telephony features on UCM
    • 3.5.a Call Park and Pickup
    • 3.5.b Barge/privacy
    • 3.5.c Call queuing
    • 3.5.d Busy Lamp Field (BLF)
  • 3.6 Telephony features on Webex Calling
    • 3.6.a Call Park
    • 3.6.b Auto attendant
    • 3.6.c Call queuing and hunting
    • 3.6.d Receptionist and paging
    • 3.6.e Single Number Reach
    • 3.6.f Voicemail
  • 3.7 Audio and video codec selection
  • 3.8 SIP trunking
    • 3.8.a SIP profiles
    • 3.8.b SIP trunk security profiles
    • 3.8.c Resiliency
    • 3.8.d Mid-call signaling
    • 3.8.e Session refresh
    • 3.8.f Securing SIP Trunks on UCM
  • 3.9 UDS in a multi-cluster environment
    • 3.9.a Service discovery
    • 3.9.b ILS
    • 3.9.c User search
  • 3.10 Dial plans on Cisco Unified Border Element (CUBE)
    • 3.10.a Inbound and outbound dial-peers
    • 3.10.b Voice translation rules and profiles
    • 3.10.c Dial-peer provisioning policy
    • 3.10.d Destination server groups
    • 3.10.e Destination dial-peer groups
    • 3.10.f E.164 pattern maps
    • 3.10.g URI-based dialing
    • 3.10.h VRF-aware call routing
  • 3.11 Survivability Features
    • 3.11.a SIP-SRST
    • 3.11.b Webex Calling Survivability Gateway
  • 3.12 Dial plans on Cisco Expressway Series
    • 3.12.a Transforms
    • 3.12.b Search rules
    • 3.12.c Zones
  • 4.1 Hardware and software endpoint registration
    • 4.1.a On-premises (local or proxy TFTP)
    • 4.1.b Mobile and Remote Access (Service Discovery)
    • 4.1.c Cloud
    • 4.1.d Hybrid
  • 4.2 Mixed mode and Security By Default (SBD) on UCM
    • 4.2.a Certificate Trust List (CTL) and Identity Trust List (ITL)
    • 4.2.b Trust Verification Service (TVS)
  • 4.3 Securing endpoints
    • 4.3.a SIP OAuth
    • 4.3.b CAPF and LSC
  • 4.4 Collaboration endpoints and infrastructure using IPv6
  • 4.5 User authentication and authorization
    • 4.5.a Directory synchronization On-premises
    • 4.5.b Directory synchronization Cloud
    • 4.5.c Single-Sign-On (SSO)
    • 4.5.d OAuth
  • 4.6 Cloud clients
    • 4.6.a Privacy features
    • 4.6.b Analytics and troubleshooting
    • 4.6.c Proximity
    • 4.6.d Security and compliance
  • 5.1 SIP trunks using Cisco Unified Border Element (CUBE)
  • 5.2 Multi-tenancy on Cisco Unified Border Element (CUBE)
  • 5.3 SIP normalization and SDP normalization
    • 5.3.a Normalization and transparency scripts (Lua)
    • 5.3.b Cisco IOS-XE SIP profiles
  • 5.4 Securing SIP trunks on Cisco Unified Border Element (CUBE)
    • 5.4.a SRTP to RTP interworking
    • 5.4.b SRTP pass-through
    • 5.4.c SRTP to SRTP interworking
  • 5.5 Stateful box-to-box redundancy on Cisco Unified Border Element (CUBE) (Cisco IOS-XE)
  • 5.6 Network and application level security on Cisco IOS-XE
    • 5.6.a IP Trust List
    • 5.6.b Call spike protection
    • 5.6.c Media policing
    • 5.6.d Call thresholds
    • 5.6.e RTP port ranges
    • 5.6.f Telephony denial of service attacks
    • 5.6.g Multi-VRF
  • 5.7 Firewall traversal in a collaboration solution
    • 5.7.a Port numbers and transport
    • 5.7.b NAT
    • 5.7.c Web proxy servers
    • 5.7.d Deep Packet Inspection considerations
  • 5.8 Cisco Expressway Series traversal communications
    • 5.8.a Traversal zones
    • 5.8.b SSH tunnels
    • 5.8.c Encryption interworking
  • 5.9 Mobile and Remote Access (MRA)
  • 5.10 Network and application level security on Cisco Expressway Series
    • 5.10.a Toll fraud prevention (CPL)
    • 5.10.b Zone authentication
    • 5.10.c Automated intrusion protection
    • 5.10.d Mutual TLS
  • 5.11 Cloud-based PSTN for Webex Calling
    • 5.11.a Cloud Connected PSTN Provider
    • 5.11.b Cisco Calling Plan
  • 5.12 Premises-based PSTN for Webex Calling
    • 5.12.a Registration-based Local Gateway
    • 5.12.b Certificate-based Local Gateway
  • 5.13 Edge Audio for Webex
  • 5.14 Third-party interoperability and federation
    • 5.14.a Voice and video calling
    • 5.14.b IM&P
    • 5.14.c Meeting Interoperability
  • 6.1 Media resources
    • 6.1.a Transcoding
    • 6.1.b MTP
    • 6.1.c Music on hold
  • 6.2 Ad-hoc conferencing
    • 6.2.a Cisco IOS-XE conferencing
    • 6.2.b Cisco Meeting Server
  • 6.3 Webex meetings
    • 6.3.a Meeting scheduling
    • 6.3.b Webex meeting Features
  • 6.4 Media quality troubleshooting
  • 6.5 Meeting Security
    • 6.5.a Planning a secured meeting
    • 6.5.b End-to-end encryption plus identity
    • 6.5.c Personal meeting room security
    • 6.5.d Participant roles
  • 6.6 Video Mesh
  • 7.1 On-premises IM&P servers and clients
  • 7.2 Cisco Unity Connection voicemail
    • 7.2.a Voicemail integration
    • 7.2.b Call and directory handlers
    • 7.2.c Voicemail access from soft clients
    • 7.2.d Video greetings and messaging
    • 7.2.e Partitions and search spaces
    • 7.2.f Routing rules
  • 7.3 Mobility features
    • 7.3.a Mobile Connect (Single Number Reach)
    • 7.3.b Device Mobility
    • 7.3.c Mobile Identity
    • 7.3.d Extend and Connect
    • 7.3.e Extension Mobility
  • 7.4 Audio and video call recording architectures
    • 7.4.a SIP-based media Recording (SIPREC)
    • 7.4.b Network-based recording
    • 7.4.c Built-in bridge
    • 7.4.d Cisco Unified Border Element (CUBE) Media Proxy
    • 7.4.e Secure call recording
    • 7.4.f Cloud based recording
  • 7.5 Webex Contact Center
  • 7.6 Webex Bot (Implement from a provided Python code skeleton)
Schedule & Pricing

Please write to us at [email protected] for the price and upcoming schedule.

+91 7710910003

Frequently Asked Questions
  • Introduction
  • A (Very) Basic Introduction to Networking
  • The OSI Reference Model Overview
  • The TCP/IP Stack
  • The Upper OSI Layers
  • The Lower OSI Layers
  • Introduction
  • The Transport Layer Header, TCP and UDP
  • Introduction
  • Class A IP Addresses
  • IP Address Classes B and C
  • IP Address Classes D and E
  • Introduction
  • Local Area Network Layer 2 – Ethernet
  • Introduction
  • Switches vs Hubs
  • Switch Operation
    Routers
  • Other Cisco Devices
  • Cisco Device Functions – Lab Exercises
  • Introduction
  • A (Very) Basic Introduction to Networking
  • The OSI Reference Model Overview
  • The TCP/IP Stack
  • The Upper OSI Layers
  • The Lower OSI Layers
  • Introduction
  • The Transport Layer Header, TCP and UDP
  • Introduction
  • Class A IP Addresses
  • IP Address Classes B and C
  • IP Address Classes D and E
  • Introduction
  • Local Area Network Layer 2 – Ethernet
  • Introduction
  • Switches vs Hubs
  • Switch Operation
    Routers
  • Other Cisco Devices
  • Cisco Device Functions – Lab Exercises
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