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CompTIA Network+

Course Length: 5 days
Certifications: Network+
Number of Exams: 1

Class Schedule
06/20/19 - 06/24/19

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07/11/19 - 07/15/19

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08/22/19 - 08/26/19

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10/03/19 - 10/07/19

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11/07/19 - 11/11/19

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12/09/19 - 12/13/19

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  • Hands-on instruction by a certified instructor
  • Includes all course materials
  • On-site Testing
  • Lunch & Snacks provided each day
  • The CompTIA Network+ certification (Exam N10-007) is an internationally recognized validation of the technical knowledge required of foundation-level IT network practitioners.

    This exam will certify the successful candidate has the knowledge and skills required to troubleshoot, configure, and manage common network devices; establish basic network connectivity; understand and maintain network documentation; identify network limitations and weaknesses; and implement network security, standards, and protocols. The candidate will have a basic understanding of enterprise technologies, including cloud and virtualization technologies.

    CompTIA Network+ is accredited by ANSI to show compliance with the ISO 17024 Standard and, as such, undergoes regular reviews and updates to the exam objectives.

    Prerequisites

    It is recommended for CompTIA Network+ candidates to have the following:

    • CompTIA A+ certification or equivalent knowledge, though CompTIA A+ certification is not required.
    • Have at least 9 to 12 months of work experience in IT networking.

    Course Outline

    1.0 Networking Concepts
    Explain the purposes and uses of ports and protocols.
    • Protocols and ports
    • Protocol types
    • Connection-oriented vs. connectionless
    Explain devices, applications, protocols and services at their appropriate OSI layers.
    • Layer 1 - Physical
    • Layer 2 - Data link
    • Layer 3 - Network
    • Layer 4 - Transport
    • Layer 5 - Session
    • Layer 6 - Presentation
    • Layer 7 - Application
    Explain the concepts and characteristics of routing and switching.
    • Properties of network traffic
    • Segmentation and interface properties
    • Routing
    • IPv6 concepts
    • Performance concepts
    • NAT/PAT
    • Port forwarding
    • Access control list
    • Distributed switching
    • Packet-switched vs. circuit-switched network
    • Software-defined networking
    Given a scenario, configure the appropriate IP addressing components.
    • Private vs. public
    • Loopback and reserved
    • Default gateway
    • Virtual IP
    • Subnet mask
    • Subnetting
    • Address assignments
    Compare and contrast the characteristics of network topologies, types and technologies.
    • Wired topologies
    • Wireless topologies
    • Types
    • Technologies that facilitate the Internet of Things (IoT)
    Given a scenario, implement the appropriate wireless technologies and configurations.
    • 802.11 standards
    • Cellular
    • Frequencies
    • Speed and distance requirements
    • Channel bandwidth
    • Channel bonding
    • MIMO/MU-MIMO
    • Unidirectional/omnidirectional
    • Site surveys
    Summarize cloud concepts and their purposes.
    • Types of services
    • Cloud delivery models
    • Connectivity methods
    • Security implications/considerations
    • Relationship between local and cloud resources
    Explain the functions of network services.
    • DNS service
    • DHCP service
    • NTP
    • IPAM
    2.0 Infrastructure
    Given a scenario, deploy the appropriate cabling solution.
    • Media types
    • Plenum vs. PVC
    • Connector types
    • Transceivers
    • Termination points
    • Copper cable standards
    • Copper termination standards
    • Ethernet deployment standards
    Given a scenario, determine the appropriate placement of networking devices on a network and install/configure them.
    • Firewall
    • Router
    • Switch
    • Hub
    • Bridge
    • Modems
    • Wireless access point
    • Media converter
    • Wireless range extender
    • VoIP endpoint
    Explain the purposes and use cases for advanced networking devices.
    • Multilayer switch
    • Wireless controller
    • Load balancer
    • IDS/IPS
    • Proxy server
    • VPN concentrator
    • AAA/RADIUS server
    • UTM appliance
    • NGFW/Layer 7 firewall
    • VoIP PBX
    • VoIP gateway
    • Content filter
    Explain the purposes of virtualization and network storage technologies.
    • Virtual networking components
    • Network storage types
    • Connection type
    • Jumbo frame
    Compare and contrast WAN technologies.
    • Service type
    • Transmission mediums
    • Characteristics of service
    • Termination
    3.0 Network Operations
    Given a scenario, use appropriate documentation and diagrams to manage the network.
    • Diagram symbols
    • Standard operating procedures / work instructions
    • Logical vs. physical diagrams
    • Rack diagrams
    • Change management documentation
    • Wiring and port locations
    • IDF/MDF documentation
    • Labeling
    • Network configuration and performance baselines
    • Inventory management
    Compare and contrast business continuity and disaster recovery concepts.
    • Availability concepts
    • Recovery
    • MTTR
    • MTBF
    • SLA requirements
    Explain common scanning, monitoring and patching processes and summarize their expected outputs.
    • Processes
    • Event management
    • SNMP monitors
    • Metrics
    Given a scenario, use remote access methods.
    • VPN
    • RDP
    • SSH
    • VNC
    • Telnet
    • HTTPS/management URL
    • Remote file access
    • Out-of-band management
    Identify policies and best practices.
    • Privileged user agreement
    • Password policy
    • On-boarding/off-boarding procedures
    • Licensing restrictions
    • International export controls
    • Data loss prevention
    • Remote access policies
    • Incident response policies
    • BYOD
    • AUP
    • NDA
    • System life cycle
    • Safety procedures and policies
    4.0 Network Security
    Summarize the purposes of physical security devices.
    • Detection
    • Prevention
    Explain authentication and access controls.
    • Authorization, authentication and accounting
    • Multifactor authentication
    • Access control
    Given a scenario, secure a basic wireless network.
    • WPA
    • WPA2
    • TKIP-RC4
    • CCMP-AES
    • Authentication and authorization
    • Geofencing
    Summarize common networking attacks.
    • DoS
    • Social engineering
    • Insider threat
    • Logic bomb
    • Rogue access point
    • Evil twin
    • War-driving
    • Phishing
    • Ransomware
    • DNS poisoning
    • ARP poisoning
    • Spoofing
    • Deauthentication
    • Brute force
    • VLAN hopping
    • Man-in-the-middle
    • Exploits vs. vulnerabilities
    Given a scenario, implement network device hardening.
    • Changing default credentials
    • Avoiding common passwords
    • Upgrading firmware
    • Patching and updates
    • File hashing
    • Disabling unnecessary services
    • Using secure protocols
    • Generating new keys
    • Disabling unused ports
    Explain common mitigation techniques and their purposes.
    • Signature management
    • Device hardening
    • Change native VLAN
    • Switch port protection
    • Network segmentation
    • Privileged user account
    • File integrity monitoring
    • Role separation
    • Restricting access via ACLs
    • Honeypot/honeynet
    • Penetration testing
    5.0 Network Troubleshooting and Tools
    Explain the network troubleshooting methodology.
    • Identify the problem
    • Establish a theory of probable cause
    • Test the theory to determine the cause
    • Establish a plan of action to resolve the problem and identify potential effects
    • Implement the solution or escalate as necessary
    • Verify full system functionality and, if applicable, implement preventive measures
    • Document findings, actions, and outcomes
    Given a scenario, use the appropriate tool.
    • Hardware tools
    • Software tools
    Given a scenario, troubleshoot common wired connectivity and performance issues.
    • Attenuation
    • Latency
    • Jitter
    • Crosstalk
    • EMI
    • Open/short
    • Incorrect pin-out
    • Incorrect cable type
    • Bad port
    • Transceiver mismatch
    • TX/RX reverse
    • Duplex/speed mismatch
    • Damaged cables
    • Bent pins
    • Bottlenecks
    • VLAN mismatch
    • Network connection LED status indicators
    Given a scenario, troubleshoot common wireless connectivity and performance issues.
    • Reflection
    • Refraction
    • Absorption
    • Latency
    • Jitter
    • Attenuation
    • Incorrect antenna type
    • Interference
    • Incorrect antenna placement
    • Channel overlap
    • Overcapacity
    • Distance limitations
    • Frequency mismatch
    • Wrong SSID
    • Wrong passphrase
    • Security type mismatch
    • Power levels
    • Signal-to-noise ratio
    Given a scenario, troubleshoot common network service issues.
    • Names not resolving
    • Incorrect gateway
    • Incorrect netmask
    • Duplicate IP addresses
    • Duplicate MAC addresses
    • Expired IP address
    • Rogue DHCP server
    • Untrusted SSL certificate
    • Incorrect time
    • Exhausted DHCP scope
    • Blocked TCP/UDP ports
    • Incorrect host-based firewall settings
    • Incorrect ACL settings
    • Unresponsive service
    • Hardware failure

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