
This class covers OSI Data Flow of the Open Systems Interconnect (OSI) which covers the layers of the data flow from the transmit to the receive.
This class covers Layer 6 of the Open Systems Interconnect (OSI) Model, the presentation layer. Layer 6: Presentation is responsible for presenting the data in standard forms. Also, this class covers Layer 5:Session layer, which is responsible for facilitating communication. Layer 4:Transport Layer, which is responsible for multiplexing upper layer applications. And Layer 3: Network layer, which is responsible for network paths
This class covers Layer 2 and 1 of the Open Systems Interconnect (OSI) Model. Layer 2: Data Link Layer, which is responsible for Logical Link Control and Media Access Control. Layer 1: Physical Layer is responsible for the flow of signals.
This class cover OSI Data Flow of the Open Systems Interconnect (OSI) This covers the layers of the data flow from the transmit to the receive
This class covers Terminology Open Systems Interconnect (OSI) . Terms will be explained to help understand.
This class cover Communication between layers, Layer 3 & 4 Examples, and Memory Mnemonics of the Open Systems Interconnect (OSI). Communication layer, verticle communication, explains the data moving. Layer 3 and Layer 4 examples are shown. And Memory Mnemonics to help you remember prevous terms.
This class covers iPv4 and Base 2 Binary Numbers. IPv4 will cover the format, and Base 2 Binary Numbers explains how binary numbers work.
This class covers Decimal numbers and how they relate to Bionary numbers
This class covers why to use iPv4 Addressing, this is part 1 of part 2.
This class covers why to use iPv4 Addressing, this is part 2 of part 2
This class covers the big picture of DNS, IPv4, and Mac, this is part 1 of part 2.
This class covers the big picture of DNS, IPv4, and Mac, this is part 2 of part 2.
This class covers and explains the purpose of IP Addressing, and properties of IP Addressing.
This class covers iPv4 Bitwise Notation, and walks through a bitwise representation.
This class covers iPv4 Classful Addressing Notation, and demonstates an example.
This class covers Subnetting, the practice of dividing a network intro two or more networks.
This class covers Private IPv4 Networks, and shows examples of Non-routable IP Addresses.
This class covers NAT'ing, and how IPv4 Non-routable networks are used for it. This is part 1 of part 2.
This class covers NAT'ing, the drawbacks, 3 main types of NATing, this is part 2 of part 2.
This class covers IPv6, and explaining characteristics of IPv6. This is part 1 or part 2.
This class covers IPv6, and explaining the features of IPv6. This part 2 or part 2.
This class covers MAC Addressing, and how it is a unique hardware address or physical address of a network device.
This class covers explaining Routing and Switching, due to complecity of the protocols, and user requirements, several routing protocols hace come into existence. This is part 1 of part 2.
This class covers the purpose of Routing and Switching. Routing metrics are reviewed, EIGRP Terminology is reviewed, and the IGRP is covered. This is part 2 of part 2.
This class covers the Open Shortest Path First Routing. This class reviews the area types, determining ID, priority commands.
This class covers Spanning Tree Protocol, and how the STP is responsible for preventing loops with a switch network, and how it uses a Spanning Tree Algorithm, along with reviewing Port States, and Port Desgnations.
This class covers Virtual Local Area Networking, and methods on how to create a VLAN, and terms associated with VLAN.
This class covers Default TCP/UDP Ports, TCP/IP Protocol, IPX/SPX, UDP, Telnet, FTP, TFTP, SNMP, and HTTP.
This class covers DNS Concepts and Components. This class reviews the DNS basics, and DNS Alias.
This class covers Network Troubleshooting. It reviews the methodology for Network Troubleshooting.
This class covers Identify Virtual Network Components. It reviews the virtual switch, virtual server, and virtual desktops.
This class covers VTP Configuration. It reviews the typical CISCO configuration commands, and reviews things to remember.
This class goes over Repeaters which are used to boost signal.
This class continues going over Repeaters which are used to boost signal.
This class goes over Backhauling, Antennae, and Powerful Transmitters.
This class goes over Antennae, including, the energy they use, Omni-Directional Antennae, Semi-directional Antennae, and Highly-Directional Antennae.
This class goes over Antennae, including, the energy they use, Omni-Directional Antennae, Semi-directional Antennae, and Highly-Directional Antennae.
This class discusses Interference, Signal strength, Configuration, and Encryption type.
This class discusses Bad/improper cables and Port configuration.
This class discusses VLAN assignment, Mismatched MTU/MTU black hole, Power failure, Bad/missing routes, and Duplicate IP address.
This class discusses Cable length, Device types/requirements, Environment limitations, Equipment limitations, and Compatibility requirements.
This class goes over Multimode fiber and Single mode fiber
This class goes over UTP and STP for Shielded Twisted Pair cabling.
This class goes over CAT3, CAT5, and CAT5e.
This class goes over CAT6, CAT 6a, Straight-through, Plenum cable, ST(Straight tip), SC (Subscriber connector), and LC(Lucent connector).
This class goes over Wireless Standards, MIMO – Multiple In Multiple Out, and Typical MIMO Devices.
This class covers T1 Circuits, OC – Optical Carrier, and DSL – Digital Subscriber Line.
This class covers Cable Modems, ISDN – Integrated Digital Subscriber Line, ISDN has two access methods, WiMAX, and WiMAX system consists of two parts.
This class goes over LTE – Long Term Evolution, LTE, Features of LTE, Topology, MESH, MESH Advantages and Disadvantages, and What a MESH looks like
This class covers RING Topology, BUS Topology, BUS Topology Advantages and Disadvantages, STAR Topology, and STAR Topology Advantages and Disadvantages.
This class covers DB Loss, TXRX reversed, Cable Placement, EMI/Interference, Distance, and Crosstalk.
This class covers different LAN Technologies along with Identify components of wiring distribution.
This class covers Load Balancers, Proxy servers, Content Filters, and dealing with Troubleshoot Connectivity Issues.
This class goes over the following tools to troubleshoot connectivity issues – PING, NBTSTAT, NETSTAT, TRACERT, IPCONFIG, NSLOOKUP, ROUTE, BootP, ARP, RARP, and Protocol Analyzer And Packet Analyzers.
This class covers Application log, System log, Security log, Antivirus log, Protocol Analyzers, Network Sniffers, Configuration Management, Policies, Privacy Policies, and Acceptable Use Policy.
This class covers Security Policy, Procedures, Configurations, Regulations, Cable Management, Asset Management, Baseline, Network Performance, and Important Elements of a VOIP Network.
This class covers Important Elements of a VOIP Network, WEP (Wired Equivalent Privacy), WPA (Wi-Fi Protected Access), WPA2 (Wi-Fi Protected Access Version 2), and MAC Filtering.
This class covers Virtual Private Networks (VPNs), EAP (Extensible Authentication Protocol), Public Key Infrastructure (PKI), and Kerberos.
This class continues covering Kerberos, along with, Remote Authentication Dial-In User Service (RADIUS), Terminal Access Controller Access-Control System (TACACS ), CHAP, Multifactor authentication, Evil Twin, War Driving, Rogue APs, and WAR Chalking.
This class covers WEP Cracking, Distributed Denial of Service (DDoS), and Denial of Service (Dos).
This class continues covering Distributed Denial of Service (DDoS), and Denial of Service.
This class is over Smurf attacks, Man-In-The-Middle attacks, Virus, Worms, Buffer Overflow, and Packet Sniffing.
This class covers Port Security, Dynamic Packet Filters, Implicit deny, Access control lists (ACLs), NAT (Network Address Translation), DMZ (DeMilitalized Zone), and IDS (Intrusion Detection System).
This class covers Honeypots, Honeynets, Vulnerability Testing, Cabling, 568A/568B, 568B/568A Wiring Standard, Power over Ethernet (PoE), and Crossover Cable – Direct Connection Cable.
CompTIA’s Network+ certification training readies students for a vendor neutral certification making IT professionals gain expertise in configuring, managing, installing, troubleshooting and maintaining basic computer networks. Thought by top experts, students gather essential knowledge of network configuration, technologies and installations as well as topologies and media security and management. The Network+ certification by CompTIA is an internationally recognized and coveted credential providing proof of a student’s knowledge, skills and ability to manage, maintain, troubleshoot, install, operate and configure a basic network infrastructure. These courses prepare the student for the CompTIA Network+ Certification Exam N10-006.
What You Will Learn
The curriculum for CompTIA’s Network+ Certification Course begins with the 7 Layers of the Open Systems Interconnect (OSI) Model, OSI Data Flow and Terminology. After a basic knowledge of OSI has been built, we begin discussing Communication Between Layers. Then we delve into TCP/IP System Interconnect Model Layers, Open Systems Interconnect Model Comparisons and Application Layer Examples. Next we cover Binary Numbers and iPv4 Addressing (addressing the how’s, why’s and The Big Picture. Once broader concepts are established, student’s learn the Purpose and Properties of IP Addressing, iPv4 Bitwise Notation, Private IPv4 Networks, and Subnetting. After an extensive overview of IPv6 Addressing we switch modes to The Purpose of Routing and Switching, Common Networking Protocols and finally Installing and Configuring. At the end of this course, a student walks away having had practical experience and comprehensive knowledge allowing confident execution of the CompTIA N+ N10-006 exam.