Class - Community College of Rhode Island



CCRI Networking Technology CNVT 1810 Fall 2020Remote Learning!InstructorJohn MowryTelephone401-825-2138 E-mailjmowry@ccri.edu Office HoursBy Appointment Remote OnlyClass Sections110 Friday 6:00PM-9:50PM, starts 9/4 ends 12/18Credit Hours3 Credit Hours, 2 Lecture Hours & 2 Laboratory Hours per week (15 Week)3 Credit Hours, 2 Lecture Hours & 2 Laboratory Hours per weekInstructional Material and Web Sites1CCRI Lesson Web (Introduction to Networks 7.0)2Cisco Academy Assessment Web Site PoliciesSkills:Journal-Entries 5%Labs and Class Participation10%Practical Final45%Academic: Quizzes 10%Final30%Course Objectives:Upon completion of the Introduction to Networks 7.0, students will be able to perform the following tasks:CCNAv7: Introduction to Networks (ITN) 7.0CCNAv7: ITN Module Topic Objective Networking Today Explain the advances in modern network technologies. Networks Affect Our Lives Explain how networks affect our daily lives. Network Components Explain how host and network devices are used. Network Representations and Topologies Explain network representations and how they are used in network topologies. Common Types of Networks Compare the characteristics of common types of networks. Internet Connections Explain how LANs and WANs interconnect to the internet. Reliable Networks Describe the four basic requirements of a reliable network. Network Trends Explain how trends such as BYOD, online collaboration, video, and cloud computing are changing the way we interact. Network Security Identify some basic security threats and solutions for all networks. The IT Professional Explain employment opportunities in the networking field. Module Topic Objective Basic Switch and End Device Configuration Implement initial settings including passwords, IP addressing, and default gateway parameters on a network switch and end devices. Cisco IOS Access Explain how to access a Cisco IOS device for configuration purposes. IOS Navigation Explain how to navigate Cisco IOS to configure network devices. The Command Structure Describe the command structure of Cisco IOS software. Basic Device Configuration Configure a Cisco IOS device using CLI. Save Configurations Use IOS commands to save the running configuration. Ports and Addresses Explain how devices communicate across network media. Configure IP Addressing Configure a host device with an IP address. Verify Connectivity Verify connectivity between two end devices. Module Topic Objective Protocols and Models Explain how network protocols enable devices to access local and remote network resources. The Rules Describe the types of rules that are necessary to successfully communicate. Protocols Explain why protocols are necessary in network communication. Protocol Suites Explain the purpose of adhering to a protocol suite. Standards Organizations Explain the role of standards organizations in establishing protocols for network interoperability. Reference Models Explain how the TCP/IP model and the OSI model are used to facilitate standardization in the communication process. Data Encapsulation Explain how data encapsulation allows data to be transported across the network. Data Access Explain how local hosts access local resources on a network. Module Topic Objective Physical Layer Explain how physical layer protocols, services, and network media support communications across data networks. Purpose of the Physical Layer Describe the purpose and functions of the physical layer in the network. Physical Layer Characteristics Describe characteristics of the physical layer. Copper Cabling Identify the basic characteristics of copper cabling. UTP Cabling Explain how UTP cable is used in Ethernet networks. Fiber-Optic Cabling Describe fiber-optic cabling and its main advantages over other media. Wireless Media Connect devices using wired and wireless media. Module Topic Objective Number Systems Calculate numbers between decimal, binary, and hexadecimal systems. Binary Number System Calculate numbers between decimal and binary systems. Hexadecimal Number System Calculate numbers between decimal and hexadecimal systems. Module Topic Objective Data Link Layer Explain how media access control in the data link layer supports communication across networks. Purpose of the Data Link Layer Describe the purpose and function of the data link layer in preparing communication for transmission on specific media. Topologies Compare the characteristics of media access control methods on WAN and LAN topologies. Data Link Frame Describe the characteristics and functions of the data link frame. Module Topic Objective Ethernet Switching Explain how Ethernet operates in a switched network. Ethernet Frame Explain how the Ethernet sublayers are related to the frame fields. Ethernet MAC Address Describe the Ethernet MAC address. The MAC Address Table Explain how a switch builds its MAC address table and forwards frames. Switch Speeds and Forwarding Methods Describe switch forwarding methods and port settings available on Layer 2 switch ports. Module Topic Objective Network Layer Explain how routers use network layer protocols and services to enable end-to-end connectivity. Network Layer Characteristics Explain how the network layer uses IP protocols for reliable communications. IPv4 Packet Explain the role of the major header fields in the IPv4 packet. IPv6 Packet Explain the role of the major header fields in the IPv6 packet. How a Host Routes Explain how network devices use routing tables to direct packets to a destination network. Router Routing Tables Explain the function of fields in the routing table of a router. Module Topic Objective Address Resolution Explain how ARP and ND enable communication on a network. MAC and IP Compare the roles of the MAC address and the IP address. ARP Describe the purpose of ARP. Neighbor Discovery Describe the operation of IPv6 neighbor discovery. Module Topic Objective Basic Router Configuration Implement initial settings on a router and end devices. Configure Initial Router Settings Configure initial settings on a Cisco IOS router. Configure Interfaces Configure two active interfaces on a Cisco IOS router. Configure the Default Gateway Configure devices to use the default gateway. Module Topic Objective IPv4 Addressing Calculate an IPv4 subnetting scheme to efficiently segment a network. IPv4 Address Structure Describe the structure of an IPv4 address including the network portion, the host portion, and the subnet mask. IPv4 Unicast, Broadcast, and Multicast Compare the characteristics and uses of the unicast, broadcast and multicast IPv4 addresses. Types of IPv4 Addresses Explain public, private, and reserved IPv4 addresses. Network Segmentation Explain how subnetting segments a network to enable better communication. Subnet an IPv4 Network Calculate IPv4 subnets for a /24 prefix. Subnet a /16 and /8 Prefix Calculate IPv4 subnets for a /16 and /8 prefix. Subnet to Meet Requirements Given a set of requirements for subnetting, implement an IPv4 addressing scheme. Variable Length Subnet Masking Explain how to create a flexible addressing scheme using variable length subnet masking (VLSM). Structured Design Implement a VLSM addressing scheme. Module Topic Objective IPv6 Addressing Implement an IPv6 addressing scheme. IPv4 Issues Explain the need for IPv6 addressing. IPv6 Addressing Explain how IPv6 addresses are represented. IPv6 Address Types Compare types of IPv6 network addresses. GUA and LLA Static Configuration Explain how to configure static global unicast and linklocal IPv6 network addresses. Dynamic Addressing for IPv6 GUAs Explain how to configure global unicast addresses dynamically. Dynamic Addressing for IPv6 LLAs Configure link-local addresses dynamically. IPv6 Multicast Addresses Identify IPv6 addresses. Subnet an IPv6 Network Implement a subnetted IPv6 addressing scheme. Module Topic Objective ICMP Use various tools to test network connectivity. ICMP Messages Explain how ICMP is used to test network connectivity. Ping and Traceroute Testing Use ping and traceroute utilities to test network connectivity. Module Topic Objective Transport Layer Compare the operations of transport layer protocols in supporting end-to-end communication. Transportation of Data Explain the purpose of the transport layer in managing the transportation of data in end-to-end communication. TCP Overview Explain characteristics of the TCP. UDP Overview Explain characteristics of the UDP. Port Numbers Explain how TCP and UDP use port numbers. TCP Communication Process Explain how TCP session establishment and termination processes facilitate reliable communication. Reliability and Flow Control Explain how TCP protocol data units are transmitted and acknowledged to guarantee delivery. UDP Communication Describe the UDP client processes to establish communication with a server. Module Topic Objective Application Layer Explain the operation of application layer protocols in providing support to end-user applications. Application, Presentation, and Session Explain how the functions of the application layer, session layer, and presentation layer work together to provide network services to end user applications. Peer-to-Peer Explain how end user applications operate in a peer-to-peer network. Web and Email Protocols Explain how web and email protocols operate. IP Addressing Services Explain how DNS and DHCP operate. File Sharing Services Explain how file transfer protocols operate. Module Topic Objective Network Security Fundamentals Configure switches and routers with device hardening features to enhance security. Security Threats and Vulnerabilities Explain why basic security measures are necessary on network devices. Network Attacks Identify security vulnerabilities. Network Attack Mitigation Identify general mitigation techniques. Device Security Configure network devices with device hardening features to mitigate security threats. Module Topic Objective Build a Small Network Implement a network design for a small network to include a router, a switch, and end devices. Devices in a Small Network Identify the devices used in a small network. Small Network Applications and Protocols Identify the protocols and applications used in a small network. Scale to Larger Networks Explain how a small network serves as the basis of larger networks. Verify Connectivity Use the output of the ping and tracert commands to verify connectivity and establish relative network performance. Host and IOS Commands Use host and IOS commands to acquire information about the devices in a network. Troubleshooting Methodologies Describe common network troubleshooting methodologies. Troubleshooting Scenarios Troubleshoot issues with devices in the network. The goals of Introduction to Networks 7.0The course introduces the architectures, models, protocols, and networking elements that connect users, devices, applications and data through the internet and across modern computer networks - including IP addressing and Ethernet fundamentals. By the end of the course, students can build simple local area networks (LANs) that integrate IP addressing schemes, foundational network security, and perform basic configurations for routers and switches. Time ManagementCourse will meet for two (5) Lecture Hours and, two (5) laboratory hours per week of instruction.Course will meet for sixty (60) hours of combined instruction and laboratory exercises.Students are expected to spend an equal amount of time (60 hours) in reading the curriculum, and studying related material in addition to the required lecture/laboratory. Practical ExamThe practical exam will encompass a majority of concepts and procedures developed during the laboratory experiments and required readings. The practical exam will be totally “hands-on” including routing and switching equipment as well as IP Addressing and programs specifically related to the remote configuration of networking devices.ExaminationsAll exams, excluding the practical exam, will be a combination of multiple choice, fill-in the blank, matching as well as simulations.Other PoliciesThe student expected to complete the On-Line lessons outside of class time. Late assignments, including labs, will be penalized 10%. All assignments must be completed using a word processor.Students are responsible to see the instructor about any work missed due to absence.Students who miss a quiz must take the quiz within two classes of the original quiz date.Students are expected to participate as a member of teamsStudents must pass both the Skills based portion in addition to the Academic portion of the curriculum to pass the course.Student’s final grade can only raise one letter grade above the on-line final exam score based on other class assignments. Students are allowed a maximum of three (3) re-takes of chapter quizzes per the semester.All re-takes must be completed prior to the final exam, without exception.Department policy is that if you miss the equivalent of two (2) weeks of classes your final grade will drop by one (1) letter grade.Exam Breakdown:ModuleChapter/Section/Topic Titles% Coverage0.1.0Explain the advances in modern network technologies.13%0.2.0Implement initial settings including passwords, IP addressing, and default gateway parameters on a network switch and end devices.46%0.3.0Explain how network protocols enable devices to access local and remote network resources.41%Module Group ExamBasic Network Connectivity and Communications100%0.4.0Explain how physical layer protocols, services, and network media support communications across data networks.23%0.5.0Calculate numbers between decimal, binary, and hexadecimal systems.0%0.6.0Explain how media access control in the data link layer supports communications across networks.33%0.7.0Explain how Ethernet operates in a switched network.44%Module Group ExamEthernet Concepts100%0.8.0Explain how routers use network layer protocols and services to enable end-to-end connectivity.34%0.9.0Explain how ARP and ND enable communication on a network.25%0.10.0Implement initial settings on a router and end devices.41%Module Group ExamCommunicating Between Networks100%0.11.0Calculate an IPv4 subnetting scheme to efficiently segment a network.38%0.12.0Implement an IPv6 addressing scheme.43%0.13.0Use various tools to test network connectivity.18%Module Group ExamIP Addressing100%0.14.0Compare the operation of transport layer protocols in supporting end-to-end communcation.51%0.15.0Explain the operation of the application layer in providing support to end-user applications.49%Module Group ExamNetwork Application Communications100%0.16.0Configure switches and routers with device hardening features to enhance security.44%0.17.0Troubleshoot connectivity in a small network.56%Module Group ExamBuilding and Securing a Small Network100%Final Exam Breakdown:TypeModuleChapter/Section/Topic Titles% CoverageTLO0.1.0Explain the advances in modern network technologies.3%TLO0.2.0Implement initial settings including passwords, IP addressing, and default gateway parameters on a network switch and end devices.6%TLO0.3.0Explain how network protocols enable devices to access local and remote network resources.6%TLO0.4.0Explain how physical layer protocols, services, and network media support communications across data networks.7%TLO0.5.0Calculate numbers between decimal, binary, and hexadecimal systems.0%TLO0.6.0Explain how media access control in the data link layer supports communications across networks.8%TLO0.7.0Explain how Ethernet operates in a switched network.9%TLO0.8.0Explain how routers use network layer protocols and services to enable end-to-end connectivity.9%TLO0.9.0Explain how ARP and ND enable communication on a network.5%TLO0.10.0Implement initial settings on a router and end devices.6%TLO0.11.0Calculate an IPv4 subnetting scheme to efficiently segment a network.8%TLO0.12.0Implement an IPv6 addressing scheme.8%TLO0.13.0Use various tools to test network connectivity.5%TLO0.14.0Compare the operation of transport layer protocols in supporting end-to-end communcation.5%TLO0.15.0Explain the operation of the application layer in providing support to end-user applications.5%TLO0.16.0Configure switches and routers with device hardening features to enhance security.6%TLO0.17.0Troubleshoot connectivity in a small network.6%Introduction to Networks (ITN) 7.0ClassLessonModule Group ExamSubjectsLabs/ProjectsSept 41 & 2Module 1: Networking TodayModule 2: Basic Switch and End Device ConfigurationVideo 1.1.2 The Cisco Networking Academy Learning ExperienceVideo 1.5.5 Download and Install Packet TracerVideo 1.5.6 Getting Started in Cisco Packet TracerLab 1.5.7 Network RepresentationVideo 1.7.5 Cisco WebEx for HuddlesVideo 2.2.3 IOS CLI Primary Command ModesVideo 2.2.5 Navigate Between IOS ModesVideo 2.3.4 Context Sensitive Help and Command Syntax CheckVideo 2.3.6 Hot Keys and ShortcutsLab 2.3.7 Navigate the IOSVideo 2.4.6 Secure Administrative Access to a SwitchVideo 2.5.3 Alter the Running ConfigurationLab 2.5.5 Configure Initial Switch SettingsSept 113Module 3: Protocols and ModelsVideo 3.1.1 Devices in a BubbleLab 3.5.5 Investigate the TCP/IP and OSI Models in ActionSept 1841 (1-3)Module 4: Physical LayerLab 4.6.5 Connect a Wired and Wireless LANLab 4.7.1 Connect the Physical LayerSept 255Module 5: Number SystemsVideo 5.1.2 Converting Between Binary and Decimal Numbering SystemsVideo 5.2.2 Converting Between Hexadecimal and Decimal Numbering SystemsOct 26Module 6: Data Link LayerOct 97Module 7: Ethernet SwitchingVideo 7.3.4 MAC Address Tables on Connected SwitchesVideo 7.3.5 Sending the Frame to the Default GatewayOct 168 & 9 & 102 (4-7)Module 8: Network LayerModule 9: Address ResolutionModule 10: Basic Router ConfigurationVideo 8.2.3 Sample IPv4 Headers in WiresharkVideo 8.3.5 Sample IPv6 Headers in WiresharkVideo 8.5.5 IPv4 Routing Router TablesLab 9.1.3 Identify MAC and IP AddressesVideo 9.2.3 ARP Operation – ARP RequestVideo 9.2.4 ARP Operation – ARP ReplyVideo 9.2.5 ARP Role in Remote CommunicationsLab 9.2.9 Examine the ARP TableVideo 9.3.1 IPv6 Neighbor DiscoveryLab 9.3.4 IPv6 Neighbor DiscoveryLab 10.1.4 Configure Initial Router SettingsLab 10.3.4 Connect a Router to a LANLab 10.3.5 Troubleshoot Default Gateway IssuesVideo 10.4.1 A Network Device Differences: Part 1Video 10.4.1 B Network Device Differences: Part 2Lab 10.4.3 Basic Device ConfigurationOct 23113 (8-10)Module 11: IPv4 AddressingVideo 11.1.5 Network, Host and Broadcast AddressesActivity 11.2.4 Unicast, Broadcast, or MulticastActivity 11.3.3 Pass or Block IPv4 AddressesActivity 11.3.7 Public or Private IPv4 AddressVideo 11.3.5 The Subnet MaskVideo 11.5.4 Subnet with the Magic NumberLab 11.5.5 Subnet an IPv4 NetworkVideo 11.6.4 Subnet Across Multiple OctetsLab 11.7.5 Subnetting ScenarioVideo 11.8.1 VLSM BasicsVideo 11.8.2 VLSM ExampleLab 11.9.3 VLSM Design and Implementation PracticeLab 11.10.1 Design and Implement a VLSM Addressing SchemeOct 3011Module 11: IPv4 Addressing ContinuedNov 612 & 13Module 12: IPv6 AddressingModule 13: ICMPLab 12.6.6 Configure IPv6 AddressingLab 12.9.1 Implement a Subnetted IPv6 Addressing SchemeLab 13.2.6 Verify IPv4 and IPv6 AddressingLab 13.2.7 Use Ping and Traceroute to Test Network ConnectivityLab 13.3.1 Use ICMP to Test and Correct Network ConnectivityNov 1314 & 154 (11-13)Module 14: Transport Layer Module 15: Application LayerVideo 14.5.5 TCP 3- HandshakeVideo 14.6.2 TCP Reliability- Sequence Numbers and AcknowledgmentsVideo 14.6.4 TCP Reliability – Reliability and Flow controlLab 14.8.1 Packet Tracer - TCP and UDP CommunicationsNov 2016 & 175 (14 & 15)Module 16: Network Security Fundamentals Module 17: Build a Small NetworkLab 16.4.6 Configure Secure Passwords and SSHLab 16.5.1 Secure Network DevicesVideo 17.5.8 The show version CommandLab 17.5.9 Interpret show Command OutputLab 17.7.7 Troubleshoot Connectivity IssuesLab 17.8.2 Skills Integration ChallengeLab 17.8.3 Troubleshooting ChallengeDec 46 (16 & 17)ReviewDec 11On-Line Final ExamDec 18Three (3) Hour Packet Tracer Practical ................
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