Lec04_Networking Today.pdf
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Basic Networking Lecture 4: Networking Today Network Components: Host Roles ▪ Every computer on a network is called a host or end device. ▪ Servers are computers that provide information to end devices: email servers web servers file server ▪ Clients are computers that send requests to the servers t...
Basic Networking Lecture 4: Networking Today Network Components: Host Roles ▪ Every computer on a network is called a host or end device. ▪ Servers are computers that provide information to end devices: email servers web servers file server ▪ Clients are computers that send requests to the servers to retrieve information: Server Type Description Email Email server runs email server software. Clients use client software to access email. Web Web server runs web server software. Clients use browser software to access web pages. File File server stores corporate and user files. The client devices access these files. web page from a web server email from an email server 2 Network Components: Peer-to-Peer It is possible to have a device be a client and a server in a Peer-to-Peer Network. This type of network design is only recommended for very small networks. Advantages Disadvantages Easy to set up No centralized administration Less complex Not as secure Lower cost Not scalable Used for simple tasks: transferring files and sharing printers Slower performance 3 Network Components: End Devices ❖ An end device is where a message originates from or where it is received. Data originates with an end device, flows through the network, and arrives at an end device. 4 Network Components: Intermediary Network Devices ▪ An intermediary device interconnects end devices. Examples include switches, wireless access points, routers, and firewalls. ▪ Management of data as it flows through a network is also the role of an intermediary device, including: Regenerate and retransmit data signals. Maintain information about what pathways exist in the network. Notify other devices of errors and communication failures. 5 Common Types of Networks: Networks of Many Sizes Small Home Networks – connect a few computers to each other and the Internet Small Office/Home Office – enables computer within a home or remote office to connect to a corporate network Small Home SOHO Medium to Large Networks – many locations with hundreds or thousands of interconnected computers World Wide Networks – connects hundreds of millions of computers world-wide – such as the internet Medium/Large World Wide 6 Common Types of Networks: LANs and WANs Network infrastructures vary greatly in terms of: Size of the area covered Number of users connected Number and types of services available Area of responsibility Two most common types of networks: Local Area Network (LAN) Wide Area Network (WAN). 7 Common Types of Networks: LANs and WANs (cont.) ▪ A LAN is a network infrastructure that spans a small geographical area. A WAN is a network infrastructure that spans a wide geographical area. LAN WAN Interconnect end devices in a limited area. Interconnect LANs over wide geographical areas. Administered by a single organization or individual. Typically administered by one or more service providers. Provide high-speed bandwidth to internal devices. Typically provide slower speed links between LANs. 8 Common Types of Networks: Intranets and Extranets ❖ An intranet is a private collection of LANs and WANs internal to an organization that is meant to be accessible only to the organizations members or others with authorization. ❖ An organization might use an extranet to provide secure access to their network for individuals who work for a different organization that need access to their data on their network. 9 Internet Connections: Internet Access Technologies ▪ There are many ways to connect users and organizations to the internet: Popular services for home users and small offices include broadband cable, broadband digital subscriber line (DSL), wireless WANs, and mobile services. Organizations need faster connections to support IP phones, video conferencing and data center storage. Business-class interconnections are usually provided by service providers (SP) and may include: business DSL, leased lines, and Metro Ethernet. 10 Internet Connections: Home and Small Office Internet Connections Connection Description Cable high bandwidth, always on, internet offered by cable television service providers. DSL high bandwidth, always on, internet connection that runs over a telephone line. Cellular uses a cell phone network to connect to the internet. Satellite major benefit to rural areas without Internet Service Providers. Dial-up telephone an inexpensive, low bandwidth option using a modem. Internet Connections: Businesses Internet Connections Corporate business connections may require: higher bandwidth Type of Connection Description Dedicated Leased Line These are reserved circuits within the service provider’s network that connect distant offices with private voice and/or data networking. Ethernet WAN This extends LAN access technology into the WAN. DSL Business DSL is available in various formats including Symmetric Digital Subscriber Lines (SDSL). Satellite This can provide a connection when a wired solution is not available. dedicated connections managed services 12 Internet Connections: The Converging Network Before converged networks, an organization would have been separately cabled for telephone, video, and data. Each of these networks would use different technologies to carry the signal. Each of these technologies would use a different set of rules and standards. 13 Internet Connections: The Converging Network (Cont.) Converged data networks carry multiple services on one link including: data voice video Converged networks can deliver data, voice, and video over the same network infrastructure. The network infrastructure uses the same set of rules and standards. 14 Reliable Network: Network Architecture Network Architecture refers to the technologies that support the infrastructure that moves data across the network. There are four basic characteristics that the underlying architectures need to address to meet user expectations: Fault Tolerance Scalability Quality of Service (QoS) Security 15 Reliable Network: Fault Tolerance A fault tolerant network limits the impact of a failure by limiting the number of affected devices. Multiple paths are required for fault tolerance. Reliable networks provide redundancy by implementing a packet switched network: Packet switching splits traffic into packets that are routed over a network. Each packet could theoretically take a different path to the destination. This is not possible with circuitswitched networks which establish dedicated circuits. 16 Reliable Network: Scalability ▪ A scalable network can expand quickly and easily to support new users and applications without impacting the performance of services to existing users. ▪ Network designers follow accepted standards and protocols in order to make the networks scalable. 17 Reliable Network: Quality of Service Voice and live video transmissions require higher expectations for those services being delivered. Have you ever watched a live video with constant breaks and pauses? This is caused when there is a higher demand for bandwidth than available – and QoS isn’t configured. Quality of Service (QoS) is the primary mechanism used to ensure reliable delivery of content for all users. With a QoS policy in place, the router can more easily manage the flow of data and voice traffic. 18 Reliable Network: Network Security There are two main types of network security that must be addressed: Network infrastructure security Physical security of network devices Preventing unauthorized access to the devices Information Security Protection of the information transmitted over the network or data Three goals of network security: Confidentiality – only intended recipients can read the data Integrity – assurance that the data has not be altered with during transmission Availability – assurance of timely and reliable access to data for authorized users 19 Network Trends: Recent Trends The role of the network must adjust and continually transform in order to be able to keep up with new technologies and end user devices as they constantly come to the market. Several new networking trends that effect organizations and consumers: Bring Your Own Device (BYOD) Online collaboration Video communications Cloud computing 20 Network Trends: Bring Your Own Device Bring Your Own Device (BYOD) allows users to use their own devices giving them more opportunities and greater flexibility. BYOD allows end users to have the freedom to use personal tools to access information and communicate using their: Laptops Netbooks Tablets Smartphones E-readers BYOD means any device, ownership, used anywhere. with any 21 Network Trends: Online Collaboration ▪ Collaborate and work with others over the network on joint projects. ▪ Collaboration tools including Cisco WebEx (shown in the figure) gives users a way to instantly connect and interact. ▪ Collaboration is a very high priority for businesses and in education. ▪ Cisco Webex Team is a multifunctional collaboration tool. send instant messages post images post videos and links 22 Network Trends: Video Communication Video calls are made to anyone, regardless of where they are located. Video conferencing is a powerful tool for communicating with others. Video is becoming a critical requirement for effective collaboration. Cisco TelePresence powers is one way of working where everyone, everywhere. 23 Network Trends: Cloud Computing Cloud computing allows us to store personal files or backup our data on servers over the internet. Applications can also be accessed using the Cloud. Allows businesses to deliver to any device anywhere in the world. ▪ Data centers are facilities used to house computer systems and associated components ▪ Data centers are typically very expensive to build and maintain Cloud computing is made possible by data centers. Smaller companies that can’t afford their own data centers, lease server and storage services from larger data center organizations in the Cloud. 24 Network Trends: Cloud Computing (Cont.) Four types of Clouds: Public Clouds Available to the general public through a pay-per-use model or for free. Private Clouds Intended for a specific organization or entity such as the government. Hybrid Clouds Made up of two or more Cloud types – for example, part custom and part public. Each part remains a distinctive object but both are connected using the same architecture. Custom Clouds Built to meet the needs of a specific industry, such as healthcare or media. Can be private or public. 25 Network Trends: Technology Trends in the Home Smart home technology is a growing trend that allows technology to be integrated into every-day appliances which allows them to interconnect with other devices. Ovens might know what time to cook a meal for you by communicating with your calendar on what time you are scheduled to be home. Smart home technology is currently being developed for all rooms within a house. 26 Network Trends: Powerline Networking Powerline networking can allow devices to connect to a LAN where data network cables or wireless communications are not a viable option. Using a standard powerline adapter, devices can connect to the LAN wherever there is an electrical outlet by sending data on certain frequencies. Powerline networking is especially useful when wireless access points cannot reach all the devices in the home. 27 Network Trends: Wireless Broadband In addition to DSL and cable, wireless is another option used to connect homes and small businesses to the internet. More commonly found in rural environments, a Wireless Internet Service Provider (WISP) is an ISP that connects subscribers to designated access points or hotspots. Wireless broadband is another solution for the home and small businesses. Uses the same cellular technology used by a smart phone. An antenna is installed outside the house providing wireless or wired connectivity for devices in the home. 28 Network Security: Security Threats Network security is an integral part of networking regardless of the size of the network. The network security that is implemented must take into account the environment while securing the data, but still allowing for quality of service that is expected of the network. Securing a network involves many protocols, technologies, devices, tools, and techniques in order to secure data and mitigate threats. Threat vectors might be external or internal. 29 Network Security: Security Threats (Cont.) ❖ External Threats: Viruses, worms, and Trojan horses Spyware and adware Zero-day attacks Threat Actor attacks Denial of service attacks Data interception and theft Identity theft ❖ Internal Threats: lost or stolen devices accidental misuse by employees malicious employees 30 Network Security: Security Solutions Security must be implemented in multiple layers using more than one security solution. Network security components for home or small office network: Antivirus and antispyware software should be installed on end devices. Firewall filtering used to block unauthorized access to the network. 31 Network Security : Security Solutions (Cont.) Larger networks requirements: have additional Dedicated firewall system Access control lists (ACL) Intrusion prevention systems (IPS) Virtual private networks (VPN) security The study of network security starts with a clear understanding of the underlying switching and routing infrastructure. 32 THANKS! Best Regards!