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Introduction to Technology Infrastructure
Chapter 1 Introduction to Technology Infrastructure
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Announcements and Outline
Class Outline 1.Introduction to Networks 1.1 Network Types/Technologies 1.2 Layering and Packetization 2
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Why Networks are Important
Data, data, data! Modern organizations rely on the efficient transmission of data Enables distributed systems, real-time communication, electronic commerce, social media, and the Web
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Data Communications Data Communications is the movement of computer information from one point to another by means of electrical or optical transmission systems Telecommunications is a broader term and includes the transmission of voice and video (images and graphics) as well as data and usually implies longer distances
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Basic Network Components
Client is a user device to access network and receive data from server e.g., desktops, laptops, tablets, cell phones, etc. Server is a device that stores and transmits data to a client e.g., Web server, mail server, file server Circuit is a pathway or connection between client and server e.g., copper wire, fiber optic cable, wireless
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Network Types/Technologies
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Network Types/Technologies
Local Area Networks (LAN) Wireless Local Area Networks (WLAN) Backbone WAN 7
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Network Layers Most Commonly Used Models:
OSI (Open Systems Interconnection Reference Model) Network Model Protocols & Protocol Data Unit (PDU) 8
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Network Layers (Network Model)
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Network Layers – Packetization
Packetization is breaking down user data into small segments packaging these segments appropriately so that they can be delivered and reassembled across the network *From Agarwal – Business Data Communications 10
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Network Layers – 5 Important Data Comm. Tasks
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Network Layers APPLICATION LAYER Software used by the users
Common Examples: Protocols: PDU: 12
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Network Layers TRANSPORT LAYER End to end management Responsibilities:
(1) Link Applications Layer Segmenting and Tracking Session Management 13
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Network Layers TRANSPORT LAYER (cont.) Protocols: PDU: 14
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Network Layers NETWORK LAYER Decides where the messages should go
Functions: Addressing Routing Protocol: PDU: 15
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Network Layers DATA LINK LAYER
Moves messages from one computer to the next Functions: Controls Hardware Formats Messages Error Checking Protocol: PDU: 16
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Network Layers PHYSICAL LAYER Hardware that transmits the message
Protocols: PDU: 17
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Network Layers - Summary
Purpose Example Protocols / Standards PDU 5. Application User’s access to network, software to perform work HTTP, SMTP, DNS, FTP, DHCP, IMAP, POP, SSL Packet (or Data) 4. Transport End-to-End Management Link application layer to network Segmenting and tracking Flow control TCP, UDP Segment 3. Network Deciding where the message goes Addressing Routing IP, ICMP Packet 2. Data Link Move a message from one device to the next Controls hardware Formats the message Error checking Ethernet Frame 1. Physical Transmits the message 100BASE-T, n 18
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Sender PDU Receiver HTTP Request HTTP Request TCP HTTP Request TCP
Application Packet Transport Segment Network Data Link Frame Physical HTTP Request HTTP Request TCP HTTP Request TCP HTTP Request IP TCP HTTP Request IP IP TCP HTTP Request Ethernet Ethernet IP TCP HTTP Request Ethernet IP TCP HTTP Request
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Network Layers Standards
IEEE (Institute of Electrical and Electronics Engineering) – develops US standards Formal Standardization Process Internet technology standards are publicly available as Requests For Comment (RFCs) Highly recommended standards HTTP: TCP: IP: TCP/ IP tutorial: Domain names: 20
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Pros and Cons of using Layers
Advantages: Disadvantages: 21
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Trends Bring your own device (BYOD) Internet of Thing (IoT) Massively Online (MOOCS)
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Recap Network Types 1.1 Network Types LAN WLAN Backbone WAN
1.2 Network Layers Network Model Standards Pros/Cons 23
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Tuesday – Meet in CIS1007 Chapter 2 – Application Layer Hardware
Software Architecture Web 24
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