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Experiments Manual

Table of Contents

• Introduction to Network simulation and NetSim
  • Introduction to NetSim (Level 1)
  • Understand the working of Basic Network Commands (Level 1)
  • Understand the events involved in NetSim DES in simulating flow of one packet from a Wired node to a Wireless node (Level 2)
  • Plot the characteristic curve of throughput versus offered traffic for a Pure and Slotted Aloha system (Level 2)
• Network Performance
  • Data traffic types and network performance measures (Level 1)
  • Simulating Link Failure (Level 1)
  • Delay and Little’s Law (Level 2)
  • Throughput and Bottleneck Server Analysis (Level 2)
• Routing & Switching
  • The OSPF weight setting problem and the performance comparison of the OSPF vs. RIP
  • Understand working of ARP and IP Forwarding within a LAN and across a router (Level 1)
  • Simulate and study the spanning tree protocol (Level 1)
  • Understanding VLAN operation in L2 and L3 Switches (Level 2)
  • Understanding Access and Trunk Links in VLANs (Level 2)
  • Understanding the working of Public IP Address and Network Address Translation (NAT). (Level 2)
  • M/D/1 and M/G/1 Queues (Level 3)
  • Understand the working of OSPF and SPF (Level 3)
• Transmission control protocol (TCP)
  • Introduction to TCP connection management (Level 1)
  • Reliable data transfer with TCP (Level 1)
  • Mathematical Modelling of TCP Throughput Performance (Level 2)
  • TCP Congestion Control Algorithms (Level 2)
  • Understand the working of TCP BIC Congestion control algorithm, simulate, and plot the TCP congestion window (Level 2)
• Wi-Fi: IEEE 802.11
  • Wi-Fi: Throughput variation with distance (Level 1)
  • Wi-Fi: UDP Download Throughput (Level 1)
  • How many downloads can a Wi-Fi access point simultaneously handle?(Level 2)
  • Multi-AP Wi-Fi Networks: Channel Allocation (Level 2)
  • Wi-Fi Multimedia Extension (IEEE 802.11 EDCA) (Level 3)
• Internet of Things (IOT) and Wireless Sensor Networks
  • One Hop IoT Network over IEEE 802.15.4 (Level 2)
  • IoT – Multi-Hop Sensor-Sink Path (Level 3)
  • Performance Evaluation of a Star Topology IoT Network (Level 3)
  • Study the 802.15.4 Superframe Structure and analyze the effect of Superframe order on throughput (Level 3)
• Radio Propagation
  • Pathloss, Shadowing and Fading (Level 1)
• Mobile Ad hoc Networks
  • Connectivity of a randomly deployed 1-D ad hoc network (Level 2)
• 4G LTE
  • LTE Handover (Level 1)
  • Impact of Interference in 4G Networks (Level 3)
  • Understanding the Impact of MAC Scheduling algorithms on throughput, in a multi-UE scenario (Level 2)
• 5G NR
  • MIMO Beamforming in 5G: A start with MISO and SIMO
  • Throughput and fairness of 5G scheduling algorithms in a complex network environment
  • Understanding the 5G NR PHY
  • Understanding 5G NR (3GPP) pathloss models
  • Performance of OFDMA SU-MIMO in 5G
  • 5G Numerologies and their impact on end-to-end latencies
  • MIMO Communication: Channel Matrix Asymptotic Analysis