III
- 2.4.
- Distance for Network Link
- 5 Wireless Networks
- 2.5. 1 WLAN Frame Format
- 2.5.2 Wireless Mesh Network and its Advantages
- 2.5. 3 WMNs routing protocols
- 2.5. 4 Routing approaches for WMNs
- 2.5.^4^1 DSR protocol
- 1 Introduction Systems
- 2 Principles of Power Systems
- 3.3 Problem Description
- 3.4 Locations Determination
- 3.5 Choosing the Suitable Network Topology
- 5 .1 Find Minimum Spanning Trees using Prim’ algorithm.
- 3.6 Transmission Media Selection
- 3.6.1 Maximum Cable Distance for Ethernet
- 3.6.2 Calculating Maximum Cable Distance
- 3.6.3 Optical Loss Budget for 1000 Base-LH
- 3.6.4 Optical Loss Budget for 1000 Base- ZX
- 3.7 SCADA System Simulation Model
- 7 .1 Simulation Model Objects
- 7 .2 The simulation model Size...................................
- 3.7.3 SCADA System Services
- 3.7.4 Configuration of Network Simulation
- 3.7.4.1 Statistics Selection
- 3.7.4.2 Configuring the Simulation................................
- 3.7.5 The Simulation results
- 3.8 Network Availability and Reliability........................
- 3.8.1 Dual Links......................................................
- 3.8.2 Redundant Paths
- 3.8.3 System Network Reliability Implementation
- 3.9 Improving Mesh Network (WMN)System Reliability U .................................sing a Standby Wireless....
- 3.9.1 Object Configuration
- 3.9.2 Transmit Power Estimation
- 3.9.3 Assumptions
- 3.9.4 Performance Metrics
- 3.9.5 Network Modeling Scenarios
- 3.9.6 Simulation Results and Discussion
- 4.1 Introduction.............................................................. Chapter 4: Practical Implementation of the Suggested SCADA System
- 4.2 National Instruments (NI) Systems
- 4.3 Introduction to LabVIEW
- 2.1 A typical SCADA system Figure Contents Page
- 2.2 First Generation SCADA Architecture
- 2.3 Second Generation SCADA Architecture
- 2.4 Third Generation SCADA Architecture
- 2.5 Components of a typical DAQ system
- 2.6 Ethernet evolution through four generations
- 7 Model of "simple" fiber optic data link
- 8 Wireless Network
- 9 WLAN Frame format
- 10 Wireless Mesh Network
- 2.1 1 Routing protocol classification
- 2.1 2 DSR route discovery
2.1 3 DSR routing algorithm
- distribution system
- 3.2 Searth softwareubstations location on Nineveh city map using Google
- 3.3 Minimum spanning tree with Prim’s algorithm steps
- 3.4 Tlogarithmhe substation s locations as connected using Prim’s
- 3.5 The designed topology with cable types Figure Contents Page
- 3.6 OPNET simulated network model
- 3.7 FTP download response time
- 3.8 Remote login response time
- 3.9 Video conferencing packvideo streeming and conferenceet End- to-End Delay. include
- 3.10 VOIP packet End-to-End Delay
- 3.12 Transmit distance range vs. data rate 3.11 network
- 3.13 WLAN parameters used
- 3.14 DSR parameters used
- The SCADA system routes in the WNM network with
- 4.1 LabVIEW Software 3.15 nodes (stations), Repeater and 1 FTP server
- 4.2 National Instruments PCI-6251 DAQ
- 4.3 General M Series Block Diagram
- 4.4 Basic representation of a SCADA network
- 4.5 Practical implementation of a SCADA network
- 6 The Front Panel of the sender program (Adaia)
- 7 Data in (A) Data Packet, (B) Control Packet Figure Contents Page
- 8 The Front Panel of the receiver program
- 9 The Block Panel of the receiver program
- 10 APackets captured using daia substation the Wireshark software of the
- 4.1 1 Packets captured using Hammam Al-aleel substationthe WireShark software of the
- 4.1 2 IO graph for Adaia substation
- 4.1 3 IO graph for Hammam Al-aleel substation
- 4.1 4 Response time for Adaia (wireless) substation
- 4.1 5 Response time for Hammam Al-aleel (wire) substation
- 4.1 6 IPv4 as packets-protocols
- 4.1 7 UDP protocol as packets-IP protocol
- 18 Packets-size with 64-127 bytes is almost used
- A 1 .1 Ethernet in relation to the TCP/IP Model A 1 -
- A 1 2 802.3 MAC frame A 1 -
- A1. 3 Switched Ethernet A 1 -
- A1. 4 Full-duplex switched Ethernet A 1 -
- A1. 5 Gigabit Ethernet implementations A 1 -
- A4.1 LabVIEW Palette A4-