Bill of engineering measurement and evaluation of a wireless local area network implementation | Blazingprojects Postgraduate Thesis
Home / Computer Engineering / Bill of engineering measurement and evaluation of a wireless local area network implementation

Bill of engineering measurement and evaluation of a wireless local area network implementation

 

Table Of Contents


Chapter ONE

INTRODUCTION

  • 1.1Introduction
  • 1.2Background of Study
  • 1.3Problem Statement
  • 1.4Objective of Study
  • 1.5Limitation of Study
  • 1.6Scope of Study
  • 1.7Significance of Study
  • 1.8Structure of the Research
  • 1.9Definition of Terms

Chapter TWO

LITERATURE REVIEW

  • 2.1Overview of Wireless Local Area Network (WLAN)
  • 2.2Evolution of WLAN Technologies
  • 2.3WLAN Standards and Protocols
  • 2.4Security Concerns in WLAN Implementations
  • 2.5Performance Metrics for WLANs
  • 2.6WLAN Deployment Strategies
  • 2.7Case Studies on WLAN Implementations
  • 2.8Challenges in WLAN Implementations
  • 2.9Future Trends in WLAN Technology
  • 2.10Best Practices for WLAN Implementation

Chapter THREE

SYSTEM DESIGN AND IMPLEMENTATION

  • 3.1Research Design and Methodology
  • 3.2Data Collection Methods
  • 3.3Sampling Techniques
  • 3.4Research Instruments
  • 3.5Data Analysis Procedures
  • 3.6Ethical Considerations
  • 3.7Validity and Reliability
  • 3.8Limitations of the Research Methodology

Chapter FOUR

SYSTEM TESTING AND EVALUATION

  • 4.1Analysis of WLAN Implementation in Organization A
  • 4.2Evaluation of WLAN Performance Metrics
  • 4.3Comparison of WLAN Standards Used
  • 4.4Security Assessment of WLAN Setup
  • 4.5User Satisfaction Survey Results
  • 4.6Recommendations for WLAN Improvement
  • 4.7Cost-Benefit Analysis of WLAN Implementation
  • 4.8Future Strategies for WLAN Upgrade

Chapter FIVE

SUMMARY, CONCLUSION AND RECOMMENDATIONS

  • 5.1Summary of Findings
  • 5.2Conclusions
  • 5.3Implications for Practice
  • 5.4Recommendations for Future Research
  • 5.5Conclusion and Final Remarks

Thesis Abstract

Abstract
This research project focuses on conducting a bill of engineering measurement and evaluation of a wireless local area network (WLAN) implementation. The objective is to assess the costs, resources, and effectiveness of deploying a WLAN in a specific environment. The study involves analyzing the various components involved in setting up the WLAN, including hardware, software, infrastructure, and maintenance requirements. A comprehensive bill of engineering measurement will be developed to itemize all the necessary materials and resources needed for the WLAN implementation. This includes routers, access points, cables, antennas, network switches, and other hardware components. The cost of each item will be evaluated to determine the overall budget required for the project. In addition to the material costs, the research will also consider the labor costs involved in setting up the WLAN. This includes the manpower required for installation, configuration, and maintenance of the network. By quantifying the labor costs, the study aims to provide a complete picture of the financial investment needed for the WLAN implementation. Furthermore, the effectiveness of the WLAN implementation will be evaluated through performance testing and monitoring. The research will assess the network's reliability, speed, coverage, and security features. By conducting various tests and simulations, the study aims to determine the overall quality of the WLAN and identify any potential areas for improvement. Moreover, the research will analyze the scalability of the WLAN to accommodate future growth and expansion. This involves evaluating the network's capacity to support additional devices and users as the environment evolves. By assessing the scalability of the WLAN, the study aims to ensure that the network can adapt to changing needs and requirements. Overall, this research project aims to provide valuable insights into the costs and effectiveness of a WLAN implementation. By conducting a detailed bill of engineering measurement and evaluation, the study will help organizations make informed decisions about deploying wireless networks in their environments. The findings of this research can be used to optimize resource allocation, improve network performance, and enhance the overall efficiency of WLAN implementations.

Thesis Overview

<p> </p><p>This seminar paper extensively discusses Wireless Local Area Network as an alternative to Cabled Local Area network (LAN). The paper classifies networking into three major parts (i.e Local Area Network-LAN, Metropolitan Area Network-MAN, Wide Area Network-WAN). It also presents Wireless Local Area Network (WLAN), Wireless Wide Area Network (WWAN), Personal Area Network (PAN), Home Area Network (HAN), Storage Area Network (SAN), Enterprise Area Network (EAN), Virtual Private Network (VPN) and lastly, Campus Area Network (CAN) as further classification of networks based on the initial three major classifications. It also describes the implementation of WLAN by using one of the computer laboratories of Dr. Olagunju’s Computer Centre of Federal Polytechnic Offa as a case study. The standard WLAN is carried out using 15 personal computers and other network devices. The circuitry structure and cost analysis are also presented.</p><p><strong>Keywords: </strong>Computer, Network, Access Point, PC Cards, IEEE 802.11.</p><p><strong>Introduction</strong></p><p>This seminar paper is on Wireless Local Area Network, it starts by looking at the basics of networking since WLAN is an extension of, or alternative to, LAN which is one of the major categories of network classifications. There is also Wireless Wide Area Network which is an extension of or alternative to WAN but this paper limits its discussion to WLAN.</p><p>Initially, Computer was manufactured to be a single operating machine but as researches advanced, the issue of networking came into existence. The Engineers later thought of connecting two or more computers together to share resources which gave birth to networking. The Computer Engineers brought in computer network which makes it easier for two or more computers to be connected together and communicate with a view to sharing resources such as printers, telephone lines, fax machine, scanner, drives etc. So, Network is interconnectivity of two or more network devices to share resources. [1] [2]</p><p><strong>Computer Network</strong></p><p>Computer network is a connection of two or more computer systems together in order to share resources such as printers, drives, internet, telephone lines, fax machine, applications etc</p><p><strong>Major Categories of Network</strong></p><p><strong>Local Area network</strong></p><p>This is a connection of two or more computers or workstations within a small geographical area such as home, buildings, closed group of buildings, offices, schools etc.</p><p><strong>Metropolitan Area Network</strong></p><p>This is a connection of two or more computers or workstations within a metropolis. It could be a connection of two or more LANs within the metropolis. . MAN can be wired, wireless or both like LAN.</p><p><strong>Wide Area Network</strong></p><p>This is a connection of two or more computers within a large geographical area such as country to country, city to city, state to state etc. e.g. Nigeria to Ghana, and Nigeria to India etc. WAN can be wired, wireless or both Like MAN and LAN.</p><p><strong>Other Categories of Network</strong></p><ol><li>Personal Area Network (PAN)</li><li>Home Area Network (HAN)</li></ol><ul><li>Storage Area Network (SAN)</li></ul><ol><li>Enterprise Private Network (EPN)</li><li>Virtual Private Network (VPN)</li><li>Backbone Network (BN)</li></ol><ul><li>Campus Area Network (CAN)</li></ul><p><strong>Wireless LAN Networking Media/Hardware</strong></p><p><strong>Access Point</strong></p><p>The access point is a device that links a wireless network to a wired LAN. It increases the effective range of a wireless network and provides additional network management and security features. Wireless networks of three or fewer PCs do not require an access point for ad-hoc networking. Access points are useful for larger networks, and they are particularly well-suited for adding wireless capability to an existing wired network.</p><p><strong>Router</strong></p><p>A router is a device used for sharing a single Internet connection across multiple computers. This is ideal in the home or office where multiple computers and devices can be online at the same time with only a single Internet connection.</p><p><strong>PC Card</strong></p><p>A wireless PC card enables laptop users to connect wirelessly to the LAN.</p><p><strong>Objectives of the paper</strong></p><p>The main objective of this paper is to equip IT support staff, students, instructors, network users of any establishment, and anybody who is interested in WLAN with the first hand information on wireless LAN, and what it takes to implement a standard wireless LAN environment. Also, it is to enhance learning and teaching on Wireless LAN Networking with a view to providing a conducive environment for teaching, learning and research. This paper will be useful to both students and instructors of computer science who want to know more about wireless LAN because the paper has been prepared to be a source of knowledge for IT managers, Engineers, staff, students and network users, and anyone who is interested in knowing the technologies behind wireless LAN and how it can be used to enhance performance. The readers will not only have ideas of technical issues involved in implementing a standard WLAN, but they will also appreciate the ways in which a wireless LAN can enhance educational process for students, staff and any interested party.</p><p><strong>Wireless LAN Technology</strong></p><p>Wired LAN is implemented using networking cables to connect two or more computers and other networking devices together to share resources such as internet, printers, telephone, scanner etc. This is achieved by using cables as a networking media; Wireless LAN is easy way of extending or replacing a wired Local Area Network simply called LAN. Wireless LAN enables users to connect wireless devices without using cables. This seminar paper, therefore, focuses on wireless LAN.</p><p><strong>Method of Research</strong></p><p><strong>Wireless LAN standard</strong></p><p><strong>Technical Standards</strong></p><p>Technical standards are one of the main concerns of users of wireless LAN products. Users would like to buy wireless products from different manufacturers and be able to use them on one network. The IEEE Project 802.11 has set up universal standards for wireless LAN. Some of these standards will be considered [7].</p><p><strong>Requirements</strong></p><p>In March 1992, the IEEE Project 802.11 established a set of requirements for wireless LAN. The minimum bandwidth needed for operations such as file transfer and program loading is 1Mbps. Operations which need real-time data transmission such as digital voice and process control, need support from time bounded services [7].</p><p><strong>Types of Wireless LAN</strong></p><p>The Project 802.11 committee distinguished between two types of wireless LAN :</p><p>“ad-hoc” and “infrastructred” networks [4] [7].</p><p><em>Figure 2 : (a) Infrastructred Wireless LAN; (b) Ad-hoc Wireless LAN. </em>[4] [7]</p><p><strong>Ad-hoc Networks</strong></p><p>Figure 2b shows an ad-hoc network. This network can be set up by a number of mobile users meeting in a small room. It does not need any support from a wired/wireless backbone. There are two ways to implement this network.</p><p><strong>Broadcasting/Flooding</strong></p><p>This aspect explains a situation in which a mobile user A wants to send data to another user B in the same area. When the packets containing the data are ready, user A broadcasts the packets. On receiving the packets, the receiver checks the identification on the packet. If that receiver is not the correct destination, then it rebroadcasts the packets. This process is repeated until user B gets the data. In this method, the mobile users set up a temporary infrastructure. But this method is complicated and it introduces overheads. It is useful only when there is small number of mobile users.</p><p><strong>Infrastructure Networks</strong></p><p>Figure 2a shows an infrastructure-based network. This type of network allows users to move in a building while they are connected to computer resources. The IEEE Project 802.11 specified the components in a wireless LAN architecture</p><p><strong>Temporary Infrastructure</strong></p><p>In infrastructure network, a cell is also known as a Basic Service Area (BSA). It contains a number of wireless stations. The size of a BSA depends on the power of the transmitter and receiver units, it also depends on the environment. A number of BSAs are connected to each other and to a distribution system by Access Points (APs). A group of stations belonging to an AP is called a Basic Service Set (BSS). Figure 3 shows the basic architecture for wireless LANs.</p><p><em>Figure 3 : Architecture for Wireless LANs </em>[4] [6]</p><p><strong>WLAN topologies</strong></p><p>IEEE 802.11 supports three basic topologies for WLANs [2][3]: the Independent Basic Service Set (IBSS), the Basic Service Set (BSS), and the Extended Service Set (ESS). All three configurations are supported by the MAC layer implementation. The 802.11 standard defines two modes: ad-hoc/IBSS and infrastructure mode. Logically, an ad-hoc configuration is analogous to a peer-to-peer office network in which no single node is required to function as a server [2]. IBSS WLANs include a number of nodes or wireless stations that communicate directly with one another on an ad-hoc, peer-to-peer basis, building a full-mesh or partial-mesh topology. Generally, ad-hoc implementations cover a limited area and are not connected to any larger network.</p><p>Using infrastructure mode, the wireless network consists of at least one access point connected to the wired network infrastructure and a set of wireless end stations. This configuration is called a Basic Service Set (BSS). Since most corporate WLANs require access to the wired LAN for services (file servers, printers, Internet links), they will operate in infrastructure mode and rely on an Access Point (AP) that acts as the logical server for a single WLAN cell or channel. Communications between two nodes, A and B, actually flow from node A to the AP and then from the AP to node B. The AP is necessary to perform a bridging function and connect multiple WLAN cells or channels, and to connect WLAN cells to a wired enterprise LAN.</p><p><strong>Implementation of a Standard Wireless LAN</strong></p><p>This section discusses design and implementation of a standard wireless LAN using Dr. Olagunju Computer centre of Federal Polytechnic Offa as a case study.</p><p><strong>List of Equipment with the Cost of Implementation</strong></p><p>The Table 1 through 5 below show the list of equipment used in designing Wireless LAN in LAB 1 of Dr. Olagunju Computer Centre, Federal Polytechnic Offa, Kwara State.</p><p><strong>TABLE 1 COMPUTER SOFTWARE AND ACCESSORIES</strong></p><strong>S/N</strong><strong>ITEMS</strong><strong>QTY</strong><strong>UNIT COST</strong><strong>AMOUNT</strong><strong>1</strong><strong>HP PROLIANT Server: ML370 GB, INTELXEON PROCESSOR, ULTRA 320SCSI ADAPTOR, SMART ARRAY 641 CONTROLLER, 1GB RAM, 146GB X2 (RAID), MOUSE, K/B and 17 TFT</strong><strong>1</strong><strong>&nbsp;</strong><p></p><p><strong>N250, 000</strong></p><strong>&nbsp;</strong><p></p><p><strong>N250, 000</strong></p><strong>2</strong><strong>WINDOWS SERVER 2003 (ENT. EDITION) OD HIGHER VERSION</strong><strong>1</strong><strong>&nbsp;</strong><p></p><p><strong>N23, 000</strong></p><strong>&nbsp;</strong><p></p><p><strong>N23, 000</strong></p><strong>MICROSOFT OFFICE 2003 OR HIGHER VERSION</strong><strong>1</strong><strong>&nbsp;</strong><p></p><p><strong>N18, 000</strong></p><strong>&nbsp;</strong><p></p><p><strong>N18, 000</strong></p><strong>ENTERPRISES ANTIVIRUS 2012 VERSION</strong><strong>16</strong><strong>&nbsp;</strong><p></p><p><strong>N3, 000</strong></p><strong>&nbsp;</strong><p></p><p><strong>N48, 000</strong></p><strong>ENCARTA ENCYLOPEDIA 2008</strong><strong>1</strong><strong>&nbsp;</strong><p></p><p><strong>N3, 000</strong></p><strong>&nbsp;</strong><p></p><p><strong>N3, 000</strong></p><strong>WINDOWS XP PROFESSIONAL</strong><strong>1</strong><strong>&nbsp;</strong><p></p><p><strong>N18, 000</strong></p><p><strong>N18, 000</strong></p><strong>CORELDRAW 12 OR HIGHER VERSION</strong><strong>1</strong><strong>N15, 000</strong><strong>N15, 000</strong><strong>3</strong><strong>BRANDDED COMPUTER WORK STATION:- CORE 2 DUO 2.0GHZ PROCESSOR, IGB RAM, 100-250GB CDRW/DVD MINI-TOWER, 802.11 B/G/N/GIGABIT-ETHERNET, PS/2 MOUSE, PS/2 K/B AND 17” TFT</strong><strong>15</strong><p><strong>N90, 000</strong></p><strong>&nbsp;</strong><p></p><p><strong>&nbsp;</strong></p><p><strong>N1, 350, 000</strong></p><p><strong>&nbsp;</strong></p><p><strong>&nbsp;</strong></p><p><strong>TABLE 2 &nbsp; &nbsp; &nbsp; PRINTER, SCANNER AND OTHERS</strong></p><strong>S/N</strong><strong>ITEMS</strong><strong>QTY</strong><strong>&nbsp;</strong><strong>&nbsp;</strong><strong>4</strong><strong>HP LASERJET 4015n(B/W NETWORK PRINTER)</strong><strong>1</strong><strong>N60,000</strong><strong>N60,000</strong><strong>5</strong><strong>HP COLOUR LASERJET CP1515N PRINTER</strong><strong>1</strong><strong>N65,000</strong><strong>N65,000</strong><strong>6</strong><strong>SHARP AR 5127 PHOTOCOPIER</strong><strong>1</strong><strong>N95,000</strong><strong>N95,000</strong><strong>7</strong><strong>MUSTER A3 SCANNER or HIGHER VERSION</strong><strong>1</strong><strong>N18,000</strong><strong>N18,000</strong><strong>8</strong><strong>BINDING MACHINE</strong><strong>1</strong><strong>N10,000</strong><strong>N10,000</strong><strong>9</strong><strong>TABLES &amp; CHAIRS (BRANDED)</strong><strong>17</strong><strong>N15,000</strong><strong>N255,000</strong><strong>10</strong><strong>AIR CONDITIONAL (1.5HP SPLIT)</strong><strong>3</strong><strong>N80,000</strong><strong>N240,000</strong><strong>13</strong><strong>STANDING FAN (OX)</strong><strong>2</strong><strong>N15,000</strong><strong>N30,000</strong><p>&nbsp;</p><p><strong>TABLE 3 WLAN ESTIMATE AND POWER SUPPLY ACCESSORIES</strong></p><strong>S/N</strong><strong>ITEMS</strong><strong>QTY</strong><strong>&nbsp;</strong><strong>&nbsp;</strong><strong>14</strong><strong>WIRELESS ROUTER/AP: IEEE802.11 B/G/N DRAFT 2.0, 2T3R MODES, SUPPORT 64/128-BIT WEP</strong><strong>1</strong><strong>&nbsp;</strong><p></p><p><strong>N10,000</strong></p><strong>&nbsp;</strong><p></p><p><strong>N10,000</strong></p><strong>15</strong><strong>2.4GHZ (IEEE 802.11G/B) WIRELESS, 108MBPS PCI CARD</strong><strong>16</strong><strong>N2,000</strong><strong>N32,000</strong><strong>16</strong><strong>16HP/7.5KVA ELECTRIC GENERATOR (FIREMAN OR SANDY BRAND)</strong><strong>1</strong><strong>N120,000</strong><strong>N120,000</strong><strong>17</strong><strong>APC SOCKETS EXTENSION WITH SURGE ARREST</strong><strong>10</strong><strong>N2,000</strong><strong>N20,000</strong><strong>&nbsp;</strong><strong>&nbsp;</strong><strong>&nbsp;</strong><strong>&nbsp;</strong><strong>&nbsp;</strong><p>&nbsp;</p><p><strong>TABLE 4 VSAT SOLUTION</strong></p><strong>S/N</strong><strong>ITEM</strong><strong>QTY</strong><strong>&nbsp;</strong><strong>&nbsp;</strong><strong>1</strong><strong>VSAT CIVIL WORKS, INTALLATION, TESTING, ALIGNMENT AND ACTIVATION</strong><strong>LOT</strong><strong>&nbsp;</strong><p></p><p><strong>N40,000</strong></p><strong>&nbsp;</strong><p></p><p><strong>N40,000</strong></p><strong>2</strong><strong>EQUIPMENT: 1.8M ANTENNA, 5W BUC, LNB, 1 DIRECT MODEM, PROPERLY EARTHED THUNDER ARRESTOR AND 4U RACK</strong><strong>LOT</strong><strong>&nbsp;</strong><p></p><p><strong>N300,000</strong></p><strong>&nbsp;</strong><p></p><p><strong>N300,000</strong></p><strong>3</strong><strong>512/256KBPS DEDICATED BANDWIDTH</strong><strong>12</strong><strong>N120,000</strong><strong>N1, 080,000</strong><strong>&nbsp;</strong><strong>&nbsp;</strong><strong>&nbsp;</strong><strong>N20,000</strong><strong>&nbsp;</strong><p>&nbsp;</p><p><strong>TABLE 5 POWER SUPPLY/ELECTRICAL/BACKUP</strong></p><strong>S/N</strong><strong>ITEM</strong><strong>QTY</strong><strong>&nbsp;</strong><strong>&nbsp;</strong><strong>1</strong><strong>CHANGE OVER SWITCH</strong><strong>1</strong><strong>N1,200</strong><strong>N1,200</strong><strong>13A SOCKET (MEM)</strong><strong>15</strong><strong>N5 00</strong><strong>N7,5 00</strong><strong>15A SOCKET (MEM)</strong><strong>3</strong><strong>&nbsp;</strong><strong>&nbsp;</strong><strong>PVC WIRE</strong><strong>LOT</strong><strong>&nbsp;</strong><strong>&nbsp;</strong><strong>HARVEL D6 DISTRIBUTION BOARD</strong><strong>1</strong><strong>N7,000</strong><strong>N7,000</strong><strong>LOW VOLTAGE LIGHTING POINTS</strong><strong>6</strong><strong>N600</strong><strong>N3,600</strong><strong>2</strong><strong>15KVA SERVO AUTOMATIC VOLTAGE REGULATOR</strong><strong>1</strong><strong>N25,000</strong><strong>N25,000</strong><strong>3</strong><strong>10/KVA/180VDC ONLINE UPS (SINGLE PHASE)</strong><strong>1</strong><strong>N30,000</strong><strong>N30,000</strong><strong>4</strong><strong>100AH DEEP CYCLE BATTERIES</strong><strong>15</strong><strong>N15,000</strong><strong>N225,000</strong><strong>5</strong><strong>STEEL BATTERY RACK AND ACCESSORIES</strong><strong>LOT</strong><strong>N5,000</strong><strong>N5,000</strong><strong>6</strong><strong>STEEL FRAME AND SUNDRY ITEMS</strong><strong>1</strong><strong>N4,500</strong><strong>N4,500</strong><strong>7</strong><strong>CHARGE CONTROLLER (MINIMUM OF 30A/180V/5KW)</strong><strong>LOT</strong><strong>N5,500</strong><strong>N5,500</strong><p><strong>COST</strong></p><p>The overall estimation of the implementation is <strong>N2, 681,800 (</strong>Two million, six hundred and eighty one thousand, eight hundred naira).</p><p><strong>Discussion</strong></p><p><em>Figure 4: The Design of a Standard WLAN for LAB1 of Dr. Olagunju Computer Centre Fed Poly Offa</em></p><p>Figure 4 demonstrates the design of a standard Wireless LAN in Lab 1 of Dr. Olagunju Computer Centre Fed Poly Offa, Kwara state. The centre has four(4 ) laboratories with wired LAN structure. It is a storey building with 2 laboratories downstairs and two upstairs. Laboratory 1 is by the left hand side while entering the centre and with this new design, it is the only Laboratory that is having complete wireless LAN deployment and above is the simulated design diagram. The network was simulated using Packet Tracer 4.11; the design was later printed to jpeg file and pasted within this paper for demonstration. The laboratory1 is partitioned into three rows apart from the server room, each part consists of 5 personal computers with wireless capacity. A wireless router is placed in the server room which is connected to an i-direct modem that gives access to the cloud through a satellite dish connected to the cloud. There are: a server, 2 Printers (1 colour and 1 black laser Jet printer connected to the wireless through their individual wireless cards), one photocopy machine, 1.5 horse power Air Conditioned, and one ceiling fan. Outside the server room, there are 2 pieces of 1.5 horse power Air Conditioned, 2 industrial standing fans. The key beside the diagram shows the descriptions.</p><p><strong>Recommendation</strong></p><p>Corporations and businesses are now moving towards wireless technology which is now gaining more popularity than the wired LAN. Technology is advancing and due to many of its advantages that are more than the disadvantages. It is strongly recommended that the network user should deploy wireless LAN instead of wired LAN in order to give room for mobility, convenience, easy set up, wiring cost reduction, productivity and scalability.</p><p><strong>Conclusion</strong></p><p>In conclusion, the initial cost of installation of a wireless LAN might be expensive than a wired LAN, but as time goes on, the benefits of wireless LAN would show up. For example, a company with wired network that want to relocate to another business area would spend higher than a company running a wireless LAN. Most especially, when there is need for constant relocation.</p><p><strong>REFERENCES</strong></p><p>[1] Cox D. (1994) ‘Wireless Personal Communications : What is it?’ <em>IEEE Personal Communications. </em>(1994) Vol. 1( 1) 20-31.</p><p>[2] Plamen Nedeltchev (2001) <em>Wireless Local Area Networks and the 802.11 Standard</em>.</p><p>[3] Hayes Vic, Tutorial on 802.11 to 802, <a target="_blank" rel="nofollow" href="http://grouper.ieee.org/groups/802/11/Tutorial/">http://grouper.ieee.org/groups/802/11/Tutorial/</a> MAC.pdf</p><p>[4] <a target="_blank" rel="nofollow" href="http://www.doc.ic.ac.uk/~nd/surprise_95/journal/vol2/mjf/article2.html">http://www.doc.ic.ac.uk/~nd/surprise_95/journal/vol2/mjf/article2.html</a></p><p>[5] Anderson D. and J. Molyneaux ‘Three Technical Hurdles on the Road to a Wireless office-integration, integration, integration’. <em>1992 IEEE International Conference on Selected Topics in Wireless Communications. </em>387-390.</p><p>[6] Links C., W. Diepstraten W. and V.Hayes (1994) ‘Universal Wireless LANs’. <em>Byte.</em>&nbsp;19 (5): 99-108.</p><p>[7] Chen K. (1994) ‘Medium Access Control of Wireless LANs for Mobile Computing’. <em>IEEE Network. </em>50-63.</p><p>[8 ] Government of Alberta (2011) ‘Wireless Local Area Network (WLAN) Best Practices Guide’.</p> <br><p></p>

Blazingprojects Mobile App

📚 Over 50,000 Research Thesis
📱 100% Offline: No internet needed
📝 Over 98 Departments
🔍 Thesis-to-Journal Publication
🎓 Undergraduate/Postgraduate Thesis
📥 Instant Whatsapp/Email Delivery

Blazingprojects App

Related Research

Statistics. 2 min read

A Framework for Robust Bayesian Models Under Data Contamination...

This research focuses on developing a new framework for Bayesian statistical models that remain reliable even when the data they analyze is contaminated or cont...

BP
Blazingprojects
Read more →
Soil Science. 2 min read

A Framework for Integrating Soil Microbial Dynamics into Soil Fertility Models...

This research aims to develop a new framework that links soil microbial activity directly with soil fertility models. Soil microbes, including bacteria and fung...

BP
Blazingprojects
Read more →
Sociology and Anthro. 4 min read

A Framework for Analyzing Digital Identity Construction in Urban Youth Cultures...

This research explores how urban youth create and present their identities in the digital space, such as on social media platforms, messaging apps, and online c...

BP
Blazingprojects
Read more →
Secretarial administ. 3 min read

Developing a Competency Framework for Modern Executive Secretaries in Organizational...

This research aims to create a practical guide, called a competency framework, that defines the skills, knowledge, and personal qualities needed for modern exec...

BP
Blazingprojects
Read more →
Science Education. 4 min read

A Framework for Enhancing Scientific Inquiry Skills in Secondary Education...

This research aims to develop a clear and practical framework to improve the way secondary school students develop scientific inquiry skills. Scientific inquiry...

BP
Blazingprojects
Read more →
Religious and Cultur. 2 min read

A Model for Analyzing Urban Rituals and Religious Cultural Integration...

This research focuses on understanding how urban communities experience and manage their cultural and religious practices through rituals, and how these rituals...

BP
Blazingprojects
Read more →
Radiography. 4 min read

A Framework for Standardizing Image Quality Assessment in Digital Radiography...

This research focuses on creating a standardized way to assess the quality of images produced by digital radiography systems. Digital radiography is widely used...

BP
Blazingprojects
Read more →
Quantity Surveying. 3 min read

A Framework for Integrating Sustainability Metrics into Cost Estimation Models...

This research aims to develop a practical framework that combines sustainability metrics with existing cost estimation models used in construction projects. The...

BP
Blazingprojects
Read more →
Pure and Industrial . 2 min read

A Framework for Enhancing Catalyst Efficiency through Surface Modification Technique...

This research focuses on finding ways to improve how well catalysts perform by changing their surface properties. Catalysts are substances that speed up chemica...

BP
Blazingprojects
Read more →
WhatsApp Click here to chat with us