Poster Specification Final Year Project Bachelor
Specification of Poster : Print out 1 copy of poster in A4 – for industrial evaluation. Content of Poster (not limited to): 1.Abstract 2.Introduction 3.Methodology 4.Results / Discussions 5.Conclusion 6.References Useful guideline from AIChemE on how to prepare a conference poster: rences/0810CEP_PosterPresentations_0.pdf
Name(Verdana : 9) University Kuala Lumpur, Malaysian Institute of Chemical and Bioengineering Technology. (9) Topic Name (Verdana : 14) Objective(10) Methodology Description Application References Results Diagram Verdana (8)
Abdul Hakim Hj Abu Bakar University Kuala Lumpur, Malaysian Institute of Chemical and Bioengineering Technology. Signal Propagation at 2.4GHz Objective n=2.97n=2.63 n=3.02n=2.9n=2.91 Results Outdoor Propagation Propagation between building Path Loss Coefficient (n) for 2.4Ghz Frequency Range Indoor Propagation Scenarios One floor above Same floor One floor below Free space Propagation between building n ~3.0 ≈3.0 Application Three types of environments scenario were study: 1) Indoor Propagation, 2) Outdoor Propagation and 3) Propagation between building. Those propagation types are observed and analyzed due to the variation of distance. The comparison of the signal strength between the measured data and the simulation path loss model were done and the outcome are related to each other. References 1)MathCAD User Guide, 2007, Parametric Technology Corporation. 2)Wireless communications principles and practices, T. S. Rappaport, 2002, Prentice-Hall ( Methodology Overall, the path loss signal propagation is basically caused by the obstruction which the signal passing through and also known as path loss coefficient factor, n. The value of n plays an important roles in determining the path loss prediction model for a certain environment. Frequency at 2.4GHz is reserved for wireless communications which is commonly used for internet interconnection. When the signal is propagated through obstructions such as buildings, trees and walls, there will be certain attenuation occur which also called as path loss. This path loss signal is analyzed and compared with the Log Distance Path Loss Model by using MathCAD [1] as a simulation tool. Figure 1: Indoor Propagation, top view (left), side view (right) Scenario 1: Indoor Propagation Scenario 3: Propagation between building Scenario 2: Outdoor Propagation Figure 2: Outdoor Propagation, top view (left), side view (right) Figure 3: Propagation between building, top view (left), side view (right) Diagram Path Loss Model Log Distance Model [2] Suitable for short range propagation PL(dB)=30+10.(n).log(d) Simulation Modeling Using Pythagoras Theorem to determine the distance between Rx and Tx (Access Point & Mobile Antenna) Description