Florida Institute of technologies ECE 5221 Personal Communication Systems Prepared by: Dr. Ivica Kostanic Lecture 4: Estimation of coverage reliability Spring 2011
Florida Institute of technologies Page 2 Macroscopic propagation modeling Edge reliability Area reliability Reudnik curves and fade margin calculations Examples Outline Important note: Slides present summary of the results. Detailed derivations are given in notes.
Florida Institute of technologies Macroscopic propagation modeling More input descriptors – more accurate models As the models become more accurate, the standard deviation of the unexplained portion of path loss becomes smaller The unexplained portion still retains log normal character Page 3 Log distance path loss model More general models Macroscopic models predict median path loss at some distance d As one measures the actual path loss, its value will always be different than predicted The difference is a log normal random variable with zero mean and variance that depends on environment
Florida Institute of technologies Expected accuracy of propagation model Macroscopic propagation models – limited accuracy Accuracy depends: oInput data accuracy oType of the environment oComputational time oModel limitations The accuracy is quantified through standard deviation of prediction error For a well tuned model, standard deviation of prediction error is 6-8dB Note: the error is relatively large GOAL: coverage design using imperfect tools Page 4 Comparison of measurements and predictions Distribution of prediction error
Florida Institute of technologies Edge reliability RSL T – Coverage threshold that needs to be met by the network. The threshold determined from coverage objectives RSL T – contour provides 50% reliability (i.e. if one walks around the contour the threshold is met only 50% of locations) RSL P – contour that provides required reliability for meeting the threshold RSL T RSL P =RSL T + where is the value that needs to be determined based on required edge reliability Mathematically: Page 5 Goal: determine RSL P contour that meets edge reliability requirements
Florida Institute of technologies Edge reliability - example Assume that one needs to perform design for RSL T = -90dBm. The area is characterized with standard deviation of =8dB. What contour RSL P provides 70% edge reliability. Answer: RSL P = -85.2dBm, =4.8dB Page 6 Edge reliability(%) Following the same approach one obtains the table
Florida Institute of technologies Concept of area reliability Coverage is an areal phenomenon Design needs to guarantee specified area reliability One needs to find RSL P contour such that Where R a is the area reliability. Typical values for area reliability are 90-95% Page 7 Illustration of cell coverage area Note: there is tradeoff between coverage reliability and cell count
Florida Institute of technologies Calculation of area reliability (result) Page 8 Area reliability Where Notes: oEquation – to complicated for day to day use oGives the answer oNeed for easier way to calculate Based on log- distance path model
Florida Institute of technologies Reudnik curves Page 9 Area reliability calculations – complicated Edge reliability calculations – easy Reudnik curves relate area and edge reliabilities Edge reliability Area reliability Properties of environments
Florida Institute of technologies Area reliability - examples Example 1: Consider environment with / n = 3. Determine reliability over the area bounded with a contour having edge reliability of 70% Answer: 85% Example 2: Consider the following design task Design threshold: -95dBm Area reliability: 90% Path loss exponent: 3.84 Standard deviation of the modeling accuracy: 8dB Determine: a)Edge reliability requirementAnswer: 75% b)Required prediction contourAnswer: -89.4dBm Page 10
Florida Institute of technologies Fade margin – calculations (direct method) Fade margin – difference between RSL P and RSL T Can be calculated directly from area reliability requirement, and n Process: oCalculate / n oDetermine z-score (table lookup) oFade margin is calculated as z-score x Page 11
Florida Institute of technologies Example Calculate the fade margin for the following scenario oArea reliability requirement: 95% oModel uncertainty: 8dB oSlope: 35dB/dec Answers: / n = 2.29 z-score: 1.10 FM = 1.10 x 8 = 8.8 dB Page 12