CONTENTS

 1     Background
 2     Monte Carlo simulation methodology: An overview
        2.1     Illustrative example (only unwanted emissions, most influential interferer)
 3     Architecture requirements
        3.1     Event generation engine
        3.2     Distribution evaluation engine
        3.3     Interference calculation engine (ICE)
        3.4     Limits evaluation engine (LEE)
Annex 1  List of input parameters
Parameters for the wanted transmitter (wt)
Parameters for the victim receiver (vr)
Parameters for the interfering transmitter (it)
Parameters for the wanted receiver (wr) belonging to the interfering transmitter
Environmental and propagation parameters
Annex 2  Event generation engine
Case of fixed distances:
Appendix 1 to Annex 2  [Knuth, 1969]  Propagation model
 1     Free space path loss
 2     Modified Hata model
        2.1     Calculation of the median path loss L
        2.2     Assessment of the standard deviation for the lognormal distribution
 3     Spherical diffraction model
 4     Combined indoor-outdoor propagation models
 5     VHF/UHF propagation model (Recommendation ITU-R P.1546)
Appendix 2 to Annex 2  Power control function
Appendix 3 to Annex 2  Distribution definitions
Appendix 4 to Annex 2  Pseudo-random number generation
Appendix 5 to Annex 2  dRSS calculation flow chart
Appendix 6 to Annex 2  iRSS due to unwanted and blocking calculation
Appendix 7 to Annex 2  Receiver blocking
 1     Basic concept
 2     Blocking level measurements
 3     Attenuation of the receiver
Appendix 8 to Annex 2  iRSS due to intermodulation
Appendix 9 to Annex 2  Intermodulation in the receiver
Appendix 10 to Annex 2  Influence of different bandwidths
Annex 4  Interference calculation engine