CONTENTS

Policy on Intellectual Property Right (IPR)
 1     Report overview and background
        1.1     Background for RNSS receivers operating in the 1 164-1 215 MHz band
        1.2     Background for RNSS receivers operating in the 1 215-1 300 MHz band
        1.3     Report content
 2     Simulation modelling and computation methodology
        2.1     Basic computation method
                  2.1.1     RNSS receiver operational RFI scenario detailed descriptions
        2.2     RNSS receiver models
                  2.2.1     General RNSS receive system model descriptions
                  2.2.2     RNSS receive antenna models
                  2.2.3     RNSS receiver RF front-end model parameters
                  2.2.4     RNSS receiver pulsed RFI effects
        2.3     RNSS receiver pulsed RFI effects theory
                  2.3.1     Pulse blanking effects theory
                  2.3.2     Pulse RFI effect equation for a saturating RNSS receiver
                  2.3.3     Total aggregate wideband continuous interference effect
                  2.3.4     Usage limits for effective noise power spectral density, N_0,EFF, equations
 3     Pulsed RF source emission models and airborne receiver aggregate pulse parameters
        3.1     Pulsed RF source emission models for airborne RNSS receivers
                  3.1.1     DME/TACAN system pulsed emission models
                  3.1.2     CNI system pulsed emission model
                  3.1.3     ATC ground and airborne surveillance pulsed emission models
                  3.1.4     Airborne ARNS (DME/TACAN) interrogator pulsed emission models
        3.2     Aggregate pulse parameters for airborne RNSS receivers in the 1 164-1 188 MHz band
                  3.2.1     DME/TACAN beacon aggregate pulse parameters – high altitude airborne RNSS case
                  3.2.2     Composite aggregate pulse parameters – high altitude airborne RNSS case
                  3.2.3     Low-altitude airborne RNSS receiver operational example (1 164-1 188 MHz)
 4     Aggregate pulsed RFI parameters for ground-based RNSS receivers
        4.1     SBAS ground reference receiver (1 215-1 240 MHz) pulsed RFI parameters
                  4.1.1     SBAS ground reference receiver and pulsed RFI source characteristics
                  4.1.2     SBAS ground reference receiver pulsed RFI parameter calculation
                  4.1.3     Pulsed duty cycle parameter formula correction for EESS chirp and scanning effects
        4.2     High-precision receiver aggregate pulsed RFI parameters
                  4.2.1     High-precision CDMA receiver (1 164-1 188 MHz) pulsed RFI parameters
                  4.2.2     GPS High-precision semi-codeless receiver (1 215-1 240 MHz) pulsed RFI parameters
 5     Conclusions
Annex A  Propagation modelling with the GPS RFI Environmental Evaluation Tool (GREET)
        A.1     GREET tool overview
        A.2     Fixed emitter database interface
        A.3     Fixed emitter RFI calculator
        A.4     Emulation of DME/TACAN ensemble environment
Annex B  Strong pulse collision model – net PDC_B approach