CONTENTS - RECOMMENDATION ITU-R P.1411-6 - Propagation data and prediction methods for the planning of short-range outdoor radiocommunication systems and radio local area networks in the frequency range 300 MHz to 100 GHz

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Annex 1
�1�� Introduction
�2�� Physical operating environments and definition of cell types
�3�� Path categories
�� 3.1�� Definition of propagation situations
�� 3.1.1�� Propagation over rooftops, non-line-of-sight (NLoS)
�� 3.1.2�� Propagation along street canyons, NLoS
�� 3.1.3�� Line-of-sight (LoS) paths
�� 3.2�� Data requirements
�4�� Path loss models
�� 4.1�� LoS situations within street canyons
UHF propagation
SHF propagation up to 15 GHz
Millimetre-wave propagation
�� 4.2�� Models for NLoS situations
Propagation for urban area
Propagation for suburban area
Millimetre-wave propagation
�� 4.2.1�� Propagation over roof-tops for urban area
Calculation of L1_msd for l > d_s
Calculation of L2_msd� for l < d_s
�� 4.2.2�� Propagation over roof-tops for suburban area
�� 4.2.3�� Propagation within street canyons for frequency range from 800 to 2 000 MHz
�� 4.2.4�� Propagation within street canyons for frequency range from 2 to 16 GHz
�� 4.3�� Propagation between terminals located below roof-top height at UHF
�� 4.4�� Default parameters for site-general calculations
�� 4.5�� Influence of vegetation
�5�� Building entry loss
�6�� Multipath models
�� 6.1�� Multipath models for street canyon environments
�� 6.1.1�� Omnidirectional antenna case
�� 6.1.2�� Directional antenna case
�� 6.2�� Multipath models for over-rooftops propagation environments
�7�� Number of signal components
�8�� Polarization characteristics
�9�� Characteristics of direction of arrival
10�� Fading characteristics
11�� Propagation data and prediction methods for the path morphology approach
�� 11.1�� Classification of path morphology
�� 11.2�� Statistical modelling method
�� 11.3�� Path loss model
�� 11.4�� Delay spread model
�� 11.5�� Angular spread model