TR 101 310 : 1.2.1
Current
The latest, up-to-date edition.
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English
Intellectual Property Rights
Foreword
1 Scope
2 References
3 Definitions and abbreviations
3.1 Definitions
3.2 Abbreviations
4 Introduction to DECT services and applications
5 Principles for providing required traffic capacity and
link quality on a common spectrum allocation
5.1 A new concept: the local load on the spectrum
5.2 Dynamic Channel Selection (DCS)
5.3 Increase traffic by denser infrastructure, C/I
limited capacity
5.4 Increasing link quality without increasing the load
on the spectrum
5.5 Means for adjusting to emerging growth of traffic
(subscribers)
6 DECT applications - scenarios
6.1 Residential application
6.2 Office/factory application
6.3 Public pedestrian application
6.4 RLL application
6.5 Summary of traffic requirements
7 ISDN, data and multimedia applications
7.1 ISDN services
7.2 Data services in general
7.3 The DECT 4-level, 8-level, 16-level, 64-level
modulation option
8 Multi-system and multi-service DECT applications coexistence
analysis for speech services and emerging increase of data
related services
8.1 Interference between residential systems
8.2 Interference between residential systems and other
applications
8.3 Interference between office systems
8.4 Interference between office and public pedestrian
street systems
8.5 Interference between office and RLL systems
8.6 Interference between public pedestrian systems
8.7 Interference between RLL systems
8.8 Interference between public pedestrian systems and RLL
systems
8.9 Interference from public systems to private users
8.10 Summary on coexistence and spectrum requirements
9 Conclusion on spectrum requirements for different scenarios
10 Recommendation on procedures for economic handling of hot
spots and emerging traffic increase
10.1 Monitoring
10.2 Adjustment of the infra
10.3 Frame synchronization
10.4 Maximum traffic load at RFPs
10.5 Sharing infrastructure
10.6 Carrier back-off
Annex A: Simulation results
A.1 Simulations of WPBX office systems
A.2 Simulations of public street public pedestrian systems
A.3 Simulations of above rooftop RLL systems
A.4 Simulations of below rooftop RLL systems and other
RLL systems
A.5 Coexistence between above rooftop RLL systems and a
public pedestrian street system
A.6 The impact of WRSs on infrastructure cost and spectrum
utilization
Annex B: Coexistence with other technologies
B.1 Coexistence on a common spectrum allocation with
evolutions and derivatives (PWT) of DECT
B.2 Coexistence DECT and GSM 1800
B.3 Coexistence DECT and UMTS/TDD 3,84 Mcps
B.4 Coexistence DECT and American PCS technologies
B.5 Coexistence DECT and PHS
B.6 DECT coexisting on the US unlicensed bands, the UPCS
band and the 900 MHz and 2,4 GHz ISM bands telephony)
Annex C: The concepts of traffic capacity and efficient use of
the spectrum
C.1 General
C.2 The relation between infra structure cost and spectrum
efficiency
C.3 Maximizing the application dependent spectrum efficiency
Annex D: Comparison with systems using fixed channel selection
D.1 Public pedestrian outdoor suburban application
D.2 Office multi-floor applications
Annex E: DECT instant DCS procedures
E.1 Summary of some DECT procedures providing the high
traffic capacity and the maintenance of a high quality
radio link
E.2 Detailed description of the DECT instant DCS procedures
and features
Annex F: RF modifications of DECT enabling applications on FDD
(paired up-link/down-link) spectrum
History
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