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本文(ETSI TS 103 323-2015 PowerLine Telecommunications (PLT) Spectral Management of neighbouring PLT networks based on Dynamic Spectral Management (DSM) (V1 1 1)《电力线通信 (PLT) 基于动态频谱管理 (D.pdf)为本站会员(roleaisle130)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

ETSI TS 103 323-2015 PowerLine Telecommunications (PLT) Spectral Management of neighbouring PLT networks based on Dynamic Spectral Management (DSM) (V1 1 1)《电力线通信 (PLT) 基于动态频谱管理 (D.pdf

1、 ETSI TS 103 323 V1.1.1 (2015-03) PowerLine Telecommunications (PLT); Spectral Management of neighbouring PLT networks based on Dynamic Spectral Management (DSM) TECHNICAL SPECIFICATION ETSI ETSI TS 103 323 V1.1.1 (2015-03)2 Reference DTS/PLT-00045 Keywords network, powerline ETSI 650 Route des Luci

2、oles F-06921 Sophia Antipolis Cedex - FRANCE Tel.: +33 4 92 94 42 00 Fax: +33 4 93 65 47 16 Siret N 348 623 562 00017 - NAF 742 C Association but non lucratif enregistre la Sous-Prfecture de Grasse (06) N 7803/88 Important notice The present document can be downloaded from: http:/www.etsi.org/standa

3、rds-search The present document may be made available in electronic versions and/or in print. The content of any electronic and/or print versions of the present document shall not be modified without the prior written authorization of ETSI. In case of any existing or perceived difference in contents

4、 between such versions and/or in print, the only prevailing document is the print of the Portable Document Format (PDF) version kept on a specific network drive within ETSI Secretariat. Users of the present document should be aware that the document may be subject to revision or change of status. In

5、formation on the current status of this and other ETSI documents is available at http:/portal.etsi.org/tb/status/status.asp If you find errors in the present document, please send your comment to one of the following services: https:/portal.etsi.org/People/CommiteeSupportStaff.aspx Copyright Notific

6、ation No part may be reproduced or utilized in any form or by any means, electronic or mechanical, including photocopying and microfilm except as authorized by written permission of ETSI. The content of the PDF version shall not be modified without the written authorization of ETSI. The copyright an

7、d the foregoing restriction extend to reproduction in all media. European Telecommunications Standards Institute 2015. All rights reserved. DECTTM, PLUGTESTSTM, UMTSTMand the ETSI logo are Trade Marks of ETSI registered for the benefit of its Members. 3GPPTM and LTE are Trade Marks of ETSI registere

8、d for the benefit of its Members and of the 3GPP Organizational Partners. GSM and the GSM logo are Trade Marks registered and owned by the GSM Association. ETSI ETSI TS 103 323 V1.1.1 (2015-03)3 Contents Intellectual Property Rights 4g3Foreword . 4g3Executive summary 4g3Modal verbs terminology 4g3In

9、troduction 4g31 Scope 6g32 References 6g32.1 Normative references . 6g32.2 Informative references 6g33 Abbreviations . 6g34 Configuration of the PLT network in customer premises 7g35 Solution based on iterative bit-loading . 8g36 Recommendation based on DSM for NN PLT coexistence in a MDU 13g3Histor

10、y 14g3ETSI ETSI TS 103 323 V1.1.1 (2015-03)4 Intellectual Property Rights IPRs essential or potentially essential to the present document may have been declared to ETSI. The information pertaining to these essential IPRs, if any, is publicly available for ETSI members and non-members, and can be fou

11、nd in ETSI SR 000 314: “Intellectual Property Rights (IPRs); Essential, or potentially Essential, IPRs notified to ETSI in respect of ETSI standards“, which is available from the ETSI Secretariat. Latest updates are available on the ETSI Web server (http:/ipr.etsi.org). Pursuant to the ETSI IPR Poli

12、cy, no investigation, including IPR searches, has been carried out by ETSI. No guarantee can be given as to the existence of other IPRs not referenced in ETSI SR 000 314 (or the updates on the ETSI Web server) which are, or may be, or may become, essential to the present document. Foreword This Tech

13、nical Specification (TS) has been produced by ETSI Technical Committee Powerline Telecommunications (PLT). Executive summary Addressing the coexistence problems of PLT neighbourhood networks operating in customer environments, the present document describes spectral management for OFDM based transce

14、ivers for minimizing the impact like the drop of bitrate. The solution is based on spectral management reducing the power level of interfering PLT carriers on PLT neighbourhood carriers and spreading data on remaining PLT carriers. The Dynamic Spectral Management (DSM) processing implemented in PLT

15、modems is suitable for second generation PLT modems operating up to 80 MHz. The present document propose a new approach for solving the interference caused by neighbouring networks, when at least two customers are using PLT modems on powerline. It is proposed to adopt this approach, so that PLT home

16、 networking transceivers are equipped with Dynamic Spectral Management (DSM) in the domain master. Modal verbs terminology In the present document “shall“, “shall not“, “should“, “should not“, “may“, “need not“, “will“, “will not“, “can“ and “cannot“ are to be interpreted as described in clause 3.2

17、of the ETSI Drafting Rules (Verbal forms for the expression of provisions). “must“ and “must not“ are NOT allowed in ETSI deliverables except when used in direct citation. Introduction The majority of the population in the world live in multi-dwelling unit (MDU) buildings. The need for sharing high-

18、speed networking within these often closely spaced units has resulted in an increase in the use of High Frequency (HF) generated by powerline telecommunications (PLT). The PLT networks within a given MDU will be in close proximity to each other, and connect to the same wiring, so the signals will be

19、 detectable on adjacent networks. This may appear as a source of interference, which can limit the PLT throughputs. This is a common problem of all networking technology whose signals are not physically constrained. Neighbouring Networks (NN) interference occurs when signals transmitted over one hom

20、e network propagate to neighbouring networks. For PLT, signals can transfer to other PLT networks through inductive propagation or due to low attenuation when the networks share common feeder lines as the number of PLT deployed systems increases. The present document describes a technique based on D

21、SM to address this problem. ETSI ETSI TS 103 323 V1.1.1 (2015-03)5 Dynamic Spectrum management (DSM) has been recognized as a key technology for tackling multi-user crosstalk interference for DSL broadband access. The present document proposes a method based on dynamic spectral management multi-user

22、 signals from several PLT modems operating in neighbouring networks. Inside this network the domain master modem have the capacity to handle complex DSM operations. The solution, described in the present document, is based on minimization of the interference by coordination at Physical layer level u

23、sing dynamic spectral management approach. Solving this interference at signal level is important for the next generation of PLT modems and in large scale deployments of next generation home networks with peaceable relationship with users in a vicinity. DSM methods can avoid unnecessary impoliteness

24、 between neighbours using PLT modems if their Domain Master modems integrate efficient carrier management using DSM. PLT networks communicate using high frequency signals transmitted over a residences mains power wiring. The signal power is generally sufficient to allow communication between all the

25、 in-home power sockets; however, this means the signals can also propagate beyond the intended residence. Many PLT technologies transmit at the highest signal strength allowed, to overcome noise and ensure they can pass data at the maximum rate within their own network; however, this increases the p

26、roblem for their neighbours. The number of neighbouring networks affected depends on the PLT signal strength, topology of the MDU wiring, and the impedance between networks. It is quite common for PLT networks more than one floor away to detect signals from another PLT network. This interference occ

27、urs when a line in the electrical network is situated close to a line in this other network. This is because, as these high-rate technologies use at least partially the same reserved frequency band, and the same data coding method by distribution over carrier frequencies, in this case OFDM, when a l

28、ine in the electrical network is situated in the vicinity of a line in this other network, the transmission performance of the transmission channel of each of the two networks degrades, causing in particular losses of transmission rate on these two networks. This interference is amplified when the m

29、odems in the two local networks are supplied by the same electrical source since, in this case, coupling by conduction between the modems occurs. The use of the electrical network and another network for distributing the services of a triple-play offer therefore poses the problem of interference bet

30、ween a powerline signal that is transmitted between modems on an electrical network and a signal that is transmitted on another network, which may be an electrical network possibly distinct from the first. More precisely, this iterative method consists, at each iteration, of optimizing the transmiss

31、ion rate of the transmission channel on the line and the transmission power level of the signal transmitted on this channel, considering the interference on the other lines in this network as noise and subject to a given spectral density profile. ETSI ETSI TS 103 323 V1.1.1 (2015-03)6 1 Scope The pr

32、esent document defines requirements on coexistence between two PLT transceivers operating in the same frequency band and on same electrical cables on different neighbouring networks. The present document includes a solution based on signal processing algorithms for minimizing of the interferences ca

33、used by one PLT on other PLT network based on spectral management It is assumed the PLT network is based on a master and slaves modems. 2 References 2.1 Normative references References are either specific (identified by date of publication and/or edition number or version number) or non-specific. Fo

34、r specific references, only the cited version applies. For non-specific references, the latest version of the reference document (including any amendments) applies. Referenced documents which are not found to be publicly available in the expected location might be found at http:/docbox.etsi.org/Refe

35、rence. NOTE: While any hyperlinks included in this clause were valid at the time of publication, ETSI cannot guarantee their long term validity. The following referenced documents are necessary for the application of the present document. Not applicable. 2.2 Informative references References are eit

36、her specific (identified by date of publication and/or edition number or version number) or non-specific. For specific references, only the cited version applies. For non-specific references, the latest version of the reference document (including any amendments) applies. NOTE: While any hyperlinks

37、included in this clause were valid at the time of publication, ETSI cannot guarantee their long term validity. The following referenced documents are not necessary for the application of the present document but they assist the user with regard to a particular subject area. i.1 W. Yu et al: “An Adap

38、tive Multiuser Power Control Algorithm for VDSL“, GLOBECOM01, vol. 1, 2001. i.2 ETSI TR 102 269: “PowerLine Telecommunications (PLT); Hidden Node review and statistical analysis“. 3 Abbreviations For the purposes of the present document, the following abbreviations apply: BF Frequency Band DM1 Domai

39、n Master for user 1 DM2 Domain Master for user 2 DSL Digital Subscriber Line DSM Dynamic Spectrum Management HF High Frequency MAC Medium Access Controller (Layer 2) MCPL PLT Modem Courant porteur en Ligne MDU Multi-Dwelling Unit MIMO Multiple Input Multiple Output ETSI ETSI TS 103 323 V1.1.1 (2015-

40、03)7 NN Neighbouring Networks (PLT) OFDM Orthogonal Frequency Division Multiplexing (Multi-carrier transmission) PHY Physical Layer /transmission (Layer 1) PLT PowerLine Telecommunication PSD Power spectral density R1Electrical Network 1 R2Electrical Network 2 S1PLT signal for user 1 S2PLT signal fo

41、r user 2 SNR(F) Signal to Noise Ratio at frequency F VDSL Very high speed Digital Subscriber Line (15 MHz) VDSL2 Second generation of VDSL (30 MHz) 4 Configuration of the PLT network in customer premises It is assumed that the Service Provider has installed a network using the same PLT technology in

42、 each user unit. These networks will interfere with one another to an extent dependent on their relative physical location, potential for signal propagation between networks, and the electrical path the signals can take between networks. The configuration of the PLT networks in close proximity to ap

43、artments, which may or may not be the case, depending on MDU wiring rules for each country. The PLT signals can cross over between networks over the in-building wiring. Typically, there is 20 to 40 dB attenuation between networks due to the circuit breakers, meters, cable distances and topology; how

44、ever, this value will vary between individual PLT nodes and between PLT networks. According to ETSI TR 102 269 i.2, the median attenuation 15 MHz between sockets in the same flat is 40 dB, while median attenuation 15 MHz between in different flats is 60 dB. Roughly, this would add 20 dB for median i

45、nter unit attenuation. Each network in the MDU building experiences its own set of interference, distinct from that of other networks. Therefore, each network has its own NN PLT networks mitigation needs. The interference a PLT network experiences is known as the networks interference pattern. Furth

46、er, each node in each network has its own node interference pattern. NN interference can be time varying with respect to amplitude or even presence. These nodes not only experience NN interference when they are powered up, they also change the interference pattern for all networks and nodes that det

47、ect their signals. This interference occurs when a line in the electrical network is situated close to a line in this other network. This is because, as these high-rate technologies use at least partially the same reserved frequency band, and the same data coding method by distribution over carrier

48、frequencies. However, as the number of PLT networks deployed in the building increases, neighbouring network interference increases and service deteriorates, with resultant service calls. The local networks nodes detect the NN signals as noise, thus raising the noise floor and reducing the signal to

49、 noise ratio (SNR) of the local nodes, effecting their throughput and ability to overcome other noise they encounter. Figure 1: Illustration of two electrical networks R1 and R2 interfering in a MDU ETSI ETSI TS 103 323 V1.1.1 (2015-03)8 As stated previously, PLT networks interference is deemed to be high when another PLT signal is strong enough to be detected by a local network node as a valid PLT signal and that this signals power level is enough to overcome local PLT signals. When signals are at this level, the interfered networks ability to pass data deteri

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