[要約] RFC 8561は、マイクロ波無線リンクのYANGデータモデルを定義しています。このRFCの目的は、マイクロ波無線リンクの設定や監視に関する標準化されたデータモデルを提供することです。
Internet Engineering Task Force (IETF) J. Ahlberg
Request for Comments: 8561 Ericsson AB
Category: Standards Track M. Ye
ISSN: 2070-1721 Huawei Technologies
X. Li
NEC Laboratories Europe
D. Spreafico
Nokia - IT
M. Vaupotic
Aviat Networks
June 2019
A YANG Data Model for Microwave Radio Link
マイクロ波無線リンク用のYANGデータモデル
Abstract
概要
This document defines a YANG data model for control and management of radio link interfaces and their connectivity to packet (typically Ethernet) interfaces in a microwave/millimeter wave node. The data nodes for management of the interface protection functionality is broken out into a separate and generic YANG data model in order to make it available for other interface types as well.
このドキュメントは、無線リンクインターフェイスの制御と管理のためのYANGデータモデルと、マイクロ波/ミリ波ノードのパケット(通常はイーサネット)インターフェイスへの接続を定義します。インターフェース保護機能を管理するためのデータノードは、他のインターフェースタイプでも使用できるようにするために、個別の汎用YANGデータモデルに分割されます。
Status of This Memo
本文書の状態
This is an Internet Standards Track document.
これはInternet Standards Trackドキュメントです。
This document is a product of the Internet Engineering Task Force (IETF). It represents the consensus of the IETF community. It has received public review and has been approved for publication by the Internet Engineering Steering Group (IESG). Further information on Internet Standards is available in Section 2 of RFC 7841.
このドキュメントは、IETF(Internet Engineering Task Force)の製品です。これは、IETFコミュニティのコンセンサスを表しています。公開レビューを受け、インターネットエンジニアリングステアリンググループ(IESG)による公開が承認されました。インターネット標準の詳細については、RFC 7841のセクション2をご覧ください。
Information about the current status of this document, any errata, and how to provide feedback on it may be obtained at https://www.rfc-editor.org/info/rfc8561.
このドキュメントの現在のステータス、エラッタ、およびフィードバックの提供方法に関する情報は、https://www.rfc-editor.org/info/rfc8561で入手できます。
Copyright Notice
著作権表示
Copyright (c) 2019 IETF Trust and the persons identified as the document authors. All rights reserved.
Copyright(c)2019 IETF Trustおよびドキュメントの作成者として識別された人物。全著作権所有。
This document is subject to BCP 78 and the IETF Trust's Legal Provisions Relating to IETF Documents (https://trustee.ietf.org/license-info) in effect on the date of publication of this document. Please review these documents carefully, as they describe your rights and restrictions with respect to this document. Code Components extracted from this document must include Simplified BSD License text as described in Section 4.e of the Trust Legal Provisions and are provided without warranty as described in the Simplified BSD License.
この文書は、BCP 78およびIETF文書に関するIETFトラストの法的規定(https://trustee.ietf.org/license-info)の対象であり、この文書の発行日に有効です。これらのドキュメントは、このドキュメントに関するあなたの権利と制限を説明しているため、注意深く確認してください。このドキュメントから抽出されたコードコンポーネントには、Trust Legal Provisionsのセクション4.eに記載されているSimplified BSD Licenseのテキストが含まれている必要があり、Simplified BSD Licenseに記載されているように保証なしで提供されます。
Table of Contents
目次
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 3
1.1. Terminology and Definitions . . . . . . . . . . . . . . . 3
1.2. Tree Structure . . . . . . . . . . . . . . . . . . . . . 5
2. Microwave Radio Link YANG Data Model . . . . . . . . . . . . 5
2.1. YANG Tree . . . . . . . . . . . . . . . . . . . . . . . . 5
2.2. Explanation of the Microwave Data Model . . . . . . . . . 7
3. Microwave Radio Link YANG Data Model . . . . . . . . . . . . 7
4. Interface Protection YANG Data Model . . . . . . . . . . . . 27
5. Microwave Types YANG Data Model . . . . . . . . . . . . . . . 33
6. Security Considerations . . . . . . . . . . . . . . . . . . . 40
7. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 42
8. References . . . . . . . . . . . . . . . . . . . . . . . . . 43
8.1. Normative References . . . . . . . . . . . . . . . . . . 43
8.2. Informative References . . . . . . . . . . . . . . . . . 44
Appendix A. Example: 1+0 and 2+0 Configuration Instances . . . . 47
A.1. 1+0 Instance . . . . . . . . . . . . . . . . . . . . . . 47
A.2. 2+0 Instance . . . . . . . . . . . . . . . . . . . . . . 49
A.3. 2+0 XPIC Instance . . . . . . . . . . . . . . . . . . . . 50
Contributors . . . . . . . . . . . . . . . . . . . . . . . . . . 52
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 53
This document defines a YANG data model for management and control of the radio link interface(s) and the relationship to packet (typically Ethernet) and/or Time-Division Multiplexing (TDM) interfaces in a microwave/millimeter wave node. The ETSI EN 302 217 series defines the characteristics and requirements of microwave/millimeter wave equipment and antennas. Specifically, ETSI EN 302 217-2 [EN302217-2] specifies the essential parameters for systems operating from 1.4 GHz to 86 GHz. The data model includes configuration and state data according to the new Network Management Datastore Architecture [RFC8342].
このドキュメントでは、無線リンクインターフェイスの管理と制御のためのYANGデータモデル、およびマイクロ波/ミリ波ノードのパケット(通常はイーサネット)や時分割多重(TDM)インターフェイスとの関係を定義します。 ETSI EN 302 217シリーズは、マイクロ波/ミリ波機器およびアンテナの特性と要件を定義しています。具体的には、ETSI EN 302 217-2 [EN302217-2]は、1.4 GHz〜86 GHzで動作するシステムに不可欠なパラメータを指定しています。データモデルには、新しいネットワーク管理データストアアーキテクチャ[RFC8342]に準拠した構成データと状態データが含まれています。
The design of the data model follows the framework for management and control of microwave and millimeter wave interface parameters defined in [RFC8432]. This framework identifies the need and the scope of the YANG data model, use cases, and requirements that the model needs to support. Moreover, it provides a detailed gap analysis to identify the missing parameters and functionalities of the existing and established models to support the specified use cases and requirements, and based on that, it recommends how the gaps should be filled with the development of the new model. According to the conclusion of the gap analysis, the structure of the data model is based on the structure defined in [MICROWAVE-RADIO-LINK], and it augments [RFC8343] to align with the same structure for management of the packet interfaces. More specifically, the model will include interface layering to manage the capacity provided by a radio link terminal for the associated Ethernet and TDM interfaces, using the principles for interface layering described in [RFC8343] as a basis.
データモデルの設計は、[RFC8432]で定義されているマイクロ波とミリ波のインターフェイスパラメーターの管理と制御のフレームワークに従います。このフレームワークは、モデルがサポートする必要があるYANGデータモデル、ユースケース、要件の必要性と範囲を識別します。さらに、指定されたユースケースと要件をサポートするために、既存のモデルと確立されたモデルの不足しているパラメーターと機能を特定するための詳細なギャップ分析を提供し、それに基づいて、ギャップを新しいモデルの開発で埋める方法を推奨します。ギャップ分析の結論によると、データモデルの構造は[MICROWAVE-RADIO-LINK]で定義された構造に基づいており、[RFC8343]を拡張して、パケットインターフェイスの管理用の同じ構造に合わせます。より具体的には、モデルには、[RFC8343]で説明されているインターフェイスレイヤリングの原理を基礎として使用して、関連するイーサネットインターフェイスとTDMインターフェイスの無線リンク端末によって提供される容量を管理するインターフェイスレイヤリングが含まれます。
The data nodes for management of the interface protection functionality is broken out into a separate and generic YANG data module in order to make it also available for other interface types.
インターフェース保護機能を管理するためのデータノードは、他のインターフェースタイプでも使用できるようにするために、個別の汎用YANGデータモジュールに分割されています。
The designed YANG data model uses established microwave equipment and radio standards, such as ETSI EN 302 217-2; the IETF Radio Link Model [MICROWAVE-RADIO-LINK]; and the ONF Microwave Model [ONF-model], as the basis for the definition of the detailed leafs/parameters, and it proposes new ones to cover identified gaps, which are analyzed in [RFC8432].
設計されたYANGデータモデルは、確立されたマイクロ波機器およびETSI EN 302 217-2などの無線規格を使用します。 IETF無線リンクモデル[MICROWAVE-RADIO-LINK];そして、詳細なリーフ/パラメーターの定義の基礎としてのONFマイクロ波モデル[ONF-モデル]、および[RFC8432]で分析されている、識別されたギャップをカバーする新しいものを提案します。
The following terms are used in this document:
このドキュメントでは、次の用語が使用されています。
Carrier Termination (CT) is an interface for the capacity provided over the air by a single carrier. It is typically defined by its transmitting and receiving frequencies.
キャリアターミネーション(CT)は、単一のキャリアによって無線で提供される容量のインターフェイスです。通常、送信周波数と受信周波数によって定義されます。
Radio Link Terminal (RLT) is an interface providing packet capacity and/or TDM capacity to the associated Ethernet and/or TDM interfaces in a node and is used for setting up a transport service over a microwave/millimeter wave link.
ラジオリンクターミナル(RLT)は、ノード内の関連するイーサネットインターフェイスやTDMインターフェイスにパケット容量やTDM容量を提供するインターフェイスであり、マイクロ波/ミリ波リンクを介したトランスポートサービスのセットアップに使用されます。
The following acronyms are used in this document:
このドキュメントでは、次の頭字語が使用されています。
ACM: Adaptive Coding Modulation
ACM:適応コーディング変調
ATPC: Automatic Transmitter Power Control
ATPC:自動送信機電力制御
BBE: Background Block Error
BBE:バックグラウンドブロックエラー
BER: Bit Error Ratio
BER:ビット誤り率
BPSK: Binary Phase-Shift Keying
BPSK:バイナリ位相シフトキーイング
CM: Coding Modulation
CM:コーディング変調
CT: Carrier Termination
CT:キャリアターミネーション
ES: Errored Seconds
EN:エラー秒数
IF: Intermediate Frequency
IF:中間周波数
MIMO: Multiple Input Multiple Output
MIMO:複数入力複数出力
RF: Radio Frequency
RF:無線周波数
RLT: Radio Link Terminal
RLT:無線リンク端末
QAM: Quadrature Amplitude Modulation
QAM:直交振幅変調
QPSK: Quadrature Phase-Shift Keying
QPSK:直交位相シフトキーイング
RTPC: Remote Transmit Power Control
RTPC:リモート送信電力制御
SES: Severely Errored Seconds
SES:重大エラー秒数
TDM: Time-Division Multiplexing
TDM:時分割多重化
UAS: Unavailable Seconds
UAS:使用不可秒
XPIC: Cross Polarization Interference Cancellation
XPIC:相互偏波干渉のキャンセル
A simplified graphical representation of the data model is used in Section 2.1 of this document. The meaning of the symbols in these diagrams is defined in [RFC8340].
このドキュメントのセクション2.1では、データモデルの簡略化されたグラフィカル表現が使用されています。これらの図の記号の意味は、[RFC8340]で定義されています。
module: ietf-microwave-radio-link
+--rw radio-link-protection-groups
| +--rw protection-group* [name]
| +--rw name string
| +--rw protection-architecture-type? identityref
| +--rw members* if:interface-ref
| +--rw operation-type? enumeration
| +--rw working-entity* if:interface-ref
| +--rw revertive-wait-to-restore? uint16
| +--rw hold-off-timer? uint16
| +--ro status? identityref
| +---x manual-switch-working
| +---x manual-switch-protection
| +---x forced-switch
| +---x lockout-of-protection
| +---x freeze
| +---x exercise
| +---x clear
+--rw xpic-pairs {xpic}?
| +--rw xpic-pair* [name]
| +--rw name string
| +--rw enabled? boolean
| +--rw members* if:interface-ref
+--rw mimo-groups {mimo}?
+--rw mimo-group* [name]
+--rw name string
+--rw enabled? boolean
+--rw members* if:interface-ref
augment /if:interfaces/if:interface:
+--rw id? string
+--rw mode identityref
+--rw carrier-terminations* if:interface-ref
+--rw rlp-groups*
| -> /radio-link-protection-groups/protection-group/name
+--rw xpic-pairs* -> /xpic-pairs/xpic-pair/name
| {xpic}?
+--rw mimo-groups* -> /mimo-groups/mimo-group/name
| {mimo}?
+--rw tdm-connections* [tdm-type] {tdm}?
+--rw tdm-type identityref
+--rw tdm-connections uint16
augment /if:interfaces/if:interface:
+--rw carrier-id? string
+--rw tx-enabled? boolean
+--ro tx-oper-status? enumeration
+--rw tx-frequency uint32
+--rw (freq-or-distance)
| +--:(rx-frequency)
| | +--rw rx-frequency? uint32
| +--:(duplex-distance)
| +--rw duplex-distance? int32
+--ro actual-rx-frequency? uint32
+--ro actual-duplex-distance? uint32
+--rw channel-separation uint32
+--rw polarization? enumeration
+--rw (power-mode)
| +--:(rtpc)
| | +--rw rtpc
| | +--rw maximum-nominal-power power
| +--:(atpc)
| +--rw atpc
| +--rw maximum-nominal-power power
| +--rw atpc-lower-threshold power
| +--rw atpc-upper-threshold power
+--ro actual-transmitted-level? power
+--ro actual-received-level? power
+--rw (coding-modulation-mode)
| +--:(single)
| | +--rw single
| | +--rw selected-cm identityref
| +--:(adaptive)
| +--rw adaptive
| +--rw selected-min-acm identityref
| +--rw selected-max-acm identityref
+--ro actual-tx-cm? identityref
+--ro actual-snir? decimal64
+--ro actual-xpi? decimal64 {xpic}?
+--rw ct-performance-thresholds
| +--rw received-level-alarm-threshold? power
| +--rw transmitted-level-alarm-threshold? power
| +--rw ber-alarm-threshold? enumeration
+--rw if-loop? enumeration
+--rw rf-loop? enumeration
+--ro capabilities
| +--ro min-tx-frequency? uint32
| +--ro max-tx-frequency? uint32
| +--ro min-rx-frequency? uint32
| +--ro max-rx-frequency? uint32
| +--ro minimum-power? power
| +--ro maximum-available-power? power
| +--ro available-min-acm? identityref
| +--ro available-max-acm? identityref
+--ro error-performance-statistics
| +--ro bbe? yang:counter32
| +--ro es? yang:counter32
| +--ro ses? yang:counter32
| +--ro uas? yang:counter32
+--ro radio-performance-statistics
+--ro min-rltm? power
+--ro max-rltm? power
+--ro min-tltm? power
+--ro max-tltm? power
The leafs in the Interface Management Module augmented by RLT and CT are not always applicable.
RLTとCTによって拡張されたインターフェイス管理モジュールのリーフは、常に適用できるとは限りません。
"/interfaces/interface/enabled" is not applicable for RLT. Enable and disable of an interface is done in the constituent CTs.
「/ interfaces / interface / enabled」はRLTには適用されません。インターフェイスの有効化と無効化は、構成CTで行われます。
The packet-related measurements "in-octets", "in-unicast-pkts", "in-broadcast-pkts", "in-multicast-pkts", "in-discards", "in-errors", "in-unknown-protos", "out-octets", "out-unicast-pkts", "out-broadcast-pkts", "out-multicast-pkts", "out-discards", and "out-errors" are not within the scope of the microwave radio link domain and therefore are not applicable for RLT and CT.
パケット関連の測定「オクテット内」、「ユニキャストパケット」、「ブロードキャストパケット」、「マルチキャストパケット」、「廃棄」、「エラー」、「 unknown-protos、「out-octets」、「out-unicast-pkts」、「out-broadcast-pkts」、「out-multicast-pkts」、「out-discards」、および「out-errors」は、マイクロ波無線リンクドメインの範囲であるため、RLTおよびCTには適用されません。
This module imports typedefs and modules from [RFC6991], [RFC8343] and [RFC7224], and it references [TR102311], [EN302217-1], [EN301129], and [G.826].
このモジュールは、[RFC6991]、[RFC8343]、および[RFC7224]からtypedefおよびモジュールをインポートし、[TR102311]、[EN302217-1]、[EN301129]、および[G.826]を参照します。
<CODE BEGINS> file "ietf-microwave-radio-link@2019-06-19.yang"
module ietf-microwave-radio-link {
yang-version 1.1;
namespace "urn:ietf:params:xml:ns:yang:ietf-microwave-radio-link";
prefix mrl;
import ietf-yang-types {
prefix yang;
reference
"RFC 6991";
}
import iana-if-type {
prefix ianaift;
}
import ietf-interfaces {
prefix if;
reference
"RFC 8343";
}
import ietf-interface-protection {
prefix ifprot;
reference
"RFC 8561";
}
import ietf-microwave-types {
prefix mw-types;
reference
"RFC 8561";
}
organization
"Internet Engineering Task Force (IETF) CCAMP WG";
contact
"WG List: <mailto:ccamp@ietf.org>
Editors: Jonas Ahlberg (jonas.ahlberg@ericsson.com) Min Ye (amy.yemin@huawei.com) Xi Li (Xi.Li@neclab.eu) Daniela Spreafico (daniela.spreafico@nokia.com) Marko Vaupotic (Marko.Vaupotic@aviatnet.com)"; description "This is a module for the entities in a generic microwave system.
編集者:Jonas Ahlberg(jonas.ahlberg@ericsson.com)Min Ye(amy.yemin@huawei.com)Xi Li(Xi.Li@neclab.eu)Daniela Spreafico(daniela.spreafico@nokia.com)Marko Vaupotic(Marko .Vaupotic @ aviatnet.com) ";説明"これは、一般的なマイクロ波システムのエンティティ用のモジュールです。
Copyright (c) 2019 IETF Trust and the persons identified as authors of the code. All rights reserved.
Copyright(c)2019 IETF Trustおよびコードの作成者として識別された人物。全著作権所有。
Redistribution and use in source and binary forms, with or without modification, is permitted pursuant to, and subject to the license terms contained in, the Simplified BSD License set forth in Section 4.c of the IETF Trust's Legal Provisions Relating to IETF Documents (http://trustee.ietf.org/license-info).
ソースおよびバイナリ形式での再配布および使用は、変更の有無にかかわらず、IETF文書に関連するIETFトラストの法的規定のセクション4.cに記載されているSimplified BSD Licenseに従い、それに含まれるライセンス条項に従って許可されます( http://trustee.ietf.org/license-info)。
This version of this YANG module is part of RFC 8561; see the RFC itself for full legal notices.";
このYANGモジュールのこのバージョンはRFC 8561の一部です。完全な法的通知については、RFC自体を参照してください。 ";
revision 2019-06-19 {
description
"Initial revision.";
reference
"RFC 8561: A YANG Data Model for Microwave Radio Link";
}
/*
* Features
*/
feature xpic {
description
"Indicates that the device supports XPIC.";
reference
"ETSI TR 102 311";
}
feature mimo {
description
"Indicates that the device supports MIMO.";
reference
"ETSI TR 102 311";
}
feature tdm {
description
"Indicates that the device supports TDM.";
}
/*
* Typedefs
*/
typedef power {
type decimal64 {
fraction-digits 1;
}
description
"Type used for the power values in the data nodes
for configuration or status.";
}
/*
* Radio Link Terminal (RLT)
*/
augment "/if:interfaces/if:interface" {
when "derived-from-or-self(if:type,"
+ "'ianaift:microwaveRadioLinkTerminal')";
description
"Addition of data nodes for the radio link terminal to
the standard Interface data model, for interfaces of
the type 'microwaveRadioLinkTerminal'.";
leaf id {
type string;
description
"Descriptive identity of the radio link terminal used by
far-end RLT to check that it's connected to the correct
near-end RLT. Does not need to be configured if this
check is not used.";
}
leaf mode {
type identityref {
base mw-types:rlt-mode;
}
mandatory true;
description
"A description of the mode in which the radio link
terminal is configured. The format is X plus Y.
X represents the number of bonded carrier terminations.
Y represents the number of protecting carrier
terminations.";
}
leaf-list carrier-terminations {
type if:interface-ref;
must "derived-from-or-self(/if:interfaces/if:interface"
+ "[if:name = current()]"
+ "/if:type, 'ianaift:microwaveCarrierTermination')" {
description
"The type of interface must be
'microwaveCarrierTermination'.";
}
min-elements 1;
description
"A list of references to carrier terminations
included in the radio link terminal.";
}
leaf-list rlp-groups {
type leafref {
path "/mrl:radio-link-protection-groups/"
+ "mrl:protection-group/mrl:name";
}
description
"A list of references to the carrier termination
groups configured for radio link protection in this
radio link terminal.";
}
leaf-list xpic-pairs {
if-feature "xpic";
type leafref {
path "/mrl:xpic-pairs/mrl:xpic-pair/mrl:name";
}
description
"A list of references to the XPIC pairs used in this
radio link terminal. One pair can be used by two
terminals.";
reference
"ETSI TR 102 311";
}
leaf-list mimo-groups {
if-feature "mimo";
type leafref {
path "/mrl:mimo-groups/mrl:mimo-group/mrl:name";
}
description
"A reference to the MIMO group used in this
radio link terminal. One group can be used by more
than one terminal.";
reference
"ETSI TR 102 311";
}
list tdm-connections {
if-feature "tdm";
key "tdm-type";
description
"A list stating the number of active TDM connections
of a specified tdm-type that is configured to be
supported by the RLT.";
leaf tdm-type {
type identityref {
base mw-types:tdm-type;
}
description
"The type of TDM connection, which also indicates
the supported capacity.";
}
leaf tdm-connections {
type uint16;
mandatory true;
description
"Number of connections of the specified type.";
}
}
}
/*
* Carrier Termination
*/
augment "/if:interfaces/if:interface" {
when "derived-from-or-self(if:type,"
+ "'ianaift:microwaveCarrierTermination')";
description
"Addition of data nodes for carrier termination to
the standard Interface data model, for interfaces
of the type 'microwaveCarrierTermination'.";
leaf carrier-id {
type string;
default "A";
description
"ID of the carrier (e.g., A, B, C, or D).
Used in XPIC and MIMO configurations to check that
the carrier termination is connected to the correct
far-end carrier termination. Should be the same
carrier ID on both sides of the hop. Left as
default value when MIMO and XPIC are not in use.";
}
leaf tx-enabled {
type boolean;
default "false";
description
"Disables (false) or enables (true) the transmitter.
Only applicable when the interface is enabled
(interface:enabled = true); otherwise, it's always
disabled.";
}
leaf tx-oper-status {
type enumeration {
enum off {
description
"Transmitter is off.";
}
enum on {
description
"Transmitter is on.";
}
enum standby {
description
"Transmitter is in standby.";
}
}
config false;
description
"Shows the operative status of the transmitter.";
}
leaf tx-frequency {
type uint32;
units "kHz";
mandatory true;
description
"Selected transmitter frequency.";
}
choice freq-or-distance {
leaf rx-frequency {
type uint32;
units "kHz";
description
"Selected receiver frequency.";
}
leaf duplex-distance {
type int32;
units "kHz";
description
"Distance between transmitter and receiver frequencies.";
}
mandatory true;
description
"A choice to configure rx-frequency directly or compute
it as duplex-distance subtracted from tx-frequency.";
}
leaf actual-rx-frequency {
type uint32;
units "kHz";
config false;
description
"Computed receiver frequency.";
}
leaf actual-duplex-distance {
type uint32;
units "kHz";
config false;
description
"Computed distance between Tx and Rx frequencies.";
}
leaf channel-separation {
type uint32;
units "kHz";
mandatory true;
description
"The amount of bandwidth allocated to a carrier. The
distance between adjacent channels in a radio
frequency channels arrangement";
reference
"ETSI EN 302 217-1";
}
leaf polarization {
type enumeration {
enum horizontal {
description
"Horizontal polarization.";
}
enum vertical {
description
"Vertical polarization.";
}
enum not-specified {
description
"Polarization not specified.";
}
}
default "not-specified";
description
"Polarization - a textual description for info only.";
}
choice power-mode {
container rtpc {
description
"Remote Transmit Power Control (RTPC).";
reference
"ETSI EN 302 217-1";
leaf maximum-nominal-power {
type power {
range "-99..99";
}
units "dBm";
mandatory true;
description
"Selected output power.";
reference
"ETSI EN 302 217-1";
}
}
container atpc {
description
"Automatic Transmitter Power Control (ATPC).";
reference
"ETSI EN 302 217-1";
leaf maximum-nominal-power {
type power {
range "-99..99";
}
units "dBm";
mandatory true;
description
"Selected maximum output power. Minimum output
power is the same as the system capability,
minimum-power.";
reference
"ETSI EN 302 217-1";
}
leaf atpc-lower-threshold {
type power {
range "-99..-20";
}
units "dBm";
must 'current() <= ../atpc-upper-threshold';
mandatory true;
description
"The lower threshold for the input power at the
far end, which is used in the ATPC mode.";
reference
"ETSI EN 302 217-1";
}
leaf atpc-upper-threshold {
type power {
range "-99..-20";
}
units "dBm";
mandatory true;
description
"The upper threshold for the input power at the
far end, which is used in the ATPC mode.";
reference
"ETSI EN 302 217-1";
}
}
mandatory true;
description
"A choice of RTPC or ATPC.";
}
leaf actual-transmitted-level {
type power {
range "-99..99";
}
units "dBm";
config false;
description
"Actual transmitted power level (0.1 dBm resolution).";
reference
"ETSI EN 301 129";
}
leaf actual-received-level {
type power {
range "-99..-20";
}
units "dBm";
config false;
description
"Actual received power level (0.1 dBm resolution).";
reference
"ETSI EN 301 129";
}
choice coding-modulation-mode {
container single {
description
"A single modulation order only.";
reference
"ETSI EN 302 217-1";
leaf selected-cm {
type identityref {
base mw-types:coding-modulation;
}
mandatory true;
description
"Selected the single coding/modulation.";
}
}
container adaptive {
description
"Adaptive coding/modulation.";
reference
"ETSI EN 302 217-1";
leaf selected-min-acm {
type identityref {
base mw-types:coding-modulation;
}
mandatory true;
description
"Selected minimum coding/modulation.
Adaptive coding/modulation shall not go
below this value.";
}
leaf selected-max-acm {
type identityref {
base mw-types:coding-modulation;
}
mandatory true;
description
"Selected maximum coding/modulation.
Adaptive coding/modulation shall not go
above this value.";
}
}
mandatory true;
description
"A selection of single or
adaptive coding/modulation mode.";
}
leaf actual-tx-cm {
type identityref {
base mw-types:coding-modulation;
}
config false;
description
"Actual coding/modulation in transmitting direction.";
}
leaf actual-snir {
type decimal64 {
fraction-digits 1;
range "0..99";
}
units "dB";
config false;
description
"Actual signal to noise plus the interference ratio
(0.1 dB resolution).";
}
leaf actual-xpi {
if-feature "xpic";
type decimal64 {
fraction-digits 1;
range "0..99";
}
units "dB";
config false;
description
"The actual carrier to cross-polar interference.
Only valid if XPIC is enabled (0.1 dB resolution).";
reference
"ETSI TR 102 311";
}
container ct-performance-thresholds {
description
"Specification of thresholds for when alarms should
be sent and cleared for various performance counters.";
leaf received-level-alarm-threshold {
type power {
range "-99..-20";
}
units "dBm";
default "-99";
description
"An alarm is sent when the received power level is
below the specified threshold.";
reference
"ETSI EN 301 129";
}
leaf transmitted-level-alarm-threshold {
type power {
range "-99..99";
}
units "dBm";
default "-99";
description
"An alarm is sent when the transmitted power level
is below the specified threshold.";
reference
"ETSI EN 301 129";
}
leaf ber-alarm-threshold {
type enumeration {
enum 1e-9 {
description
"Threshold at 1e-9 (10^-9).";
}
enum 1e-8 {
description
"Threshold at 1e-8 (10^-8).";
}
enum 1e-7 {
description
"Threshold at 1e-7 (10^-7).";
}
enum 1e-6 {
description
"Threshold at 1e-6 (10^-6).";
}
enum 1e-5 {
description
"Threshold at 1e-5 (10^-5).";
}
enum 1e-4 {
description
"Threshold at 1e-4 (10^-4).";
}
enum 1e-3 {
description
"Threshold at 1e-3 (10^-3).";
}
enum 1e-2 {
description
"Threshold at 1e-2 (10^-2).";
}
enum 1e-1 {
description
"Threshold at 1e-1 (10^-1).";
}
}
default "1e-6";
description
"Specification of at which BER an alarm should
be raised.";
reference
"ETSI EN 302 217-1";
}
}
leaf if-loop {
type enumeration {
enum disabled {
description
"Disables the IF Loop.";
}
enum client {
description
"Loops the signal back to the client side.";
}
enum radio {
description
"Loops the signal back to the radio side.";
}
}
default "disabled";
description
"Enable (client/radio) or disable (disabled)
the IF Loop, which loops the signal back to
the client side or the radio side.";
}
leaf rf-loop {
type enumeration {
enum disabled {
description
"Disables the RF Loop.";
}
enum client {
description
"Loops the signal back to the client side.";
}
enum radio {
description
"Loops the signal back to the radio side.";
}
}
default "disabled";
description
"Enable (client/radio) or disable (disabled)
the RF loop, which loops the signal back to
the client side or the radio side.";
}
container capabilities {
config false;
description
"Capabilities of the installed equipment and
some selected configurations.";
leaf min-tx-frequency {
type uint32;
units "kHz";
description
"Minimum Tx frequency possible to use.";
}
leaf max-tx-frequency {
type uint32;
units "kHz";
description
"Maximum Tx frequency possible to use.";
}
leaf min-rx-frequency {
type uint32;
units "kHz";
description
"Minimum Rx frequency possible to use.";
}
leaf max-rx-frequency {
type uint32;
units "kHz";
description
"Maximum Tx frequency possible to use.";
}
leaf minimum-power {
type power;
units "dBm";
description
"The minimum output power supported.";
reference
"ETSI EN 302 217-1";
}
leaf maximum-available-power {
type power;
units "dBm";
description
"The maximum output power supported.";
reference
"ETSI EN 302 217-1";
}
leaf available-min-acm {
type identityref {
base mw-types:coding-modulation;
}
description
"Minimum coding-modulation possible to use.";
}
leaf available-max-acm {
type identityref {
base mw-types:coding-modulation;
}
description
"Maximum coding-modulation possible to use.";
}
}
container error-performance-statistics {
config false;
description
"ITU-T G.826 error performance statistics relevant for
a microwave/millimeter wave carrier.";
leaf bbe {
type yang:counter32;
units "number of block errors";
description
"Number of Background Block Errors (BBEs). A BBE is an
errored block not occurring as part of Severely Errored
Seconds (SES). Discontinuities in the value of this
counter can occur at re-initialization of the management
system and at other times as indicated by the value of
'discontinuity-time' in ietf-interfaces.";
reference
"ITU-T G.826";
}
leaf es {
type yang:counter32;
units "seconds";
description
"Number of Errored Seconds (ES). An ES is a one-second
period with one or more errored blocks or at least one
defect. Discontinuities in the value of this counter
can occur at re-initialization of the management system
and at other times as indicated by the value of
'discontinuity-time' in ietf-interfaces.";
reference
"ITU-T G.826";
}
leaf ses {
type yang:counter32;
units "seconds";
description
"Number of SES. SES is a one-second period that contains
equal or more than 30% errored blocks or at least
one defect. SES is a subset of ES. Discontinuities in
the value of this counter can occur at re-initialization
of the management system and at other times as indicated
by the value of 'discontinuity-time' in ietf-interfaces.";
reference
"ITU-T G.826";
}
leaf uas {
type yang:counter32;
units "seconds";
description
"Number of Unavailable Seconds (UAS); that is, the
total time that the node has been unavailable.
Discontinuities in the value of this counter can occur
at re-initialization of the management system and at
other times as indicated by the value of
'discontinuity-time' in ietf-interfaces.";
reference
"ITU-T G.826";
}
}
container radio-performance-statistics {
config false;
description
"ETSI EN 301 129 radio physical interface statistics relevant
for a carrier termination.";
leaf min-rltm {
type power {
range "-99..-20";
}
units "dBm";
description
"Minimum received power level. Discontinuities in the
value of this counter can occur at re-initialization
of the management system and at other times as
indicated by the value of 'discontinuity-time' in
ietf-interfaces.";
reference
"ETSI EN 301 129";
}
leaf max-rltm {
type power {
range "-99..-20";
}
units "dBm";
description
"Maximum received power level. Discontinuities in the
value of this counter can occur at re-initialization
of the management system and at other times as
indicated by the value of 'discontinuity-time' in
ietf-interfaces.";
reference
"ETSI EN 301 129";
}
leaf min-tltm {
type power {
range "-99..99";
}
units "dBm";
description
"Minimum transmitted power level. Discontinuities
in the value of this counter can occur at
re-initialization of the management system and
at other times as indicated by the value of
'discontinuity-time' in ietf-interfaces.";
reference
"ETSI EN 301 129";
}
leaf max-tltm {
type power {
range "-99..99";
}
units "dBm";
description
"Maximum transmitted power level. Discontinuities
in the value of this counter can occur at
re-initialization of the management system and
at other times as indicated by the value of
'discontinuity-time' in ietf-interfaces.";
reference
"ETSI EN 301 129";
}
}
}
/*
* Radio Link Protection Groups
*/
container radio-link-protection-groups {
description
"Configuration of radio link protected groups of
carrier terminations in a radio link. More than one
protected group per radio link terminal is allowed.";
uses ifprot:protection-groups {
refine "protection-group/members" {
must "derived-from-or-self(/if:interfaces/if:interface"
+ "[if:name = current()]"
+ "/if:type, 'ianaift:microwaveCarrierTermination')" {
description
"The type of a protection member must be
'microwaveCarrierTermination'.";
}
}
refine "protection-group/working-entity" {
must "derived-from-or-self(/if:interfaces/if:interface"
+ "[if:name = current()]"
+ "/if:type, 'ianaift:microwaveCarrierTermination')" {
description
"The type of a working-entity must be
'microwaveCarrierTermination'.";
}
}
}
}
/*
* XPIC & MIMO groups - Configuration data nodes
*/
container xpic-pairs {
if-feature "xpic";
description
"Configuration of carrier termination pairs
for operation in XPIC mode.";
reference
"ETSI TR 102 311";
list xpic-pair {
key "name";
description
"List of carrier termination pairs in XPIC mode.";
leaf name {
type string;
description
"Name used for identification of the XPIC pair.";
}
leaf enabled {
type boolean;
default "false";
description
"Enable(true)/disable(false) XPIC";
}
leaf-list members {
type if:interface-ref;
must "derived-from-or-self(/if:interfaces/if:interface"
+ "[if:name = current()]"
+ "/if:type, 'ianaift:microwaveCarrierTermination')" {
description
"The type of a member must be
'microwaveCarrierTermination'.";
}
min-elements 2;
max-elements 2;
description
"Association to XPIC pairs used in the radio link
terminal.";
}
}
}
container mimo-groups {
if-feature "mimo";
description
"Configuration of carrier terminations
for operation in MIMO mode.";
reference
"ETSI TR 102 311";
list mimo-group {
key "name";
description
"List of carrier terminations in MIMO mode.";
leaf name {
type string;
description
"Name used for identification of the MIMO group.";
}
leaf enabled {
type boolean;
default "false";
description
"Enable(true)/disable(false) MIMO.";
}
leaf-list members {
type if:interface-ref;
must "derived-from-or-self(/if:interfaces/if:interface"
+ "[if:name = current()]"
+ "/if:type, 'ianaift:microwaveCarrierTermination')" {
description
"The type of a member must be
'microwaveCarrierTermination'.";
}
min-elements 2;
description
"Association to a MIMO group if used in the radio
link terminal.";
}
}
}
}
<CODE ENDS>
<コード終了>
The data nodes for management of the interface protection functionality is broken out from the Microwave Radio Link Module into a separate and generic YANG data model in order to make it also available for other interface types.
インターフェイス保護機能を管理するためのデータノードは、他のインターフェイスタイプでも使用できるようにするために、マイクロ波無線リンクモジュールから個別の汎用YANGデータモデルに分割されています。
This module imports modules from [RFC8343], and it references [G.808.1].
このモジュールは[RFC8343]からモジュールをインポートし、[G.808.1]を参照します。
<CODE BEGINS> file "ietf-interface-protection@2019-06-19.yang"
module ietf-interface-protection {
yang-version 1.1;
namespace "urn:ietf:params:xml:ns:yang:ietf-interface-protection";
prefix ifprot;
import ietf-interfaces {
prefix if;
reference
"RFC 8343";
}
organization
"Internet Engineering Task Force (IETF) CCAMP WG";
contact
"WG List: <mailto:ccamp@ietf.org>
Editors: Jonas Ahlberg (jonas.ahlberg@ericsson.com) Min Ye (amy.yemin@huawei.com) Xi Li (Xi.Li@neclab.eu) Daniela Spreafico (daniela.spreafico@nokia.com) Marko Vaupotic (Marko.Vaupotic@aviatnet.com)"; description "This is a module for the entities in a generic interface protection mechanism.
編集者:Jonas Ahlberg(jonas.ahlberg@ericsson.com)Min Ye(amy.yemin@huawei.com)Xi Li(Xi.Li@neclab.eu)Daniela Spreafico(daniela.spreafico@nokia.com)Marko Vaupotic(Marko .Vaupotic @ aviatnet.com) ";説明"これは、一般的なインターフェイス保護メカニズムのエンティティ用のモジュールです。
Copyright (c) 2019 IETF Trust and the persons identified as authors of the code. All rights reserved.
Copyright(c)2019 IETF Trustおよびコードの作成者として識別された人物。全著作権所有。
Redistribution and use in source and binary forms, with or without modification, is permitted pursuant to, and subject to the license terms contained in, the Simplified BSD License set forth in Section 4.c of the IETF Trust's Legal Provisions Relating to IETF Documents (http://trustee.ietf.org/license-info).
ソースおよびバイナリ形式での再配布および使用は、変更の有無にかかわらず、IETF文書に関連するIETFトラストの法的規定のセクション4.cに記載されているSimplified BSD Licenseに従い、それに含まれるライセンス条項に従って許可されます( http://trustee.ietf.org/license-info)。
This version of this YANG module is part of RFC 8561; see the RFC itself for full legal notices.";
このYANGモジュールのこのバージョンはRFC 8561の一部です。完全な法的通知については、RFC自体を参照してください。 ";
revision 2019-06-19 {
description
"Initial revision.";
reference
"RFC 8561: A YANG Data Model for Microwave Radio Link";
}
/*
* Protection architecture type identities
*/
identity protection-architecture-type {
description
"protection architecture type";
reference
"ITU-T G.808.1";
}
identity one-plus-one-type {
base protection-architecture-type;
description
"1+1; one interface protects
another one interface.";
reference
"ITU-T G.808.1";
}
identity one-to-n-type {
base protection-architecture-type;
description
"1:N; one interface protects
n other interfaces.";
reference
"ITU-T G.808.1";
}
/*
* Protection states identities
*/
identity protection-states {
description
"Identities describing the status of the protection
in a group of interfaces configured in
a protection mode.";
}
}
identity unprotected {
base protection-states;
description
"Not protected.";
}
identity protected {
base protection-states;
description
"Protected.";
}
identity unable-to-protect {
base protection-states;
description
"Unable to protect.";
}
/*
* Protection Groups
*/
grouping protection-groups {
description
"Configuration of protected groups of interfaces
providing protection for each other. More than one
protected group per higher-layer interface is allowed.";
list protection-group {
key "name";
description
"List of protected groups of interfaces
in a higher-layer interface.";
leaf name {
type string;
description
"Name used for identification of the protection group.";
}
leaf protection-architecture-type {
type identityref {
base protection-architecture-type;
}
default "ifprot:one-plus-one-type";
description
"The type of protection architecture used, e.g., one
interface protecting one or several other interfaces.";
reference
"ITU-T G.808.1";
}
leaf-list members {
type if:interface-ref;
min-elements 2;
description
"Association to a group of interfaces configured for
protection and used by a higher-layer interface.";
}
leaf operation-type {
type enumeration {
enum non-revertive {
description
"In non-revertive operation, the traffic does not
return to the working interface if the switch requests
are terminated.";
reference
"ITU-T G.808.1";
}
enum revertive {
description
"In revertive operation, the traffic always
returns to (or remains on) the working interface
if the switch requests are terminated.";
reference
"ITU-T G.808.1";
}
}
default "non-revertive";
description
"The type of protection operation, i.e., revertive
or non-revertive operation.";
}
leaf-list working-entity {
when "../operation-type = 'revertive'";
type if:interface-ref;
min-elements 1;
description
"The interfaces that the traffic normally should
be transported over when there is no need to use the
protecting interface.";
}
leaf revertive-wait-to-restore {
when "../operation-type = 'revertive'";
type uint16;
units "seconds";
default "0";
description
"The time to wait before switching back to the working
interface if operation-type is revertive.";
reference
"ITU-T G.808.1";
}
leaf hold-off-timer {
type uint16;
units "milliseconds";
default "0";
description
"Time interval after the detection of a fault and its
confirmation as a condition requiring the protection-
switching procedure.";
reference
"ITU-T G.808.1";
}
leaf status {
type identityref {
base protection-states;
}
config false;
description
"Status of the protection in a group of interfaces
configured in a protection mode.";
reference
"ITU-T G.808.1";
}
action manual-switch-working {
description
"A switch action initiated by an operator command.
It switches a normal traffic signal to the working
transport entity.";
reference
"ITU-T G.808.1";
}
action manual-switch-protection {
description
"A switch action initiated by an operator command.
It switches a normal traffic signal to the protection
transport entity.";
reference
"ITU-T G.808.1";
}
action forced-switch {
description
"A switch action initiated by an operator command.
It switches a normal traffic signal to the protection
transport entity and forces it to remain on that
entity even when criteria for switching back to
the original entity are fulfilled.";
reference
"ITU-T G.808.1";
}
action lockout-of-protection {
description
"A switch action temporarily disables access to the
protection transport entity for all signals.";
reference
"ITU-T G.808.1";
}
action freeze {
description
"A switch action temporarily prevents any switch action
to be taken and, as such, freezes the current state.
Until the freeze is cleared, additional near-end external
commands are rejected, and fault condition changes and
received Automatic Protection-Switching (APS) messages
are ignored.";
reference
"ITU-T G.808.1";
}
action exercise {
description
"A switch action to test if the APS communication is
operating correctly. It is lower priority than any 'real'
switch request.";
reference
"ITU-T G.808.1";
}
action clear {
description
"An action clears all switch commands.";
reference
"ITU-T G.808.1";
}
}
}
}
<CODE ENDS>
<コード終了>
This module defines a collection of common data types using the YANG data modeling language. These common types are designed to be imported by other modules defined in the microwave area.
このモジュールは、YANGデータモデリング言語を使用して一般的なデータ型のコレクションを定義します。これらの一般的なタイプは、マイクロ波領域で定義されている他のモジュールによってインポートされるように設計されています。
<CODE BEGINS> file "ietf-microwave-types@2019-06-19.yang"
module ietf-microwave-types {
yang-version 1.1;
namespace "urn:ietf:params:xml:ns:yang:ietf-microwave-types";
prefix mw-types;
organization
"Internet Engineering Task Force (IETF) CCAMP WG";
contact
"WG List: <mailto:ccamp@ietf.org>
Editors: Jonas Ahlberg (jonas.ahlberg@ericsson.com) Min Ye (amy.yemin@huawei.com) Xi Li (Xi.Li@neclab.eu) Daniela Spreafico (daniela.spreafico@nokia.com) Marko Vaupotic (Marko.Vaupotic@aviatnet.com)"; description "This module contains a collection of YANG data types considered generally useful for microwave interfaces.
編集者:Jonas Ahlberg(jonas.ahlberg@ericsson.com)Min Ye(amy.yemin@huawei.com)Xi Li(Xi.Li@neclab.eu)Daniela Spreafico(daniela.spreafico@nokia.com)Marko Vaupotic(Marko .Vaupotic @ aviatnet.com) ";説明"このモジュールには、マイクロ波インターフェースに一般的に役立つと考えられるYANGデータ型のコレクションが含まれています。
Copyright (c) 2019 IETF Trust and the persons identified as authors of the code. All rights reserved.
Copyright(c)2019 IETF Trustおよびコードの作成者として識別された人物。全著作権所有。
Redistribution and use in source and binary forms, with or without modification, is permitted pursuant to, and subject to the license terms contained in, the Simplified BSD License set forth in Section 4.c of the IETF Trust's Legal Provisions Relating to IETF Documents (http://trustee.ietf.org/license-info).
ソースおよびバイナリ形式での再配布および使用は、変更の有無にかかわらず、IETF文書に関連するIETFトラストの法的規定のセクション4.cに記載されているSimplified BSD Licenseに従い、それに含まれるライセンス条項に従って許可されます( http://trustee.ietf.org/license-info)。
This version of this YANG module is part of RFC 8561; see the RFC itself for full legal notices.";
このYANGモジュールのこのバージョンはRFC 8561の一部です。完全な法的通知については、RFC自体を参照してください。 ";
revision 2019-06-19 {
description
"Initial revision.";
reference
"RFC 8561: A YANG Data Model for Microwave Radio Link";
}
/*
* Radio-link-terminal mode identities
*/
identity rlt-mode {
description
"A description of the mode in which the radio link
terminal is configured. The format is X plus Y.
X represents the number of bonded carrier terminations.
Y represents the number of protecting carrier
terminations.";
}
identity one-plus-zero {
base rlt-mode;
description
"1 carrier termination only.";
}
identity one-plus-one {
base rlt-mode;
description
"1 carrier termination
and 1 protecting carrier termination.";
}
identity two-plus-zero {
base rlt-mode;
description
"2 bonded carrier terminations.";
}
/*
* Coding and modulation identities
*/
identity coding-modulation {
description
"The coding and modulation schemes.";
}
identity half-bpsk {
base coding-modulation;
description
"Half BPSK coding and modulation scheme.";
}
identity half-bpsk-strong {
base half-bpsk;
description
"Half BPSK strong coding and modulation scheme.";
}
identity half-bpsk-light {
base half-bpsk;
description
"Half BPSK light coding and modulation scheme.";
}
identity bpsk {
base coding-modulation;
description
"BPSK coding and modulation scheme.";
}
identity bpsk-strong {
base bpsk;
description
"BPSK strong coding and modulation scheme.";
}
identity bpsk-light {
base bpsk;
description
"BPSK light coding and modulation scheme.";
}
identity qpsk {
base coding-modulation;
description
"QPSK coding and modulation scheme.";
}
identity qam-4 {
base coding-modulation;
description
"4 QAM coding and modulation scheme.";
}
identity qam-4-strong {
base qam-4;
description
"4 QAM strong coding and modulation scheme.";
}
identity qam-4-light {
base qam-4;
description
"4 QAM light coding and modulation scheme.";
}
identity qam-16 {
base coding-modulation;
description
"16 QAM coding and modulation scheme.";
}
identity qam-16-strong {
base qam-16;
description
"16 QAM strong coding and modulation scheme.";
}
identity qam-16-light {
base qam-16;
description
"16 QAM light coding and modulation scheme.";
}
identity qam-32 {
base coding-modulation;
description
"32 QAM coding and modulation scheme.";
}
identity qam-32-strong {
base qam-32;
description
"32 QAM strong coding and modulation scheme.";
}
identity qam-32-light {
base qam-32;
description
"32 QAM light coding and modulation scheme.";
}
identity qam-64 {
base coding-modulation;
description
"64 QAM coding and modulation scheme.";
}
identity qam-64-strong {
base qam-64;
description
"64 QAM strong coding and modulation scheme.";
}
identity qam-64-light {
base qam-64;
description
"64 QAM light coding and modulation scheme.";
}
identity qam-128 {
base coding-modulation;
description
"128 QAM coding and modulation scheme.";
}
identity qam-128-strong {
base qam-128;
description
"128 QAM strong coding and modulation scheme.";
}
identity qam-128-light {
base qam-128;
description
"128 QAM light coding and modulation scheme.";
}
identity qam-256 {
base coding-modulation;
description
"256 QAM coding and modulation scheme.";
}
identity qam-256-strong {
base qam-256;
description
"256 QAM strong coding and modulation scheme.";
}
identity qam-256-light {
base qam-256;
description
"256 QAM light coding and modulation scheme.";
}
identity qam-512 {
base coding-modulation;
description
"512 QAM coding and modulation scheme.";
}
identity qam-512-strong {
base qam-512;
description
"512 QAM strong coding and modulation scheme.";
}
identity qam-512-light {
base qam-512;
description
"512 QAM light coding and modulation scheme.";
}
identity qam-1024 {
base coding-modulation;
description
"1024 QAM coding and modulation scheme.";
}
identity qam-1024-strong {
base qam-1024;
description
"1024 QAM strong coding and modulation scheme.";
}
identity qam-1024-light {
base qam-1024;
description
"1024 QAM light coding and modulation scheme.";
}
identity qam-2048 {
base coding-modulation;
description
"2048 QAM coding and modulation scheme.";
}
identity qam-2048-strong {
base qam-2048;
description
"2048 QAM strong coding and modulation scheme.";
}
identity qam-2048-light {
base qam-2048;
description
"2048 QAM light coding and modulation scheme.";
}
identity qam-4096 {
base coding-modulation;
description
"4096 QAM coding and modulation scheme.";
}
identity qam-4096-strong {
base qam-4096;
description
"4096 QAM strong coding and modulation scheme.";
}
identity qam-4096-light {
base qam-4096;
description
"4096 QAM light coding and modulation scheme.";
}
/*
* TDM-type identities
*/
identity tdm-type {
description
"A description of the type of TDM connection,
also indicating the supported capacity of the
connection.";
}
identity E1 {
base tdm-type;
description
"E1 connection, 2.048 Mbit/s.";
}
identity STM-1 {
base tdm-type;
description
"STM-1 connection, 155.52 Mbit/s.";
}
}
<CODE ENDS>
<コード終了>
The YANG data models specified in this document define schemas for data that is designed to be accessed via network management protocols such as NETCONF [RFC6241] or RESTCONF [RFC8040]. The lowest NETCONF layer is the secure transport layer, and the mandatory-to-implement secure transport is Secure Shell (SSH) [RFC6242]. The lowest RESTCONF layer is HTTPS, and the mandatory-to-implement secure transport is TLS [RFC8446].
このドキュメントで指定されているYANGデータモデルは、NETCONF [RFC6241]やRESTCONF [RFC8040]などのネットワーク管理プロトコルを介してアクセスするように設計されたデータのスキーマを定義します。最下層のNETCONF層はセキュアなトランスポート層であり、実装に必須のセキュアなトランスポートはセキュアシェル(SSH)[RFC6242]です。最下位のRESTCONFレイヤーはHTTPSであり、実装に必須のセキュアなトランスポートはTLS [RFC8446]です。
The Network Configuration Access Control Model (NACM) [RFC8341] provides the means to restrict access for particular NETCONF or RESTCONF users to a preconfigured subset of all available NETCONF or RESTCONF protocol operations and content.
ネットワーク構成アクセス制御モデル(NACM)[RFC8341]は、特定のNETCONFまたはRESTCONFユーザーのアクセスを、利用可能なすべてのNETCONFまたはRESTCONFプロトコル操作およびコンテンツの事前構成されたサブセットに制限する手段を提供します。
There are a number of data nodes defined in these YANG data models that are writable/creatable/deletable (i.e., config true, which is the default). These data nodes may be considered sensitive or vulnerable in some network environments. Write operations (e.g., edit-config) to these data nodes without proper protection can have a negative effect on network operations. These are the subtrees and data nodes and their sensitivity/vulnerability:
これらのYANGデータモデルには、書き込み/作成/削除が可能なデータノードがいくつか定義されています(つまり、config trueで、これがデフォルトです)。これらのデータノードは、一部のネットワーク環境では機密または脆弱であると見なされる場合があります。適切な保護なしにこれらのデータノードに書き込み操作(edit-configなど)を行うと、ネットワーク操作に悪影響を与える可能性があります。これらは、サブツリーとデータノード、およびそれらの機密性/脆弱性です。
Interfaces of type microwaveRadioLinkTerminal:
タイプmicrowaveRadioLinkTerminalのインターフェース:
/if:interfaces/if:interface/mode,
/if:interfaces/if:interface/carrier-terminations,
/if:interfaces/if:interface/rlp-groups,
/if:interfaces/if:interface/xpic-pairs,
/if:interfaces/if:interface/mimo-groups, and
/if:interfaces/if:interface/tdm-connections:
These data nodes represent the configuration of the radio link terminal, and they need to match the configuration of the radio link terminal on the other side of the radio link. Unauthorized access to these data nodes could interrupt the ability to forward traffic.
これらのデータノードは、無線リンク端末の構成を表しており、無線リンクの反対側にある無線リンク端末の構成と一致する必要があります。これらのデータノードへの不正アクセスは、トラフィックを転送する機能を妨害する可能性があります。
Interfaces of type microwaveCarrierTermination:
タイプmicrowaveCarrierTerminationのインターフェース:
/if:interfaces/if:interface/carrier-id,
/if:interfaces/if:interface/tx-enabled,
/if:interfaces/if:interface/tx-frequency,
/if:interfaces/if:interface/rx-frequency,
/if:interfaces/if:interface/duplex-distance,
/if:interfaces/if:interface/channel-separation,
/if:interfaces/if:interface/rtpc/maximum-nominal-power,
/if:interfaces/if:interface/atpc/maximum-nominal-power,
/if:interfaces/if:interface/atpc/atpc-lower-threshold,
/if:interfaces/if:interface/atpc/atpc-upper-threshold,
/if:interfaces/if:interface/single/selected-cm,
/if:interfaces/if:interface/adaptive/selected-min-acm,
/if:interfaces/if:interface/adaptive/selected-max-acm,
/if:interfaces/if:interface/if-loop, and
/if:interfaces/if:interface/rf-loop:
These data nodes represent the configuration of the carrier termination, and they need to match the configuration of the carrier termination on the other side of the carrier. Unauthorized access to these data nodes could interrupt the ability to forward traffic.
これらのデータノードは、キャリア終端の構成を表し、キャリアの反対側のキャリア終端の構成と一致する必要があります。これらのデータノードへの不正アクセスは、トラフィックを転送する機能を妨害する可能性があります。
Radio link protection:
無線リンク保護:
/radio-link-protection-groups/protection-group:
/ radio-link-protection-groups / protection-group:
This data node represents the configuration of the protection of carrier terminations. Unauthorized access to this data node could interrupt the ability to forward traffic or remove the ability to perform a necessary protection switch.
このデータノードは、キャリア終端の保護の構成を表します。このデータノードへの不正アクセスは、トラフィックを転送する機能を妨害したり、必要な保護切り替えを実行する機能を削除したりする可能性があります。
XPIC:
XPIC:
/xpic-pairs:
/ xpic-pairs:
This data node represents the XPIC configuration of a pair of carriers. Unauthorized access to this data node could interrupt the ability to forward traffic.
このデータノードは、1組のキャリアのXPIC構成を表します。このデータノードへの不正アクセスは、トラフィックを転送する機能を妨害する可能性があります。
MIMO:
DESPITE:
/mimo-groups:
/にもかかわらずグループ:
This data node represents the MIMO configuration of multiple carriers. Unauthorized access to this data node could interrupt the ability to forward traffic.
このデータノードは、複数のキャリアのMIMO構成を表します。このデータノードへの不正アクセスは、トラフィックを転送する機能を妨害する可能性があります。
Some of the RPC operations in this YANG data model may be considered sensitive or vulnerable in some network environments. It is thus important to control access to these operations. These are the operations and their sensitivity/vulnerability: Radio link protection:
このYANGデータモデルの一部のRPC操作は、一部のネットワーク環境では機密または脆弱であると見なされる場合があります。したがって、これらの操作へのアクセスを制御することが重要です。これらは操作とその感度/脆弱性です:無線リンク保護:
/radio-link-protection-groups/protection-group/manual-switch-working,
/radio-link-protection-groups/protection-group/
manual-switch-protection,
/radio-link-protection-groups/protection-group/forced-switch,
/radio-link-protection-groups/protection-group/lockout-of-protection,
/radio-link-protection-groups/protection-group/freeze,
/radio-link-protection-groups/protection-group/exercise, and
/radio-link-protection-groups/protection-group/clear
These data nodes represent actions that might have an impact on the configuration of the protection of carrier terminations. Unauthorized access to these data nodes could interrupt the ability to forward traffic or remove the ability to perform a necessary protection switch.
これらのデータノードは、キャリア終端の保護の構成に影響を与える可能性があるアクションを表します。これらのデータノードへの不正アクセスは、トラフィックを転送する機能を妨害したり、必要な保護切り替えを実行する機能を削除したりする可能性があります。
The security considerations of [RFC8343] also apply to this document.
[RFC8343]のセキュリティに関する考慮事項は、このドキュメントにも適用されます。
IANA has assigned new URIs from the "IETF XML Registry" [RFC3688] as follows:
IANAは、「IETF XMLレジストリ」[RFC3688]から次のように新しいURIを割り当てました。
URI: urn:ietf:params:xml:ns:yang:ietf-microwave-radio-link Registrant Contact: The IESG XML: N/A; the requested URI is an XML namespace.
URI:urn:ietf:params:xml:ns:yang:ietf-microwave-radio-link登録者の連絡先:IESG XML:N / A;要求されたURIはXML名前空間です。
URI: urn:ietf:params:xml:ns:yang:ietf-interface-protection Registrant Contact: The IESG XML: N/A; the requested URI is an XML namespace.
URI:urn:ietf:params:xml:ns:yang:ietf-interface-protection登録者の連絡先:IESG XML:N / A;要求されたURIはXML名前空間です。
URI: urn:ietf:params:xml:ns:yang:ietf-microwave-types Registrant Contact: The IESG XML: N/A; the requested URI is an XML namespace.
URI:urn:ietf:params:xml:ns:yang:ietf-microwave-types登録者の連絡先:IESG XML:N / A;要求されたURIはXML名前空間です。
IANA has recorded YANG module names in the "YANG Module Names" registry [RFC6020] as follows:
IANAは、YANGモジュール名を「YANG Module Names」レジストリ[RFC6020]に次のように記録しています。
Name: ietf-microwave-radio-link
Maintained by IANA?: N
Namespace: urn:ietf:params:xml:ns:yang:ietf-microwave-radio-link
Prefix: mrl
Reference: RFC 8561
Name: ietf-interface-protection
Maintained by IANA?: N
Namespace: urn:ietf:params:xml:ns:yang:ietf-interface-protection
Prefix: ifprot
Reference: RFC 8561
Name: ietf-microwave-types
Maintained by IANA?: N
Namespace: urn:ietf:params:xml:ns:yang:ietf-microwave-types
Prefix: mw-types
Reference: RFC 8561
IANA has registered the following ifTypes in "ifType definitions" under [IANA-SMI]:
IANAは、[IANA-SMI]の「ifType定義」に次のifTypeを登録しています。
Decimal Name Description
------- ------------ -------------------------------
295 microwaveCarrierTermination air interface of a single
microwave carrier
296 microwaveRadioLinkTerminal radio link interface for one or several aggregated microwave carriers
1つまたはいくつかの集約されたマイクロ波キャリア用の296 microwaveRadioLinkTerminal無線リンクインターフェイス
[IANA-SMI] IANA, "Structure of Management Information (SMI) Numbers (MIB Module Registrations)", <https://www.iana.org/assignments/smi-numbers>.
[IANA-SMI] IANA、「Structure of Management Information(SMI)Numbers(MIB Module Registrations)」、<https://www.iana.org/assignments/smi-numbers>。
[RFC3688] Mealling, M., "The IETF XML Registry", BCP 81, RFC 3688, DOI 10.17487/RFC3688, January 2004, <https://www.rfc-editor.org/info/rfc3688>.
[RFC3688] Mealling、M。、「The IETF XML Registry」、BCP 81、RFC 3688、DOI 10.17487 / RFC3688、2004年1月、<https://www.rfc-editor.org/info/rfc3688>。
[RFC6020] Bjorklund, M., Ed., "YANG - A Data Modeling Language for the Network Configuration Protocol (NETCONF)", RFC 6020, DOI 10.17487/RFC6020, October 2010, <https://www.rfc-editor.org/info/rfc6020>.
[RFC6020] Bjorklund、M。、編、「YANG-ネットワーク構成プロトコル(NETCONF)のデータモデリング言語」、RFC 6020、DOI 10.17487 / RFC6020、2010年10月、<https://www.rfc-editor。 org / info / rfc6020>。
[RFC6241] Enns, R., Ed., Bjorklund, M., Ed., Schoenwaelder, J., Ed., and A. Bierman, Ed., "Network Configuration Protocol (NETCONF)", RFC 6241, DOI 10.17487/RFC6241, June 2011, <https://www.rfc-editor.org/info/rfc6241>.
[RFC6241] Enns、R。、編、Bjorklund、M。、編、Schoenwaelder、J。、編、およびA. Bierman、編、「Network Configuration Protocol(NETCONF)」、RFC 6241、DOI 10.17487 / RFC6241、2011年6月、<https://www.rfc-editor.org/info/rfc6241>。
[RFC6242] Wasserman, M., "Using the NETCONF Protocol over Secure Shell (SSH)", RFC 6242, DOI 10.17487/RFC6242, June 2011, <https://www.rfc-editor.org/info/rfc6242>.
[RFC6242] Wasserman、M。、「Using the NETCONF Protocol over Secure Shell(SSH)」、RFC 6242、DOI 10.17487 / RFC6242、2011年6月、<https://www.rfc-editor.org/info/rfc6242>。
[RFC6991] Schoenwaelder, J., Ed., "Common YANG Data Types", RFC 6991, DOI 10.17487/RFC6991, July 2013, <https://www.rfc-editor.org/info/rfc6991>.
[RFC6991] Schoenwaelder、J。、編、「Common YANG Data Types」、RFC 6991、DOI 10.17487 / RFC6991、2013年7月、<https://www.rfc-editor.org/info/rfc6991>。
[RFC7224] Bjorklund, M., "IANA Interface Type YANG Module", RFC 7224, DOI 10.17487/RFC7224, May 2014, <https://www.rfc-editor.org/info/rfc7224>.
[RFC7224] Bjorklund、M。、「IANA Interface Type YANG Module」、RFC 7224、DOI 10.17487 / RFC7224、2014年5月、<https://www.rfc-editor.org/info/rfc7224>。
[RFC8040] Bierman, A., Bjorklund, M., and K. Watsen, "RESTCONF Protocol", RFC 8040, DOI 10.17487/RFC8040, January 2017, <https://www.rfc-editor.org/info/rfc8040>.
[RFC8040] Bierman、A.、Bjorklund、M。、およびK. Watsen、「RESTCONFプロトコル」、RFC 8040、DOI 10.17487 / RFC8040、2017年1月、<https://www.rfc-editor.org/info/rfc8040 >。
[RFC8341] Bierman, A. and M. Bjorklund, "Network Configuration Access Control Model", STD 91, RFC 8341, DOI 10.17487/RFC8341, March 2018, <https://www.rfc-editor.org/info/rfc8341>.
[RFC8341] Bierman、A。およびM. Bjorklund、「Network Configuration Access Control Model」、STD 91、RFC 8341、DOI 10.17487 / RFC8341、2018年3月、<https://www.rfc-editor.org/info/rfc8341 >。
[RFC8343] Bjorklund, M., "A YANG Data Model for Interface Management", RFC 8343, DOI 10.17487/RFC8343, March 2018, <https://www.rfc-editor.org/info/rfc8343>.
[RFC8343] Bjorklund、M。、「A YANG Data Model for Interface Management」、RFC 8343、DOI 10.17487 / RFC8343、March 2018、<https://www.rfc-editor.org/info/rfc8343>。
[RFC8446] Rescorla, E., "The Transport Layer Security (TLS) Protocol Version 1.3", RFC 8446, DOI 10.17487/RFC8446, August 2018, <https://www.rfc-editor.org/info/rfc8446>.
[RFC8446] Rescorla、E。、「The Transport Layer Security(TLS)Protocol Version 1.3」、RFC 8446、DOI 10.17487 / RFC8446、2018年8月、<https://www.rfc-editor.org/info/rfc8446>。
[EN301129] ETSI, "Transmission and Multiplexing (TM); Digital Radio Relay Systems (DRRS); Synchronous Digital Hierarchy (SDH); System performance monitoring parameters of SDH DRRS", EN 301 129 V1.1.2, May 1999.
[EN301129] ETSI、「Transmission and Multiplexing(TM); Digital Radio Relay Systems(DRRS); Synchronous Digital Hierarchy(SDH); System Performance Monitoring Parameters of SDH DRRS」、EN 301 129 V1.1.2、1999年5月。
[EN302217-1] ETSI, "Fixed Radio Systems; Characteristics and requirements for point-to-point equipment and antennas; Part 1: Overview, common characteristics and system-dependent requirements", EN 302 217-1 V3.1.0, May 2017.
[EN302217-1] ETSI、「固定無線システム、ポイントツーポイント機器とアンテナの特性と要件、パート1:概要、一般的な特性とシステム依存の要件」、EN 302 217-1 V3.1.0、2017年5月。
[EN302217-2] ETSI, "Fixed Radio Systems; Characteristics and requirements for point to-point equipment and antennas; Part 2: Digital systems operating in frequency bands from 1 GHz to 86 GHz; Harmonised Standard covering the essential requirements of article 3.2 of Directive 2014/53/EU", EN 302 217-2 V3.1.1, May 2017.
[EN302217-2] ETSI、「固定無線システム、ポイントツーポイント機器とアンテナの特性と要件、パート2:1 GHz〜86 GHzの周波数帯域で動作するデジタルシステム。第3.2条の必須要件をカバーする調和規格指令2014/53 / EU」、EN 302 217-2 V3.1.1、2017年5月。
[G.808.1] ITU-T, "SERIES G: TRANSMISSION SYSTEMS AND MEDIA, DIGITAL SYSTEMS AND NETWORKS; Digital networks ; General aspects Generic protection switching ; Linear trail and subnetwork protection", ITU-T Recommendation G.808.1, May 2014.
[G.808.1] ITU-T、「シリーズG:伝送システムとメディア、デジタルシステムとネットワーク;デジタルネットワーク;一般的な側面一般的な保護切り替え;線形の軌跡とサブネットワークの保護」、ITU-T勧告G.808.1、2014年5月。
[G.826] ITU-T, "SERIES G: TRANSMISSION SYSTEMS AND MEDIA, DIGITAL SYSTEMS AND NETWORKS; Digital networks - Quality and availability targets; End-to-end error performance parameters and objectives for international, constant bit-rate digital paths and connections", ITU-T Recommendation G.826, December 2002.
[G.826] ITU-T、「シリーズG:伝送システムとメディア、デジタルシステムとネットワーク、デジタルネットワーク-品質と可用性の目標、エンドツーエンドのエラーパフォーマンスパラメータと国際的な一定のビットレートのデジタルパスの目標および接続」、ITU-T勧告G.826、2002年12月。
[MICROWAVE-RADIO-LINK] Ahlberg, J., Carlson, J., Lund, H., Olausson, T., Ye, M., and M. Vaupotic, "Microwave Radio Link YANG Data Models", Work in Progress, draft-ahlberg-ccamp-microwave-radio-link-01, May 2016.
[MICROWAVE-RADIO-LINK] Ahlberg、J.、Carlson、J.、Lund、H.、Olausson、T.、Ye、M。、およびM. Vaupotic、「Microwave Radio Link YANG Data Models」、Work in Progress、 draft-ahlberg-ccamp-microwave-radio-link-01、2016年5月。
[ONF-model] ONF, "Microwave Information Model", TR-532, version 1.0, December 2016, <https://www.opennetworking.org/images/stories/downloads/ sdn-resources/technical-reports/ TR-532-Microwave-Information-Model-V1.pdf>.
[ONFモデル] ONF、「マイクロ波情報モデル」、TR-532、バージョン1.0、2016年12月、<https://www.opennetworking.org/images/stories/downloads/ sdn-resources / technical-reports / TR- 532-Microwave-Information-Model-V1.pdf>。
[RFC8340] Bjorklund, M. and L. Berger, Ed., "YANG Tree Diagrams", BCP 215, RFC 8340, DOI 10.17487/RFC8340, March 2018, <https://www.rfc-editor.org/info/rfc8340>.
[RFC8340] Bjorklund、M。およびL. Berger、編、「YANGツリー図」、BCP 215、RFC 8340、DOI 10.17487 / RFC8340、2018年3月、<https://www.rfc-editor.org/info/ rfc8340>。
[RFC8342] Bjorklund, M., Schoenwaelder, J., Shafer, P., Watsen, K., and R. Wilton, "Network Management Datastore Architecture (NMDA)", RFC 8342, DOI 10.17487/RFC8342, March 2018, <https://www.rfc-editor.org/info/rfc8342>.
[RFC8342] Bjorklund、M.、Schoenwaelder、J.、Shafer、P.、Watsen、K。、およびR. Wilton、「Network Management Datastore Architecture(NMDA)」、RFC 8342、DOI 10.17487 / RFC8342、2018年3月、< https://www.rfc-editor.org/info/rfc8342>。
[RFC8432] Ahlberg, J., Ed., Ye, M., Ed., Li, X., Contreras, LM., and CJ. Bernardos, "A Framework for Management and Control of Microwave and Millimeter Wave Interface Parameters", RFC 8432, DOI 10.17487/RFC8432, October 2018, <https://www.rfc-editor.org/info/rfc8432>.
[RFC8432] Ahlberg、J.、Ed。、Ye、M.、Ed。、Li、X.、Contreras、LM。、およびCJ。 Bernardos、「A Framework for Management and Control of Microwave and Millimeter Wave Interface Parameters」、RFC 8432、DOI 10.17487 / RFC8432、2018年10月、<https://www.rfc-editor.org/info/rfc8432>。
[TR102311] ETSI, "Fixed Radio Systems; Point-to-point equipment; Specific aspects of the spatial frequency reuse method", ETSI TR 102 311 V1.2.1, November 2015.
[TR102311] ETSI、「固定無線システム、ポイントツーポイント機器、空間周波数再利用法の特定の側面」、ETSI TR 102 311 V1.2.1、2015年11月。
Appendix A. Example: 1+0 and 2+0 Configuration Instances
This section gives simple examples of 1+0 and 2+0 instances using the YANG data model defined in this document. The examples are not intended as a complete module for 1+0 and 2+0 configuration.
このセクションでは、このドキュメントで定義されているYANGデータモデルを使用した1 + 0および2 + 0インスタンスの簡単な例を示します。この例は、1 + 0および2 + 0構成用の完全なモジュールを意図したものではありません。
/--------- Radio Link ---------\
Near End Far End
+---------------+ +---------------+
| Radio Link | | Radio Link |
| Terminal A | | Terminal B |
| | | |
| | | |
| +-----------+ | | +-----------+ |
| | | | Carrier A | | | |
| | Carrier | |<--------->| | Carrier | |
| |Termination| | | |Termination| |
| | 1 | | | | 1 | |
| +-----------+ | | +-----------+ |
| | | |
| | | |
+---------------+ +---------------+
\--- Microwave Node ---/ \--- Microwave Node ---/
Figure 1: 1+0 Example
図1:1 + 0の例
Figure 1 shows a 1+0 example. The following instance shows the 1+0 configuration of the Near End node.
図1は、1 + 0の例を示しています。次の例は、近端ノードの1 + 0構成を示しています。
"interface": [
{
"name": "RLT-A",
"description": "Radio Link Terminal A",
"type": "microwaveRadioLinkTerminal",
"id": "RLT-A",
"mode": "one-plus-zero",
"carrier-terminations": [
"RLT-A:CT-1"
],
"tdm-connections": [
"tdm-type": "E1",
"tdm-connections": "4"
]
},
{
"name": "RLT-A:CT-1",
"description": "Carrier Termination 1",
"type": "microwaveCarrierTermination",
"carrier-id": "A",
"tx-enabled": true,
"tx-frequency": 10728000,
"duplex-distance": 644000,
"channel-separation": 28000,
"polarization": not-specified,
"rtpc": {
"maximum-nominal-power": 20
},
"single": {
"selected-cm": "qam-512"
}
}
]
Figure 2 shows a 2+0 example.
図2は、2 + 0の例を示しています。
/--------- Radio Link ---------\
Near End Far End
+---------------+ +---------------+
| Radio Link | | Radio Link |
| Terminal A | | Terminal B |
| | | |
| | | |
| +-----------+ | | +-----------+ |
| | | | Carrier A | | | |
| | Carrier | |<--------->| | Carrier | |
| |Termination| | | |Termination| |
| | 1 | | | | 1 | |
| +-----------+ | | +-----------+ |
| | | |
| +-----------+ | | +-----------+ |
| | | | Carrier B | | | |
| | Carrier | |<--------->| | Carrier | |
| |Termination| | | |Termination| |
| | 2 | | | | 2 | |
| +-----------+ | | +-----------+ |
| | | |
+---------------+ +---------------+
\--- Microwave Node ---/ \--- Microwave Node ---/
Figure 2: 2+0 Example
図2:2 + 0の例
The following instance shows the 2+0 configuration of the Near End node.
次のインスタンスは、近端ノードの2 + 0構成を示しています。
"interface": [
{
"name": "RLT-A",
"description": "Radio Link Terminal A",
"type": "microwaveRadioLinkTerminal",
"id": "RLT-A",
"mode": "two-plus-zero",
"carrier-terminations": [
"RLT-A:CT-1",
"RLT-A:CT-2"
],
"tdm-connections": [
"tdm-type": "E1",
"tdm-connections": "4"
]
},
{
"name": "RLT-A:CT-1",
"description": "Carrier Termination 1",
"type": "microwaveCarrierTermination",
"carrier-id": "A",
"tx-enabled": true,
"tx-frequency": 10728000,
"duplex-distance": 644000,
"channel-separation": 28000,
"polarization": not-specified,
"rtpc": {
"maximum-nominal-power": 20
},
"single": {
"selected-cm": "qam-512"
}
},
{
"name": "RLT-A:CT-2",
"description": "Carrier Termination 2",
"type": "microwaveCarrierTermination",
"carrier-id": "B",
"tx-enabled": true,
"tx-oper-status": on,
"tx-frequency": 10618000,
"duplex-distance": 644000,
"channel-separation": 28000,
"polarization": not-specified,
"rtpc": {
"maximum-nominal-power": 20
},
"single": {
"selected-cm": "qam-512"
}
}
]
The following instance shows the XPIC configuration of the Near End node.
次のインスタンスは、近端ノードのXPIC構成を示しています。
"interface": [
{
"name": "RLT-A",
"description": "Radio Link Terminal A",
"type": "microwaveRadioLinkTerminal",
"id": "RLT-A",
"mode": "two-plus-zero",
"carrier-terminations": [
"RLT-A:CT-1",
"RLT-A:CT-2"
],
"xpic-pairs": [
"RLT-A:CT-1",
"RLT-A:CT-2"
],
"tdm-connections": [
"tdm-type": "E1",
"tdm-connections": "4"
]
},
{
"name": "RLT-A:CT-1",
"description": "Carrier Termination 1",
"type": "microwaveCarrierTermination",
"carrier-id": "A",
"tx-enabled": true,
"tx-frequency": 10728000,
"duplex-distance": 644000,
"channel-separation": 28000,
"polarization": not-specified,
"rtpc": {
"maximum-nominal-power": 20
},
"single": {
"selected-cm": "qam-512"
}
},
{
"name": "RLT-A:CT-2",
"description": "Carrier Termination 2",
"type": "microwaveCarrierTermination",
"carrier-id": "B",
"tx-enabled": true,
"tx-oper-status": on,
"tx-frequency": 10618000,
"duplex-distance": 644000,
"channel-separation": 28000,
"polarization": not-specified,
"rtpc": {
"maximum-nominal-power": 20
},
"single": {
"selected-cm": "qam-512"
}
}
]
Contributors
貢献者
Koji Kawada NEC Corporation 1753, Shimonumabe Nakahara-ku Kawasaki, Kanagawa 211-8666 Japan
こじ かわだ ねC こrぽらちおん 1753、 しもぬまべ なかはらーく かわさき、 かながわ 211ー8666 じゃぱん
Email: k-kawada@ah.jp.nec.com
Carlos J. Bernardos Universidad Carlos III de Madrid Av. Universidad, 30 Leganes, Madrid 28911 Spain
カルロスJ.ベルナルドスカルロスIIIマドリッド大学Av。Universidad、30 Leganes、Madrid 28911 Spain
Email: cjbc@it.uc3m.es
Authors' Addresses
著者のアドレス
Jonas Ahlberg Ericsson AB Lindholmspiren 11 Goteborg 417 56 Sweden
Jonas Ahlberg Ericsson AB Lindholmspiren 11ヨーテボリ417 56スウェーデン
Email: jonas.ahlberg@ericsson.com
Min Ye Huawei Technologies No.1899, Xiyuan Avenue Chengdu 611731 China
min Y eh UAはテクノロジーno.1899、ξ元avenue Chengは611731中国を読む
Email: amy.yemin@huawei.com
Xi Li NEC Laboratories Europe Kurfursten-Anlage 36 Heidelberg 69115 Germany
Xi Li NEC Laboratories Europe Kurfursten-Anlage 36 Heidelberg 69115 Germany
Email: Xi.Li@neclab.eu
Daniela Spreafico Nokia - IT Via Energy Park, 14 Vimercate (MI) 20871 Italy
Daniela Spreafico Nokia - IT Via Energy Park, 14 Vimercate (MI) 20871 Italy
Email: daniela.spreafico@nokia.com
Marko Vaupotic Aviat Networks Motnica 9 Trzin-Ljubljana 1236 Slovenia
Marko Vaupotic Aviat Networks Motnica 9 Trzin-Ljubljana 1236スロベニア
Email: Marko.Vaupotic@Aviatnet.com