表紙:光ファイバーセンサーの世界市場:予測と分析 (2023~2033年)
市場調査レポート
商品コード
1485964

光ファイバーセンサーの世界市場:予測と分析 (2023~2033年)

Fiber Optic Sensors Global Market Forecast & Analysis 2023-2033

出版日: | 発行: ElectroniCast | ページ情報: 英文 719 Page PDF plus Excel File | 納期: 即納可能 即納可能とは

価格
価格表記: USDを日本円(税抜)に換算
本日の銀行送金レート: 1USD=156.87円
光ファイバーセンサーの世界市場:予測と分析 (2023~2033年)
出版日: 2024年05月29日
発行: ElectroniCast
ページ情報: 英文 719 Page PDF plus Excel File
納期: 即納可能 即納可能とは
  • 全表示
  • 概要
  • 図表
  • 目次
概要

当レポートでは、世界の光ファイバーセンサー市場について分析し、世界全体の消費動向の推計値・予測値 (2023~2033年) や、セグメント別・地域別の詳細動向などを調査しております:

市場予測データは主に2つのセクションに分類して掲載しています:

  • ポイント型 (局所型) 光ファイバーセンサー:完全ユニット
  • 分散型 (連続・準連続) 光ファイバーセンサー:システムチャネルライン

分散型光ファイバーセンサー・システムリンク (ライン)

当レポートでは、システム内の分散型光ファイバーセンサーの機能は、複数のコンポーネント (光電子送受信機、コネクター、光ファイバー、ケーブル (ファイバージャケット)、その他の受動コンポーネント、および直接筐体;準連続システムには、センシングファイバーに埋め込まれたFBGセンサー素子も含まれる) を含む、個々のチャンネルリンク (またはライン) によってカウントされます (ソフトウェアは含まれません) 。

分散型光ファイバーシステム・チャネルラインの種類:

連続分散型センシング (システムで使用される光ファイバーライン) は、光ファイバーケーブルの全長にわたって連続的なリアルタイムの測定を提供します。連続分散型センシングは、製造されたセンサーに頼らず、光ファイバーを利用します。

準連続分散型センシング (システムで使用される光ファイバーライン) は、ファイバーブラッググレーティング (FBG) を利用します。FBGは、密な (間隔の近い) 検測ポイントが必要な検測要素として採用されており、FBGは様々な方法で多重化されています。

分散型光ファイバーセンサーシステムは通常、複数のチャネル・リンク (ファイバ・ライン) を持っています。

当レポートに示されている数値は、 (1つの) 個々の完成したチャネルを乗算して得られたものです。このチャネルには、1つの光ファイバライン (またはリンク) と、その1つのラインのための関連コンポーネント (光電子送受信機、コネクタ、光ファイバー、ケーブル (ファイバ・ジャケット)、その他の受動部品、および直近のエンクロージャが含まれ、グレーディング・ベースのシステムでは、センシング・エレメント (FBG) が個々のチャネルのコンポーネント・リストに含まれます。

したがって、数量と平均販売価格は、1つのシステム・チャネル・リンク (ラインまたはストリングとも呼ばれる) に対して表されます。そのため、顧客は数カ月から数年にわたり、必要に応じてチャネルラインを追加したり、古いラインを新しいラインに交換したりします。

競合企業

当レポートには、センサー技術の種類を分類した一覧表とともに、200社を超える光ファイバーセンサーのメーカー・関連企業の広範なリストも含まれています。また、調査対象企業の市場シェア予測 (2023年) も掲載されています。

市場予測データベース

Microsoft Excelスプレッドシート:光ファイバーセンサーの市場予測データを、セグメント別に区分して掲載しています:

  • 消費額 (単位:100万米ドル)
  • 消費量 (単位:1,000個)
  • 平均販売価格 (単位:米ドル/個)

Excelファイルの内容

  • 光ファイバーセンサーの企業/製品マトリックス
  • 市場予測データ表
  • 分散型光ファイバーセンサー市場の予測
    • 世界
    • 米国
    • 欧州、中東・アフリカ (EMEA)
    • アジア太平洋 (APAC)
  • ポイント型光ファイバーセンサーの市場予測
    • 世界
    • 米国
    • 欧州
    • APAC

目次

第1章 エグゼクティブサマリー:概要

第2章 ポイント型光ファイバーセンサー:測定変量別・用途別の市場予測

  • 概要
  • ポイント型光ファイバーセンサー市場の予測:ひずみ
  • ポイント型光ファイバーセンサー市場の予測:温度
  • ポイント型光ファイバーセンサー市場の予測:圧力
  • ポイント型光ファイバーセンサー市場の予測:化学・ガス・液体
  • ポイント型光ファイバーセンサー市場の予測:振動・音響・地震
  • ポイント型光ファイバーセンサー市場の予測:変位・加速度・近接
  • ポイント型光ファイバーセンサー市場の予測:電界・磁界

第3章 分散型光ファイバーセンサー・システム:チャネルライン別の市場予測

  • 概要
  • 分散型光ファイバーセンサーのチャネルライン:製造業/工場市場の予測
  • 分散型光ファイバーセンサーのチャネルライン:土木工学/建設の予測
  • 分散型光ファイバーセンサーのチャネルライン:軍事/航空宇宙/セキュリティの予測
  • 分散型光ファイバーセンサーのチャネルライン:石油化学/エネルギー/ユーティリティの予測
  • 分散型光ファイバーセンサーのチャネルライン:バイオメディカル/科学の予測

第4章 光ファイバーセンサー技術

  • 概要
  • 干渉型光ファイバーセンサー
  • 強度型光ファイバーセンサー
  • 偏光型光ファイバーセンサー
  • FBG (ファイバーブラッググレーティング) 式光ファイバーセンサー
  • ラマン散乱光ファイバーセンサー
  • 蛍光光ファイバーセンサー
  • ブリルアン散乱光ファイバーセンサー
  • ドップラー風速計
  • 分光法
  • 導波管光ファイバーセンサー
  • オプトロード

第5章 競合企業の市場シェア 、推定(2023年) と選定ベンダーの一覧

  • 概要
  • 光ファイバーセンサーおよび関連会社の一覧 (インターネットアドレス付き)
  • FOセンサーおよび関連会社の一覧と機械数量マトリックス (計216社)

第6章 ElectroniCastの調査手法

第7章 市場予測・分析データベースの概要/Excelファイルの説明

付録 Excelファイル (市場予測データ・図表)

図表

List of Tables

  • 1.1. Point Fiber Sensor Global Forecast, By Region (Value Basis, $Million)
  • 1.2. Point Fiber Sensor Global Forecast, By Application (Value $Million)
  • 1.3. Point Fiber Sensor Global Forecast, By Measurand Function Type (Value $Million)
  • 1.4. Distributed Fiber Sensor System Lines Global Forecast, (Regional Value Basis, $Million)
  • 1.5. Distributed Fiber Sensor System Lines Global Forecast, By Application (Value $Million)
  • 1.6. Distributed Fiber Sensor System Lines Global Forecast, Measurand Function ($Million)
  • 2.1.1. Point Fiber Optic Sensor Global Forecast, By Application ($Million)
  • 2.1.2. Point Fiber Optic Sensor Global Forecast, By Application (Quantity)
  • 2.1.3. Point Fiber Optic Sensor Global Forecast, By Application (Avg. Selling Price)
  • 2.1.4. Point Fiber Optic Sensor America Forecast, By Application ($Million)
  • 2.1.5. Point Fiber Optic Sensor America Forecast, By Application (Quantity)
  • 2.1.6. Point Fiber Optic Sensor America Forecast, By Application (Avg. Selling Price)
  • 2.1.7. Point Fiber Optic Sensor EMEA Forecast, By Application ($Million)
  • 2.1.8. Point Fiber Optic Sensor EMEA Forecast, By Application (Quantity)
  • 2.1.9. Point Fiber Optic Sensor EMEA Forecast, By Application (Avg. Selling Price)
  • 2.1.10. Point Fiber Optic Sensor APAC Forecast, By Application ($Million)
  • 2.1.11. Point Fiber Optic Sensor APAC Forecast, By Application (Quantity)
  • 2.1.12. Point Fiber Optic Sensor APAC Forecast, By Application (Avg. Selling Price)
  • 2.2.1. Point Fiber Optic Strain Sensor Global Forecast, By Application ($Million)
  • 2.2.2. Point Fiber Optic Strain Sensor Global Forecast, By Application (Quantity)
  • 2.2.3. Point Fiber Optic Strain Sensor Global Forecast, By Application (Avg. Selling Price)
  • 2.2.4. Point Fiber Optic Strain Sensor America Forecast, By Application ($Million)
  • 2.2.5. Point Fiber Optic Strain Sensor America Forecast, By Application (Quantity)
  • 2.2.6. Point Fiber Optic Strain Sensor America Forecast, By Application (Avg. Selling Price)
  • 2.2.7. Point Fiber Optic Strain Sensor EMEA Forecast, By Application ($Million)
  • 2.2.8. Point Fiber Optic Strain Sensor EMEA Forecast, By Application (Quantity)
  • 2.2.9. Point Fiber Optic Strain Sensor EMEA Forecast, By Application (Avg. Selling Price)
  • 2.2.10. Point Fiber Optic Strain Sensor APAC Forecast, By Application ($Million)
  • 2.2.11. Point Fiber Optic Strain Sensor APAC Forecast, By Application (Quantity)
  • 2.2.12. Point Fiber Optic Strain Sensor APAC Forecast, By Application (Avg. Selling Price/ASP)
  • 2.3.1. Point Fiber Optic Temperature Sensor Global Forecast, By Application ($Million)
  • 2.3.2. Point Fiber Optic Temperature Sensor Global Forecast, By Application (Quantity)
  • 2.3.3. Point Fiber Optic Temperature Sensor Global Forecast, By Application (ASP)
  • 2.3.4. Point Fiber Optic Temperature Sensor America Forecast, By Application ($Million)
  • 2.3.5. Point Fiber Optic Temperature Sensor America Forecast, By Application (Quantity)
  • 2.3.6. Point Fiber Optic Temperature Sensor America Forecast, By Application (ASP)
  • 2.3.7. Point Fiber Optic Temperature Sensor EMEA Forecast, By Application ($Million)
  • 2.3.8. Point Fiber Optic Temperature Sensor EMEA Forecast, By Application (Quantity)
  • 2.3.9. Point Fiber Optic Temperature Sensor EMEA Forecast, By Application (ASP)
  • 2.3.10. Point Fiber Optic Temperature Sensor APAC Forecast, By Application ($Million)
  • 2.3.11. Point Fiber Optic Temperature Sensor APAC Forecast, By Application (Quantity)
  • 2.3.12. Point Fiber Optic Temperature Sensor APAC Forecast, By Application (ASP)
  • 2.4.1. Point Fiber Optic Pressure Sensor Global Forecast, By Application ($Million)
  • 2.4.2. Point Fiber Optic Pressure Sensor Global Forecast, By Application (Quantity)
  • 2.4.3. Point Fiber Optic Pressure Sensor Global Forecast, By Application (ASP)
  • 2.4.4. Point Fiber Optic Pressure Sensor America Forecast, By Application ($Million)
  • 2.4.5. Point Fiber Optic Pressure Sensor America Forecast, By Application (Quantity)
  • 2.4.6. Point Fiber Optic Pressure Sensor America Forecast, By Application (ASP)
  • 2.4.7. Point Fiber Optic Pressure Sensor EMEA Forecast, By Application ($Million)
  • 2.4.8. Point Fiber Optic Pressure Sensor EMEA Forecast, By Application (Quantity)
  • 2.4.9. Point Fiber Optic Pressure Sensor EMEA Forecast, By Application (ASP)
  • 2.4.10. Point Fiber Optic Pressure Sensor APAC Forecast, By Application ($Million)
  • 2.4.11. Point Fiber Optic Pressure Sensor APAC Forecast, By Application (Quantity)
  • 2.4.12. Point Fiber Optic Pressure Sensor APAC Forecast, By Application (ASP)
  • 2.5.1. Point Fiber Optic Chemical, Gas, Liquid Sensor Global Forecast, Application ($Million)
  • 2.5.2. Point Fiber Optic Chemical, Gas, Liquid Sensor Global Forecast, Application (Quantity)
  • 2.5.3. Point Fiber Optic Chemical, Gas, Liquid Sensor Global Forecast, Application (ASP)
  • 2.5.4. Point Fiber Optic Chemical, Gas, Liquid Sensor America Forecast, Application ($Million)
  • 2.5.5. Point Fiber Optic Chemical, Gas, Liquid Sensor America Forecast, Application (Quantity)
  • 2.5.6. Point Fiber Optic Chemical, Gas, Liquid Sensor America Forecast, Application (ASP)
  • 2.5.7. Point Fiber Optic Chemical, Gas, Liquid Sensor EMEA Forecast, Application ($Million)
  • 2.5.8. Point Fiber Optic Chemical, Gas, Liquid Sensor EMEA Forecast, Application (Quantity)
  • 2.5.9. Point Fiber Optic Chemical, Gas, Liquid Sensor EMEA Forecast, Application (ASP)
  • 2.5.10. Point Fiber Optic Chemical, Gas, Liquid Sensor APAC Forecast, Application ($Million)
  • 2.5.11. Point Fiber Optic Chemical, Gas, Liquid Sensor APAC Forecast, Application (Quantity)
  • 2.5.12. Point Fiber Optic Chemical, Gas, Liquid Sensor APAC Forecast, Application (ASP)
  • 2.6.1. Point Fiber Optic Vibration, Acoustic, Seismic Sensor Global Forecast, By App ($Million)
  • 2.6.2. Point Fiber Optic Vibration, Acoustic, Seismic Sensor Global Forecast, By App (Quantity)
  • 2.6.3. Point Fiber Optic Vibration, Acoustic, Seismic Sensor Global Forecast, By App (ASP)
  • 2.6.4. Point Fiber Optic Vibration, Acoustic, Seismic Sensor America Forecast, App ($Million)
  • 2.6.5. Point Fiber Optic Vibration, Acoustic, Seismic Sensor America Forecast, App (Quantity)
  • 2.6.6. Point Fiber Optic Vibration, Acoustic, Seismic Sensor America Forecast, By App (ASP)
  • 2.6.7. Point Fiber Optic Vibration, Acoustic, Seismic Sensor EMEA Forecast, By App ($Million)
  • 2.6.8. Point Fiber Optic Vibration, Acoustic, Seismic Sensor EMEA Forecast, By App (Quantity)
  • 2.6.9. Point Fiber Optic Vibration, Acoustic, Seismic Sensor EMEA Forecast, By App (ASP)
  • 2.6.10. Point Fiber Optic Vibration, Acoustic, Seismic Sensor APAC Forecast, By App ($Million)
  • 2.6.11. Point Fiber Optic Vibration, Acoustic, Seismic Sensor APAC Forecast, By App (Quantity)
  • 2.6.12. Point Fiber Optic Vibration, Acoustic, Seismic Sensor APAC Forecast, By App (ASP)
  • 2.7.1. Point Fiber Optic Displacement, Acceleration Proximity Sensor Global, By App ($Million)
  • 2.7.2. Point Fiber Optic Displacement, Acceleration Proximity Sensor Global, By App (Quantity)
  • 2.7.3. Point Fiber Optic Displacement, Acceleration Proximity Sensor Global, By App (ASP)
  • 2.7.4. Point Fiber Optic Displacement, Acceleration Proximity Sensor America, App ($Million)
  • 2.7.5. Point Fiber Optic Displacement, Acceleration Proximity Sensor America App (Quantity)
  • 2.7.6. Point Fiber Optic Displacement, Acceleration Proximity Sensor America, By App (ASP)
  • 2.7.7. Point Fiber Optic Displacement, Acceleration Proximity Sensor EMEA, By App ($Million)
  • 2.7.8. Point Fiber Optic Displacement, Acceleration Proximity Sensor EMEA By App (Quantity)
  • 2.7.9. Point Fiber Optic Displacement, Acceleration Proximity Sensor EMEA, By App (ASP)
  • 2.7.10. Point Fiber Optic Displacement, Acceleration Proximity Sensor APAC By App ($Million)
  • 2.7.11. Point Fiber Optic Displacement, Acceleration Proximity Sensor APAC, By App (Quantity)
  • 2.7.12. Point Fiber Optic Displacement, Acceleration Proximity Sensor APAC, By App (ASP)
  • 2.8.1. Point Fiber Optic Electric & Magnetic Field Sensor Global, By Application ($Million)
  • 2.8.2. Point Fiber Optic Electric & Magnetic Field Sensor Global, By Application (Quantity)
  • 2.8.3. Point Fiber Optic Electric & Magnetic Field Sensor Global, By Application (ASP)
  • 2.8.4. Point Fiber Optic Electric & Magnetic Field Sensor America, By Application ($Million)
  • 2.8.5. Point Fiber Optic Electric & Magnetic Field Sensor America, By Application (Quantity)
  • 2.8.6. Point Fiber Optic Electric & Magnetic Field Sensor America, By Application (ASP)
  • 2.8.7. Point Fiber Optic Electric & Magnetic Field Sensor EMEA, By Application ($Million)
  • 2.8.8. Point Fiber Optic Electric & Magnetic Field Sensor EMEA, By Application (Quantity)
  • 2.8.9. Point Fiber Optic Electric & Magnetic Field Sensor EMEA, By Application (ASP)
  • 2.8.10. Point Fiber Optic Electric & Magnetic Field Sensor APAC, By Application ($Million)
  • 2.8.11. Point Fiber Optic Electric & Magnetic Field Sensor APAC, By Application (Quantity)
  • 2.8.12. Point Fiber Optic Electric & Magnetic Field Sensor APAC, By Application (ASP)
  • 3.1.1Distributed Fiber Sensor System Channel Lines Global Forecast, By Application ($Million)
  • 3.1.2Distributed Fiber Sensor System Channel Lines Global Forecast, By Application (QTY)
  • 3.1.3. Distributed FO Sensor System Lines - Global Forecast, By Measurand Function ($Million)
  • 3.1.4. Distributed FO Sensor System Lines - Global Forecast, By Measurand Function (QTY)
  • 3.1.5. Distributed Fiber Sensor System Channel Lines Global Forecast, By Region ($Million)
  • 3.2.1. Distributed FO Sensors-Manufacturing/Factory, By Technology, Global Forecast ($M)
  • 3.2.2. Distributed FO Sensors-Manufacturing/Factory, By Technology, Global Forecast (QTY)
  • 3.2.3. Distributed FO Sensors-Manufacturing/Factory, By Technology, Global Forecast (ASP)
  • 3.2.4. Distributed FO Sensors-Manufacturing/Factory, By Technology, America Forecast ($M)
  • 3.2.5. Distributed FO Sensors-Manufacturing/Factory, By Technology, America Forecast (QTY)
  • 3.2.6. Distributed FO Sensors-Manufacturing/Factory, By Technology, America Forecast (ASP)
  • 3.2.7. Distributed FO Sensors-Manufacturing/Factory, By Technology, EMEA Forecast ($M)
  • 3.2.8. Distributed FO Sensors-Manufacturing/Factory, By Technology, EMEA Forecast (QTY)
  • 3.2.9. Distributed FO Sensors-Manufacturing/Factory, By Technology, EMEA Forecast (ASP)
  • 3.2.10. Distributed FO Sensors-Manufacturing/Factory, By Technology, APAC Forecast ($M)
  • 3.2.11. Distributed FO Sensors-Manufacturing/Factory, By Technology, APAC Forecast (QTY)
  • 3.2.12. Distributed FO Sensors-Manufacturing/Factory, By Technology, APAC Forecast (ASP)
  • 3.3.1. Distributed FO Sensors-Engineering/Construction, By Technology, Global Forecast ($M)
  • 3.3.2. Distributed FO Sensors-Engineering/Construction, By Technology, Global Forecast (QTY)
  • 3.3.3. Distributed FO Sensors-Engineering/Construction, By Technology, Global Forecast (ASP)
  • 3.3.4. Distributed FO Sensors-Engineering/Construction, By Tech., America Forecast ($M)
  • 3.3.5. Distributed FO Sensors-Engineering/Construction, By Tech., America Forecast (QTY)
  • 3.3.6. Distributed FO Sensors-Engineering/Construction, By Tech., America Forecast (ASP)
  • 3.3.7. Distributed FO Sensors-Engineering/Construction, By Technology, EMEA Forecast ($M)
  • 3.3.8. Distributed FO Sensors-Engineering/Construction, By Technology, EMEA Forecast (QTY)
  • 3.3.9. Distributed FO Sensors-Engineering/Construction, By Technology, EMEA Forecast (ASP)
  • 3.3.10. Distributed FO Sensors-Engineering/Construction, By Technology, APAC Forecast ($M)
  • 3.3.11. Distributed FO Sensors-Engineering/Construction, By Technology, APAC Forecast (QTY)
  • 3.3.12. Distributed FO Sensors-Engineering/Construction, By Technology, APAC Forecast (ASP)
  • 3.4.1. Distributed FO Sensors-Military/Aerospace, Security, By Tech., Global Forecast ($M)
  • 3.4.2. Distributed FO Sensors-Military/Aerospace, Security, By Tech., Global Forecast (QTY)
  • 3.4.3. Distributed FO Sensors-Military/Aerospace, Security, By Tech., Global Forecast (ASP)
  • 3.4.4. Distributed FO Sensors-Military/Aerospace, Security, By Tech., America Forecast ($M)
  • 3.4.5. Distributed FO Sensors-Military/Aerospace, Security, By Tech., America Forecast (QTY)
  • 3.4.6. Distributed FO Sensors-Military/Aerospace, Security, By Tech., America Forecast (ASP)
  • 3.4.7. Distributed FO Sensors-Military/Aerospace, Security, By Tech., EMEA Forecast ($M)
  • 3.4.8. Distributed FO Sensors-Military/Aerospace, Security, By Tech., EMEA Forecast (QTY)
  • 3.4.9. Distributed FO Sensors-Military/Aerospace, Security, By Tech., EMEA Forecast (ASP)
  • 3.4.10. Distributed FO Sensors-Military/Aerospace, Security, By Tech., APAC Forecast ($M)
  • 3.4.11. Distributed FO Sensors-Military/Aerospace, Security, By Tech., APAC Forecast (QTY)
  • 3.4.12. Distributed FO Sensors-Military/Aerospace, Security, By Tech., APAC Forecast (ASP)
  • 3.5.1. Distributed FO Sensors-Petro/Energy/Natural Res/Utilities, By Tech., Global Forecast ($M)
  • 3.5.2. Distributed FO Sensors-Petro/Energy/Natural Res/Utilities, By Tech., Global Forecast (QTY)
  • 3.5.3. Distributed FO Sensors-Petro/Energy/Natural Res/Utilities, By Tech., Global Forecast (ASP)
  • 3.5.4. Distributed FO Sensors-Petro/Energy/Natural Res/Utilities, By Tech., America Forecast ($M)
  • 3.5.5. Distributed FO Sensors-Petro/Energy/Natural Res/Utilities, By Tech., America Forecast (QTY)
  • 3.5.6. Distributed FO Sensors-Petro/Energy/Natural Res/Utilities, By Tech., America Forecast (ASP)
  • 3.5.7. Distributed FO Sensors-Petro/Energy/Natural Res/Utilities, By Tech., EMEA Forecast ($M)
  • 3.5.8. Distributed FO Sensors-Petro/Energy/Natural Res/Utilities, By Tech., EMEA Forecast (QTY)
  • 3.5.9. Distributed FO Sensors-Petro/Energy/Natural Res/Utilities, By Tech., EMEA Forecast (ASP)
  • 3.5.10. Distributed FO Sensors-Petro/Energy/Natural Res/Utilities, By Tech., APAC Forecast ($M)
  • 3.5.11. Distributed FO Sensors-Petro/Energy/Natural Res/Utilities, By Tech., APAC Forecast (QTY)
  • 3.5.12. Distributed FO Sensors-Petro/Energy/Natural Res/Utilities, By Tech., APAC Forecast (ASP)
  • 3.6.1. Wearable Fiber Optic Technology Applications in Healthcare Monitoring
  • 3.6.2. Distributed FO Sensors in Bio-Medical/Science, By Tech., Global Forecast ($Million)
  • 3.6.3. Distributed FO Sensors in Bio-Medical/Science, By Tech., Global Forecast (QTY)
  • 3.6.4. Distributed FO Sensors in Bio-Medical/Science, By Tech., Global Forecast (ASP)
  • 3.6.5. Distributed FO Sensors in Bio-Medical/Science, By Tech., America Forecast ($M)
  • 3.6.6. Distributed FO Sensors in Bio-Medical/Science, By Tech., America Forecast (QTY)
  • 3.6.7. Distributed FO Sensors in Bio-Medical/Science, By Tech., America Forecast (ASP)
  • 3.6.8. Distributed FO Sensors in Bio-Medical/Science, By Tech., EMEA Forecast ($M)
  • 3.6.9. Distributed FO Sensors in Bio-Medical/Science, By Tech., EMEA Forecast (QTY)
  • 3.6.10. Distributed FO Sensors in Bio-Medical/Science, By Tech., EMEA Forecast (ASP)
  • 3.6.11. Distributed FO Sensors in Bio-Medical/Science, By Tech., APAC Forecast ($M)
  • 3.6.12. Distributed FO Sensors in Bio-Medical/Science, By Tech., APAC Forecast (QTY)
  • 3.6.13. Distributed FO Sensors in Bio-Medical/Science, By Tech., APAC Forecast (ASP)
  • 5.1.1. Market Share Estimates of Selected Leading Competitors - Fiber Optic Sensors (2023)
  • 5.3. Fiber Optic Sensor Company / Mechanical Quantities Matrix (200+ Companies/9-pages)

List of Figures

  • 1.1. Global Forecast, Fiber Optic Point Sensors ($Billion)
  • 1.2. Global Forecast, Fiber Optic Distributed Sensor System Channel Lines ($Billion)
  • 1.3. Global Forecast, Continuous vs. Quasi Distributed System Channel Lines ($Billion)
  • 1.4. Fiber Bragg Grating Technology Illustration
  • 1.5. Twisted Photonic Crystal Fiber
  • 1.6. Fiber Optic Temperature Sensors in Electric Vehicle Temperature Testing
  • 1.7. Schematic: Laser Ultrasonic Inspection System
  • 1.8. Detection Fiber Optic Point Sensor - Complete Units
  • 1.9. Fiber Optic Cable Installed Along Side of an Underground Pipeline
  • 1.10. Embedded fiber optic monitoring and communication system on pipe
  • 1.11. Underground Metro Tunnel
  • 1.12. Offshore Wind Farm with Turbines
  • 1.13. Application Examples of Fiber Optic Sensors in Spacecraft
  • 1.14. Roadway Fiber Optic Cable Monitoring System - Architecture
  • 1.15. Roadway Fiber Optic Cable Monitoring System - Application Examples
  • 1.16. Fiber Optic Sensors (FOS): Operating Principles, type of Measurands and Applications
  • 2.2.1. Expanded View of an FBG
  • 2.2.2. PM Photonic Crystal Fiber
  • 2.2.3. Single-mode Photonic Crystal Fiber
  • 2.2.4. Embedded Multi-Parameter Fiber Optic Sensor
  • 2.2.5. Fiber Optic Strain Sensor
  • 2.2.6. Strain Gage
  • 2.2.7. Strain Sensor Installed
  • 2.2.8. Smart Rod Used to Install FBG Sensors on Concrete Structures
  • 2.2.9. Assorted Single-Type Fiber Optic Strain Sensors
  • 2.2.10. Optical Displacement Sensor for Linear Variation of Position
  • 2.2.11. Optical Strain Gage; Qualified for Harsh Environments
  • 2.2.12. Optical Strain Gage; Qualified for Harsh Environments
  • 2.2.13. Non-Metallic Optical, Epoxy-Mounted Strain Gage
  • 2.3.1. Fabry-Perot Fiber-Optic Temperature-Sensor
  • 2.3.2. One Circuit Board Holding Four (4) Fiber Optic Temperature Sensing Channels
  • 2.3.3. Digital, Two-Color Infrared Thermometers, 700 to 3000-degree C (Fiber Optic Non-Contact)
  • 2.3.4. White Light Polarization Interferometry (WLPI) Technology
  • 2.3.5. Fiber Optic Cable with Temperature Sensor
  • 2.3.6. Examples: Material Used in Fiber Optic Point Sensor Packaging
  • 2.3.7. Flat Flame Burner
  • 2.3.8. Prototype Photonic Thermometer with Optical Fiber
  • 2.3.9. Assorted Temperature Fiber Optic Sensors
  • 2.3.10. FBG Temperature Sensor, Reinforced Plastic Cover, Stainless-Steel Sheath
  • 2.4.1. Experimental Pressure Measurement System
  • 2.4.2. Pre-Clinical Transducer with Fiber Coating
  • 2.4.3. Sealed-Gauge Fiber Optic Pressure Sensors
  • 2.4.4. Pressure Fiber Optic Sensor Used in Automotive/Vehicle
  • 2.4.5. Sensors: Single Helix and Double Helix
  • 2.4.6. FBG Pressure Sensor
  • 2.4.7. High Pressure/High Temperature Fiber Optic Pressure Gauge
  • 2.4.8. Piezometer Fiber Optic Pressure Sensor for Harsh Environments
  • 2.5.1. Ultra-Violet Optical Screening Tool system deployed with the CPT
  • 2.5.2. Fiber Optic Sensor would be implanted through the skin
  • 2.5.3. Optical Fibers Bundled with a Capillary Tube
  • 2.5.4. Glucose Sensor Embedded in an Aqueous Hydrogel
  • 2.5.5. Fiber Sensor (sensing range of the thin reflective type fiber)
  • 2.5.6. Fiber Optic Gas Sensor Applications
  • 2.6.1. Vibration optical fiber sensors classification
  • 2.6.2. Fabry-Perot Cavity - Optical Fiber Sensing Probe
  • 2.6.3. Fiber-Optic Acoustic Sensors (FOAS)
  • 2.6.4. Fiber optic partial discharge monitoring system
  • 2.7.1. Non-Contact Displacement-, Vibration- Fiber Optic Sensors
  • 2.7.2. Fiber-optic Vibration & Displacement Sensor
  • 2.7.3. Optical Extender for Fiber Optic Sensor
  • 2.7.4. Optical Displacement Measurement (OBDI)
  • 2.7.5. Fiber Optic Position Sensor
  • 2.7.6. Fabry Perot Accelerometer
  • 2.7.7. Fiber Optic Sensor-based Microsurgical Tool
  • 2.7.8. Sensor Head for Interferometer, which contains a beam splitter
  • 2.8.1. Mini-sensor measures magnetic activity in human brain
  • 2.8.2. FOCS - Fiber-Optic Current Sensor
  • 2.8.3. Microfiber Knot Resonator
  • 3.1.1. Distributed Sensor System Channel Lines, Global Forecast ($Billion)
  • 3.1.2. Distributed Sensor System Channel Lines, Continuous vs. Quasi-Continuous ($Billion)
  • 3.1.3. Distributed Sensor System Channel Lines, Global Forecast, by Region ($Billion)
  • 3.1.4. Distributed FO Sensor System; Utilizing Quasi-Distributed: FBG-Based Optical Fiber
  • 3.1.5. Fiber-Based Distributed Acoustic Sensor System (advanced optoelectronics interrogator)
  • 3.1.6. Direct Writing FBGs through Coating and Cladding
  • 3.1.7. FGBs - Integrate a Precise Lens Function
  • 3.1.8. Optical Fiber Distributed Temperature Sensor at Extreme Temperature
  • 3.1.9. Scattering Phenomena in Distributed Optical Sensors (DOFS)
  • 3.1.10. Sagnac Interferometer Distributed Vibration Sensor
  • 3.1.11. Monitoring Dams with DTS Environmental Monitoring
  • 3.1.12. Schematic Diagram of Typical Raman DTS System Based on OTDR Technique
  • 3.1.13. Distributed Temperature Sensing System Controller (DTS)
  • 3.1.14. Illustration Example - Distributed Temperature Sensing (DTS)
  • 3.1.15. Fiber Optic Monitoring (Temperature/Pressure/Acoustics)
  • 3.1.16. Wavelength of Transmission Dip of a Chiral Fiber versus Temperature
  • 3.1.17. Fiber Optic Sensor Installation in Aircraft
  • 3.1.18. Distributed Fiber Optic Sensing System
  • 3.1.19. Security Fence - Fiber Optic Sensor Installation (Attached onto Fence)
  • 3.1.20. Assorted Distributed Fiber Optic Sensor Systems
  • 3.1.21. Continuous Sensing Along the Entire Length of the Pipeline
  • 3.1.22. Testing Optical Fiber
  • 3.1.23. Fiber Optic Sensing System (4-Channels)
  • 3.1.24. Fiber Optic Sensing System (8-Channels)
  • 3.2.1. Distributed Temperature Sensing (DTS), using the Raman Scatter Principle
  • 3.3.1. Austria - Distributed Fiber Optic Sensing - Monitoring in Tunneling Applications
  • 3.3.2. Austria - Distributed Fiber Optic Sensing - Monitoring in Tunneling Applications
  • 3.3.3. Austria - Monitoring of Railway Tracks and Vehicles with Distributed Fiber Optic Sensing
  • 3.3.4. Line Type Heat Detection System (Distributed Fiber Optic Sensing)
  • 3.4.1. Fiber Optic Sensor Cable Installed in Security Fence
  • 3.4.2. Fiber Optic Sensor Cable Installed in Security Fence
  • 3.4.3. Fiber Optic Cable for a Fiber Sensing Fence
  • 3.4.4. Distributed Acoustic Sensing with Coherent Optical Time Domain Reflectometry (COTDR)
  • 3.4.5. US Customs and Border Protection (CBP)
  • 3.4.6. Distributed Acoustic Sensing (DAS) system
  • 3.4.7. The principle of a Fiber Bragg Grating (FBG)
  • 3.4.8. Fiber-Optic Acoustic Sensors for Submarine
  • 3.5.1. Monitoring of Utilities with Distributed Fiber Optic Sensing
  • 3.5.2. Distributed Fiber Optic Sensor System Component Example
  • 3.5.3. Illustration of Fiber Optic Sensors in Oil & Gas Applications
  • 3.5.4. Distributed Temperature Sensor System and Example
  • 3.5.5. Load Monitoring for Wind Turbines Fiber Bragg Grating (FBG) Sensor Lines Example
  • 3.5.6. Direct Fracture Monitoring Service, Single-Use Optical Fiber Sensor System
  • 3.5.7. Weighted Probe - 'Active' internal sensors and miniature data acquisition box
  • 3.5.8. Using Trans-Ocean Optical Fiber for Sensing
  • 3.5.9. Multi-Functional Distributed Fiber Sensors for Pipeline Monitoring and Methane
  • 3.6.1. Schematic/Real-Time Identical Weak FBG Interrogation/Resonance Frequency Mapping
  • 3.6.2. Fiber Optic cable: 900 meters Groundwater Monitoring
  • 3.6.3. Optical Fibers Embedded into Wearable Fabric for Medical Sensing Applications
  • 4.2.1. Schematic Diagram of an Integrated Optic Probe
  • 4.2.2. Fiber Optic Sensor for Humidity Monitoring
  • 4.2.3. Interferometric Principles: Utilizing Angled Optical Fiber
  • 4.2.4. Schematic Drawing: Fiber-optic Fabry-Perot Interferometers
  • 4.2.5. Schematic Drawing: Fiber-optic Fabry-Perot Interferometers
  • 4.2.6. All-Fiber Michelson interferometer
  • 4.2.7. Measurement of Micron-Scale Deflections
  • 4.2.8. Michelson Type-Interferometer with Improvements
  • 4.2.9. Traditional Fourier-Transform Spectrometer
  • 4.2.10. Electro-Optical Imaging Fourier-Transform Spectrometer
  • 4.2.11. Fiber-Optic Fabry-Perot Interferometric Gas Pressure Sensor Operation
  • 4.2.12. Temperature and RI Sensor
  • 4.2.13 All-silica RI-Temperature Sensor
  • 4.3.1. Schematic Illustration Structure of Step-index (SI) Multimode POF
  • 4.3.2. Sensor requirements in the Oil and Gas Industry
  • 4.4.1. Fusion Splicers Target Specialty Optical Fiber Splicing
  • 4.5.1. Structure of a Fiber Bragg Grating
  • 4.5.2. Fiber Bragg Gratings
  • 4.5.3. Fabry-Perot Sensor Fabricated by Micro-machining
  • 4.5.4. FBG Sensor (Smart FBG)
  • 4.5.5. Weldable FBG Strain Sensor
  • 4.5.6. Hydrostatic Pressure and Temperature Measurements FBG Sensor
  • 4.5.7. Flexible Optical Sensing
  • 4.5.8. Real-Time Train Wheel Condition Monitoring Scheme
  • 4.5.9. Fiber Bragg Grating (FBG) Sensors Used in Sailing
  • 4.5.10. FBG in a 2 m length of polyimide coated optical fiber
  • 4.5.11. FBG interrogation based on resonance frequency mapping
  • 4.5.12. Interferometrical setup for FBG writing
  • 4.5.13. Fiber Bragg Grating (FBG) Manufacturing Tool
  • 4.6.1. Hand-Held Raman Scanner
  • 4.6.2. Raman Distributed Temperature Sensor Fiber Layout in Tunnel
  • 4.7.1. Sensor System Layout
  • 4.7.2. Fluorescent Long-Line Fiber Optic Position Sensors
  • 4.7.3. Fluorescent Long-Line Fiber Optic Position Sensors with LED
  • 4.7.4. Integrated Micro Volume Fiber Optic Sensor
  • 4.8.1. Brillouin optical time-domain analysis (BOTDA) Schematic Drawing
  • 4.9.1. Laser Doppler Flowmetry
  • 4.9.2. Schematic Representation of Zeta Potential
  • 4.10.1. Schematic of a Laser-induced breakdown spectroscopy (LIBS) system
  • 4.11.1. Surface Plasmon Sensors(3-pages)
  • 4.11.2. Polariton fiber sensor configurations
  • 4.11.3. Side-polished Polariton fiber sensor
  • 4.11.4. Tapered fiber structure with uniform waist (2-Figures)
  • 4.11.5. Surface Plasmon Resonance Sensing Structure
  • 4.11.6. Hollow core sensing structure with Bragg grating (2 Figures)
  • 4.11.7. Planar SPP sensor with Bragg grating imprinted in waveguide layer (2 Figures)
  • 4.11.8. Planar SPP sensor with LPG imprinted into the waveguide layer (2 Figures)
  • 4.11.9. MZI branch with the Bragg grating
  • 4.11.10. Dependence between the refractive index
  • 4.11.11. A dual LPG-based SPR sensor
  • 4.11.12. Tilted grating assisted SPR sensor
  • 4.11.13. Changes in the Intensities
  • 4.11.14. PVDF Coated Teflon Fiber SPR Gas Sensor
  • 4.11.15. Hybrid Mode SPR Sensor
  • 4.11.16. Thin SPP Waveguide
  • 4.11.17. Gemini Fiber
  • 4.11.18. Specialty Optical Fibers with Holes for sensors, lasers and components
  • 4.11.19. Fiber Sensor: LPG and HiBi Fiber
  • 4.12.1. Principle of Wet Etching
  • 4.12.2. Optical Fiber on Probe Shank Using UV light-Curable Glue
  • 4.12.3. Silicon Probe and Non-Fiberoptic Waveguide
  • 4.12.4. Example: Use of an Optrode
  • 4.12.5. Designed and Manufactured Simplified Optrode Devices
  • 6.1. ElectroniCast Market Research & Forecasting Methodology

Addendum

Market Forecast Data Base - Excel Spreadsheets:

  • Market Forecast Data Table
  • Point Fiber Optic Sensors - Global
  • Point Fiber Optic Sensors - America
  • Point Fiber Optic Sensors - EMEA
  • Point Fiber Optic Sensors - APAC
  • Distributed Continuous and Quasi-Continuous Fiber Optic Sensor System Channel Lines
  • Global
  • America
  • Europe, Middle East, Africa (EMEA)
  • Asia Pacific (APAC)
  • Fiber Optic Sensor Company / Product Matrix
  • Company Tables for Text
  • Extra Table for Text

Sample list of the companies mentioned in the report:

  • ABB Power, Sweden (Asea Brown Boveri)
  • Acreo, Sweden (RISE - Research Inst. of Sweden)
  • Adelos, Inc./S&K (US Navy BLUEROSE patents)
  • Advanced Energy Industries Inc. (LumaSense; Luxtron)
  • Advanced Navigation
  • Aerodyne Research, Inc. (ARI)
  • AFL - Fujikura Ltd Japan (Verrillon -R)
  • Agilent Technologies
  • Agiltron -R (Photonwares)
  • AIMEN Centro Tecnologico
  • AKusense
  • Al Cielo Inertial Solutions (ACIS)
  • Alstom
  • Althen Sensors & Controls (Altheris - The Netherlands)
  • Alxenses Company Limited
  • Anritsu (light sources/devices for fiber sensors)
  • Applied Analytics, Inc
  • Applied Optoelectronics, Inc
  • AP Sensing GmbH
  • Arizona State University (NCE - SMART Innovations)
  • Armadillo SIA
  • Asahi Kasei Microdevices
  • Autonics Corporation
  • Avantes B.V.
  • Azbil Europe NV
  • Babcock & Wilcox
  • Balluff GmbH
  • Bandweaver
  • Banner Engineering Corporation
  • Baumer Electric AG
  • Biolitec group
  • Biometrics Ltd
  • Boston Scientific (GreenLight(TM))
  • Cardiogenesis (CryoLife)
  • Carlo Gavazzi Automation Company
  • Chiral Photonics
  • CiDRA
  • Coherent-Rofin-Sinar / Nufern / ii-vi
  • Colibrys Ltd. (Safran Colibrys SA)
  • Conax Technologies
  • Core Laboratories
  • Corning Inc. / 3M
  • CVI Laser Optics (IDEX Optical Technologies / IDEX)
  • Davidson Instruments
  • Delaware Department of Transportation (DelDOT)
  • Department of Electronic Science, University of Pune
  • Draper Laboratories
  • Echopoint Medical Ltd (University College London)
  • Eickmann Elektronik
  • Elbit Systems - ELSEC (Israel)
  • Element Materials Technology (acq. FOSTA Pte Ltd)
  • engionic Fiber Optics
  • Evanescent Optics Inc.
  • EXFO Inc.
  • Expro International Group Ltd.
  • EyeSense GmbH
  • Fabrisonic LLC
  • F&C Sensing Technology (Hunan) Co. Ltd
  • FBG Korea
  • FBGS
  • Femto Sensing International (Georgia, USA)
  • FFPI Industries, Inc.
  • Fibercore (Humanetics)
  • FiberHome Telecommunication Technologies Co., Ltd.
  • Fibernetics LLC
  • Fiber SenSys (OPTEX CO., LTD)
  • Fiberware GmbH
  • FIBOS (Canada)
  • FiSens GmbH
  • Flanders Center of Postharvest Technology
  • Fluke Process Instruments (Ircon, Raytek)
  • FOSTA Pte Ltd (Singapore)
  • Fraunhofer Heinrich Hertz Institute
  • Fuji Electric
  • Furukawa/OFS Fitel
  • Future Fibre Technologies (FFT) (Ava Group)
  • Gooch & Housego (acquired Gould Fiber Optics)
  • Gregg Drilling & Testing, Inc.
  • Halliburton / SensorTran / Smart Fibres Ltd. (U.K.)
  • Hamamatsu Corporation
  • HBM (Hottinger Bruel & Kjaer)
  • Hecho Technology (Nanjing Hecho Technology)
  • Hengtong Group Company, Ltd.
  • Heraeus Holding / Heraeus Quarzglas GmbH & Co. KG
  • Honeywell
  • Hong Kong Polytechnic University
  • Hoya Corporation
  • IDEC
  • Ibsen Photonics
  • ifm efector inc. (PA, USA)
  • imc Test & Measurement GmbH (Axiometrix Solutions)
  • Infrared Fiber Sensors
  • Innovative Environmental Scientific Pty Ltd. (IES)
  • Integrated Photonics Technology, Inc. (IPITEK)
  • Intelligent Fiber Optic Systems (IFOS)
  • Intelligent Optical Systems, Inc. (IOS)
  • Inversion Sensor Co. Ltd.
  • ION Geophysical
  • ITF Technologies (O-Net Group )
  • Jet Propulsion Laboratory (NASA)
  • Johnson Controls International plc (Tyco)
  • Keyence
  • Keystone Automation Incorporated
  • Lake Shore Cryotronics, Inc
  • LEONI
  • Leuze electronic GmbH + Co. KG
  • Lockheed Martin Corporation
  • LS Cable & System Ltd.
  • Lumentum Operations LLC (acquired NeoPhotonics)
  • Luna Innovations / Micron Optics / OptaSense-R / LIOS
  • Makai Ocean Engineering, Inc.
  • Marmota Engineering AG (Switzerland)
  • M.D. Micro Detectors SpA (Datalogic Group)
  • Measurand, Inc., Canada
  • Memsic Corporation
  • Micronor Sensors
  • Mitsubishi Precision Co., Ltd. (MPC)
  • MOCKWELL (Dongguan MOCKWELL)
  • Molex, LLC (Fiberguide)
  • MTI Instruments, Inc.
  • NASA
  • National Institute of Standards and Technology (NIST)
  • National Instruments Corporation (NI)
  • NBG Holding GmbH (Austria)
  • Neoptix, Incorporated
  • NewPion Photonics Technology CO., Ltd
  • Newport / New Focus (MKS Instruments)
  • Ningbo Sunny Optical Technology (Group) Company Limited
  • NITTO DENKO CORPORATION
  • NGK Insulator
  • NKT Photonics A/S
  • Northrup Grumman
  • Nova Ventures Group (Roctest/Sherborne/Others)
  • NVIDIA Corporation (acquired Mellanox)
  • Ocean Insight
  • O/E Land Incororated
  • Omega Engineering Inc. (Spectris plc)
  • OmniSens S.A.
  • Omron
  • Opsens
  • Optek Technology (TT Electronics)
  • OPTEX FA CO.,LTD. (OPTEX Group Ltd.)
  • Optics11
  • OptiEnz Sensors, LLC
  • Optocon (Weidmann Technologies)
  • Optolink Scientific LTD.
  • Optrand Inc.
  • Optromix, Inc.
  • Orbray Co., Ltd (Adamant Namiki Precision Jewel Co., Ltd)
  • Oxsensis Ltd.
  • OZ Optics
  • Panasonic / Ramco (Sunx)
  • Paroscientific, Inc.
  • Patria Netherlands Components B.V. (acquired NEDAERO)
  • Pepperl+Fuchs
  • PerkinElmer Inc.
  • Philtec
  • Photonics Laboratories, Incorporated
  • Physik Instrumente
  • PreSens Precision Sensing (Germany)
  • Prime Photonics, LC
  • Prisma Photonics, Ltd.
  • Profotech
  • Proterial, Ltd (previously - Hitachi Metals, Ltd.)
  • Proximion AB (Hexatronic Group)
  • Prysmian S.p.A.
  • QinetiQ Group PLC
  • Qingdao APT
  • Radboud University
  • Raysung Photonics
  • Reflectronics, Inc.
  • Rockwell Automation (Allen-Bradley)
  • RODIX, Inc.
  • ROGA-Instruments
  • Rugged Monitoring (Canada)
  • Sabeus Incorporated
  • Scaime (France)
  • Scantron Industrial Products Ltd.
  • Schlumberger Limited, SENSA (France)
  • SCHOTT Glass/Fiber Optics
  • SensoPart Industriesensorik GmbH
  • Sensor Line (Germany) / IRD
  • Sensornet Ltd.
  • Senstar Corporation (acquired Optellios)
  • Sensuron
  • Sentea
  • Sichuan Huiyuan Plastic Optical Fiber Co., Ltd.
  • Siemens AG
  • Silixa Ltd
  • Sintela (ONYX (TM))
  • SlingShot Assembly (Acquired BEI Electronics LLC)
  • SmarAct GmbH
  • Smartec SA (FISO Technologies Inc, Roctest Group)
  • Smartpipe Technologies
  • Soka University
  • Solifos AG, GmbH
  • Spectranetics-R (Acquired by Philips)
  • Sumita Optical Glass
  • Sumitomo Electric
  • Taihan Fiberoptics
  • Takenaka Sensor Group (TAKEX / PULNiX)
  • Technica Optical Components, LLC
  • Technobis tft-fos (The Netherlands)
  • Tektronix
  • Teledyne FLIR LLC
  • Telemecanique Sensors (OsiSense XU)
  • TeraXion
  • TGS-NOPEC Geophysical Company ASA (TGS)
  • Thorlabs, Inc.
  • TIPD, LLC (California, USA)
  • Trimedyne, Incorporated
  • Tri-Tronics Co., Inc.
  • Ultra Communications
  • University of Texas El Paso
  • U.S. Patent and Trademark Office
  • VIAVI Solutions Inc.
  • Virginia Polytechnic Institute and State University
  • VSB-Technical University of Ostrava
  • Weatherford International Ltd.
  • Well-SENSE (Aberdeen, Scotland)
  • Westinghouse
  • Williamson Corporation
  • Wuhan Raycus Fiber Laser Technologies Co., Ltd.
  • Xiamen Xi-BTR Electronic Technology Co., Ltd.
  • YOFC (Yangtze Optical Fibre and Cable)
  • Yokogawa Electric Corporation
  • Zhejiang University of Technology
  • Ziebel AS
目次

Announcing the ElectroniCast forecast of global market consumption of Fiber Optic Sensors. The 2023-2033 quantitative market review and forecast data, presented in this study report, are segmented into the following geographic regions, plus a Global summary:

  • The Americas (North America, Central and South America)
  • EMEA (Europe, Middle Eastern countries, plus Africa)
  • APAC (Asia Pacific)

The market forecast data is presented and segmented in two main sections:

  • Fiber Optic Point (Local) Sensor: Complete Unit
  • Distributed Fiber Optic Sensor (Continuous and Quasi-continuous): System Channel Line

Fiber Optic Point Sensor: Sensing/Measuring Quantity:

The Point Sensor Forecast further segmented by the following sensing/measuring quantity (measurand) types:

  • Mechanical Strain
  • Temperature
  • Pressure
  • Chemical, Gas, Liquid
  • Vibration, Acoustic, Seismic
  • Displacement, Acceleration, Proximity
  • Electric, Current and Magnetic Field - Fiber Optic Sensors

Fiber Optic Point Sensors: Applications

The market forecast of the Fiber Optic Point Sensors is segmented by the following end-user applications:

  • Manufacturing Process/Factory
  • Civil Engineering/Construction
  • Military/Aerospace/Security
  • Test & Measurement used in Telecommunication, CATV, Enterprise
  • Biomedical/Science
  • Petrochemical/Energy/Utilities/Natural Resources
  • Automotive/Vehicle

Distributed Fiber Optic Sensor System Links (Lines)

In this ElectroniCast study, the Distributed Fiber Optic Sensor function in systems is counted by individual channel link (or line), which include several components (optoelectronic transmitter/receiver, connectors, optical fiber, cable (fiber jacket), other passive components, and immediate enclosures; the quasi-continuous system also includes the FBG sensor elements, which are embedded into the sensing fiber (software is not included). Types of Distributed Fiber Optic System Channel Lines:

Continuous Distributed sensing (optical fiber line used in a system) provides continuous, real-time measurements along the entire length of a fiber optic cable; continuous distributed sensing does not rely upon manufactured sensors but utilizes the optical fiber.

Quasi-Continuous Distributed sensing (optical fiber line used in a system) utilizes Fiber Bragg Gratings (FBGs), which have been employed as sensing elements where dense (closely spaced) sensing points are required, and the FBGs are multiplexed with various methods.

Distributed Fiber Optic Sensor Systems typically have several channel links (fiber lines).

The values shown in this ElectroniCast study report are obtained by multiplying an (one) individual completed channel, which includes one fiber optic line (or link) and associated components for that one line (optoelectronic transmitter/receiver, connectors, optical fiber, cable (fiber jacket), other passive components, and immediate enclosures; and with Grading-Based systems, sensing elements (FBGs) are included in the list of components for each individual channel.

Therefore, the quantities (volume) and average selling prices are represented for the one system channel link (also known as a line or string). Not all systems are filled to channel capacity; therefore, customers add more channel lines or replace old lines with new lines as required over months or over years ("grow as you go").

Distributed Sensors Market Forecast Application and Technology Categories:

  • Manufacturing Process/Factory
    • Continuous - Interferometric
    • Continuous - Raman scattering (Raman effect)
    • Continuous - Brillouin Scattering
    • Quasi-Continuous (Grating-Based)
  • Civil Engineering/Construction (buildings, bridges, tunnels, etc.)
    • Continuous - Interferometric
    • Continuous - Raman scattering (Raman effect)
    • Continuous - Brillouin Scattering
    • Quasi-Continuous (Grating-Based)
  • Military/Aerospace/Security
    • Continuous - Interferometric
    • Continuous - Raman scattering (Raman effect)
    • Continuous - Brillouin Scattering
    • Quasi-Continuous (Grating-Based)
  • Petrochemical/Energy/Utilities/Natural Resources
    • Continuous - Interferometric
    • Continuous - Raman scattering (Raman effect)
    • Continuous - Brillouin Scattering
    • Quasi-Continuous (Grating-Based)
  • Biomedical/Science
    • Continuous - Interferometric
    • Continuous - Raman scattering (Raman effect)
    • Continuous - Brillouin Scattering
    • Quasi-Continuous (Grating-Based)

Distributed Sensors System Lines, by Sensing/Measuring Principal or Function

For the first time, in an ElectroniCast multiple-client report, the Distributed Sensor Forecast is further segmented by the following sensing/measuring quantity (mechanical measurand) types:

  • Mechanical Strain
  • Temperature
  • Pressure
  • Chemical, Gas, Liquid
  • Vibration, Acoustic, Seismic
  • Displacement, Acceleration, Proximity
  • Electric, Current and Magnetic Field - Fiber Optic Sensors

Technology Review

This study report provides a review of applicable technologies, including:

  • Interferometry
  • Intensity
  • Polarization
  • Fiber Bragg Grating (FBG)
  • Raman back-scattering
  • Fluorescence
  • Brillouin waves
  • Doppler Anemometry
  • Spectroscopy
  • Waveguides/ Specialty Optical Fiber
  • Optrode

Competition

Also included in this report from ElectroniCast is an extensive list of over 200-fiber optic sensor manufacturers and related companies, along with a matrix table classifying the types of sensors technologies. Market share estimates (2023) for the selected leading competitors are also provided.

Market Forecast Data Base

Microsoft Excel Spreadsheets: The market forecast data are presented for fiber optic sensors, segmented by the following functions:

  • Consumption Value (US$, million)
  • Quantity (number/units in Thousands)
  • Average Selling Prices (ASP $, each)

Excel File Contents:

  • Fiber Optic Sensor Company / Product Matrix
  • Market Forecast Data Table
  • Distributed Fiber Optic Sensor Market Forecast
    • Global
    • America
    • Europe, Middle East, Africa (EMEA)
    • Asia Pacific (APAC)
  • Point Fiber Optic Sensor Market Forecast
    • Global
    • America
    • EMEA
    • APAC

Table of Contents

1. Executive Summary - Overview

2. Point Fiber Optic Sensor Measurand and Application Market Forecast

  • 2.1. Overview
  • 2.2. Point Fiber Optics Sensors Market Forecast: Strain
  • 2.3. Point Fiber Optics Sensors Market Forecast: Temperature
  • 2.4. Point Fiber Optics Sensors Market Forecast: Pressure
  • 2.5. Point Fiber Optics Sensors Market Forecast: Chemical, Gas and Liquid
  • 2.6. Point Fiber Optics Sensors Market Forecast: Vibration, Acoustic and Seismic
  • 2.7. Point Fiber Optics Sensors Market Forecast: Displacement, Acceleration and Proximity
  • 2.8. Point Fiber Optics Sensors Market Forecast: Electric and Magnetic Field

3. Distributed Fiber Optic Sensor System Channel Lines Market Forecast

  • 3.1. Overview
  • 3.2. Distributed Fiber Optic Sensor Channel Lines: Manufacturing/Factory Market Forecast
  • 3.3. Distributed Fiber Optic Sensor Channel Lines: Civil Engineering/Construction Forecast
  • 3.4. Distributed Fiber Optic Sensor Channel Lines: Military/Aerospace/Security Forecast
  • 3.5. Distributed Fiber Optic Sensor Channel Lines: Petrochemical/Energy/Utilities Forecast
  • 3.6. Distributed Fiber Optic Sensor Channel Lines: Biomedical/Science Forecast

4. Fiber Optic Sensor Technology

  • 4.1. Overview
  • 4.2. Interferometric Fiber Optic Sensors
  • 4.3. Intensity Fiber Optic Sensors
  • 4.4. Polarization Fiber Optic Sensors
  • 4.5. Fiber Bragg Grating (FBG) Fiber Optic Sensors
  • 4.6. Raman Scattering Fiber Optic Sensors
  • 4.7. Fluorescence Fiber Optic Sensors
  • 4.8. Brillouin Scattering Fiber Optic Sensors
  • 4.9. Doppler Anemometry
  • 4.10. Spectroscopy
  • 4.11. Waveguides Fiber Optic Sensors
  • 4.12. Optrode

5. Competitive Market Share Estimates (Year 2023) and List of Selected Vendors

  • 5.1. Overview
  • 5.2. List of Fiber Optic Sensor and Related Companies; with Internet address
  • 5.3. List and Mechanical Quantities Matrix of FO Sensor & Related Companies (216 Total)

6. ElectroniCast Research Methodology

7. Market Forecast and Analysis Database Introduction/Explanation of Excel File

Addendum - Excel File (Market Forecast Data and Tables)