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自動車トルクベクタリングシステムの世界市場:2017-2021年

Global Automotive Torque Vectoring System Market 2017-2021

発行 TechNavio (Infiniti Research Ltd.) 商品コード 488057
出版日 ページ情報 英文 70 Pages
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自動車トルクベクタリングシステムの世界市場:2017-2021年 Global Automotive Torque Vectoring System Market 2017-2021
出版日: 2017年04月12日 ページ情報: 英文 70 Pages
概要

世界の自動車トルクベクタリングシステムの市場は2017年から2021年にかけて、31.27%のCAGR (年間複合成長率) で成長すると予測されています。

当レポートでは、世界の自動車トルクベクタリングシステムの市場を調査し、市場および製品の定義と概要、市場規模の推移と予測、技術・地域別の詳細分析、市場動向および市場成長への各種影響因子の分析、競合環境、主要ベンダーのプロファイルなどをまとめています。

第1章 エグゼクティブサマリー

第2章 調査範囲

第3章 市場調査手法

第4章 イントロダクション

第5章 市場環境

  • 市場概要
  • トルクベクタリング:製品ライフサイクルと進化
  • 市場規模・予測
  • ファイブフォース分析

第6章 市場分析:技術別

  • 市場概要
  • 市場規模・予測

第7章 市場分析:地域別

  • 市場概要
  • 市場規模・予測

第8章 意思決定の枠組み

第9章 市場成長推進因子と課題

  • 成長推進因子
  • 市場課題

第10章 市場動向

  • Ricardo:トルクベクタリングシステムにおけるMR流体の利用
  • EV ATV・AWDのためのエレクトリック電気的トルクベクタリングシステムの開発
  • 軽量・小型・フレキシブルトルクベクタリングシステムの出現
  • モジュール式トルクベクタリング:今後の発展が期待される

第11章 ベンダー環境

  • バリューチェーン分析
  • 他の有力ベンダー

第12章 主要ベンダーの分析

  • BorgWarner
  • JTEKT
  • 三菱
  • Ricardo
  • ZF

第13章 付録

図表

図表
  • Exhibit 01: Dynamics of a clutch pack in the torque vectoring differential mechanism
  • Exhibit 02: Torque vectoring differential for straight line driving
  • Exhibit 03: Torque vectoring differential in a cornering scenario
  • Exhibit 04: Sample differential positioning in an AWD vehicle
  • Exhibit 05: Cornering in an RWD vehicle
  • Exhibit 06: Cornering in an FWD vehicle
  • Exhibit 07: Segmentation criteria for the global torque vectoring system market
  • Exhibit 08: Product life cycle for different differential systems
  • Exhibit 09: Global automotive torque vectoring system market (millions of units)
  • Exhibit 10: Five forces analysis
  • Exhibit 11: Global automotive torque vectoring system market: Technological classification 2016-2021 (%)
  • Exhibit 12: Global automotive ATVS market (millions of units)
  • Exhibit 13: Global automotive PTVS market (millions of units)
  • Exhibit 14: Global automotive torque vectoring system market by geography (% share)
  • Exhibit 15: Global automotive torque vectoring system market by geography (millions of units)
  • Exhibit 16: Automotive torque vectoring system market in APAC (millions of units)
  • Exhibit 17: Torque vectoring OEM-supplier matrix for Japan
  • Exhibit 18: Legend of OEMs
  • Exhibit 19: Torque vectoring OEM-supplier matrix for China
  • Exhibit 20: Legend of OEMs
  • Exhibit 21: Torque vectoring OEM-supplier matrix for India
  • Exhibit 22: Vehicles with torque vectoring/intelligent AWD technologies in APAC
  • Exhibit 23: SUV market in APAC 2016-2021 (millions of units)
  • Exhibit 24: Global automotive torque vectoring system market in the Americas (millions of units)
  • Exhibit 25: Torque vectoring OEM-supplier matrix for the Americas
  • Exhibit 26: Legend of OEMs
  • Exhibit 27: Vehicles having torque vectoring/intelligent AWD technologies in the Americas
  • Exhibit 28: SUV market in the Americas 2016-2021 (millions of units)
  • Exhibit 29: Automotive torque vectoring system market in EMEA 2016-2021 (millions of units)
  • Exhibit 30: Torque vectoring OEM-supplier matrix for EMEA
  • Exhibit 31: Legend of OEMs
  • Exhibit 32: European vehicles having torque vectoring/intelligent AWD technologies
  • Exhibit 33: SUV market in EMEA 2016-2021 (millions in units)
  • Exhibit 34: Leading SUVs in European automotive market 2015
  • Exhibit 35: Percentage growth in SUV sales in Europe 2014-2015
  • Exhibit 36: Automobiles market shares in Europe 2015
  • Exhibit 37: SUV and crossover vehicle market in China 2015-2020 (millions of units)
  • Exhibit 38: Top SUVs in China 2015
  • Exhibit 39: Global SUV sales of the automotive industry 2016-2021 (% of unit sales)
  • Exhibit 40: Revenue share of global automotive market 2016 and 2025 (%)
  • Exhibit 41: Vendors in the torque vectoring system market
  • Exhibit 42: Legend of OEMs
  • Exhibit 43: Other prominent vendors
目次
Product Code: IRTNTR11550

About Automotive Torque Vectoring System

Torque vectoring as a technology is developed as an addition to the basic or standard differential. Hence, this technology performs the basic tasks of a usual differential, as well as transmitting torque independently to the driving wheels. This ability to transfer independent torque generally results in the improvement of vehicular handling and traction. Torque vectoring differentials was originally evolved for racing, especially rally racing purposes. Some of the earliest cars to come with this technology belonged to Mitsubishi Motors. This technology has been implemented in production vehicles following a significant development lead time.

Technavio's analysts forecast the global automotive torque vectoring system market to grow at a CAGR of 31.27% during the period 2017-2021.

Covered in this report

The report covers the present scenario and the growth prospects of global automotive torque vectoring system market for 2017-2021. To calculate the market size, the report presents a detailed picture of the market by way of study, synthesis, and summation of data from multiple sources.

The market is divided into the following segments based on geography:

  • Americas
  • APAC
  • EMEA

Technavio's report, Global Automotive Torque Vectoring System Market 2017-2021, has been prepared based on an in-depth market analysis with inputs from industry experts. The report covers the market landscape and its growth prospects over the coming years. The report also includes a discussion of the key vendors operating in this market.

Key vendors

  • BorgWarner
  • JTEKT
  • Magna Powertrain, International
  • Oerlikon Graziano
  • Univance
  • ZF

Other Prominent Vendors

  • THE TIMKEN COMPANY
  • Prodrive

Market driver

  • Increase in requirement of safety for all vehicles.
  • For a full, detailed list, view our report

Market challenge

  • High cost associated with active/dynamic torque vectoring systems.
  • For a full, detailed list, view our report

Market trend

  • Use of MR fluids by Ricardo in torque vectoring systems.
  • For a full, detailed list, view our report

Key questions answered in this report

  • What will the market size be in 2021 and what will the growth rate be?
  • What are the key market trends?
  • What is driving this market?
  • What are the challenges to market growth?
  • Who are the key vendors in this market space?
  • What are the market opportunities and threats faced by the key vendors?
  • What are the strengths and weaknesses of the key vendors?

You can request one free hour of our analyst's time when you purchase this market report. Details are provided within the report.

Table of Contents

PART 01: Executive summary

PART 02: Scope of the report

PART 03: Research Methodology

PART 04: Introduction

  • Key market highlights
  • Differentials and torque vectoring
  • Torque vectoring: A detailed treatise
  • Improper (passive) torque vectoring: The truth about BorgWarner

PART 05: Market landscape

  • Market overview
  • Torque vectoring: Product life cycle and evolution
  • Market size and forecast
  • Five forces analysis for the torque vectoring system market

PART 06: Market segmentation by technology

  • Market overview
  • Market size and forecast

PART 07: Market segmentation by geography

  • Market overview
  • Market size and forecast

PART 08: Decision framework

PART 09: Drivers and challenges

  • Market drivers
  • Market challenges

PART 10: Market trends

  • Use of MR fluids by Ricardo in torque vectoring systems
  • Development of electric torque vectoring systems for EV all-terrain vehicles and AWDs
  • Emergence of lighter, compact, and highly flexible torque vectoring systems
  • Modular torque vectoring: The way forward

PART 11: Vendor landscape

  • Value chain analysis of torque vectoring offerings
  • Other prominent vendors

PART 12: Key vendor analysis

  • BorgWarner
  • JTEKT
  • Mitsubishi
  • Ricardo
  • ZF

PART 13: Appendix

  • List of abbreviations
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