Market Definition

Automotive robot systems are utilised to assist in the manufacturing process in the automotive industries, such as assembling, welding, cutting, dispensing, and painting. Automotive robots in the manufacturing process help to reduce operational costs by enhancing quality and operational flexibility, minimising production and manufacturing errors, and eliminating raw material waste. Automobile manufacturers are using robotics in their manufacturing processes because they give various advantages, including increased precision, efficiency, flexibility, and dependability on the assembly line. Because of the broad use of automotive robotics, the automotive industry has become the world's most automated industry, as well as one of the world's largest buyers of industrial robots. Furthermore, automotive manufacturing robots provide a competitive advantage to automotive enterprises by enhancing quality, boosting capacity, cutting warranty costs, and shielding employees from demanding and dangerous responsibilities.

The global automotive robots market is still in its early stages of development. The growing demand to boost productivity and improve the work environment by reducing industrial accidents and enhancing employee safety is propelling the global market for automotive robots. The market is predicted to grow rapidly in the future years, owing mostly to increased technological research & development and a drive for more sustainable manufacturing processes, as well as the need to minimise operating costs in a car manufacturing facility. Furthermore, increased investments in automated manufacturing facilities and significant investments in emerging regions are expected to have a beneficial impact on worldwide market growth.

 

The automobile sector, which was already struggling, aggravated COVID-19 and the subsequent shutdowns in all major markets. All automakers and tier players saw a drop in car and component production and sales in 2021. The Automotive Robotics market study includes regional information for North America, Europe, Asia Pacific, and the Rest of the World. The Automotive Robotics market is further split into major nations such as the United States, Canada, Germany, the United Kingdom, France, Italy, China, India, Japan, Brazil, South Africa, and others.

Report Scope

The global market report scope consists of a comprehensive study covering primary factors impacting the industry trends. The study includes analysis of regional and country-level market dynamics. The scope also consists of competitive overview offering company market shares coupled with company profiles for key revenue contributing companies. The report scope covers a detailed competitive outlook covering market shares and profiles of key participants in the market share.

Major Market Players

This report offers the major market player’s profiles, such as  ABB (Switzerland), FANUC Corporation (Japan), Yaskawa Electric Corporation (Japan), KUKA AG (Germany) and Kawasaki Heavy Industries (Japan).

The Automotive Robotics Market report has been categorized as below

By Product Type

  • Articulated Robots

  • Cartesian Robots

  • Cylindrical Robots

  • SCARA Robots

  • Others

By Component

  • Controller

  • Robotics Arm

  • End Effector

  • Drive

  • Sensor

By Application

  • Primary Manufacturing Process Robots

    • Welding

    • Painting

    • Cutting

  • Secondary Manufacturing Process Robots

    • Material Handling, Palletizing & Packaging

    • Assembly/Disassembly

By Region

●       North America

●       Europe

●       Asia Pacific

●       Rest of World

The years considered for the study are as follows:

      Base year - 2020

      Estimated year - 2021

      Projected year – 2022

      Forecast period - 2021 to 2027

Key Questions Addressed by the Report

      New products/service competitors are exploring?

      Key players in the Automotive Robotics Market and how extreme is the competition?

      What are the future market trends that manufacturers are emphasizing on in the future updates?

      For each segment, what are the crucial opportunities in the market?

      What are the key growth strategies embraced by key market players in the market?

      What are the key success strategies adopted by major competitors in the market?

Why Buy this Report:

      Obtain comprehensive insights on the Automotive Robotics market trends

      Note comprehensive analysis of the market status

      Identifies the market opportunities and growth segments

      Assessing business segments & product portfolios, and explain competitive dynamics

      Provide strategy planning and industry dynamics to strengthen decision making

Report Content

1. Global Automotive Robotics Market Introduction

1.1 Key Insights

1.2. Report Overview

1.3. Markets Covered

1.4. Stakeholders

2. Research Methodology

2.1. Research Scope

2.2. Market Research Process

2.3. Research Data Analysis

2.4. Market Size Estimation

3. Executive Summary 

4. Market Overview

4.1. Introduction

4.2. Market Drivers and Restraints

5. By Product Type

5.1.  Articulated Robots

5.2.  Cartesian Robots

5.3. Cylindrical Robots

5.4. SCARA Robots

5.5. Others

6. By Component

6.1.  Controller

6.2.  Robotics Arm

6.3. End Effector

6.4. Drive

6.5. Sensor

7. By Application

7.1.  Primary Manufacturing Process Robots

7.1.1.  Welding

7.1.2. Painting

7.1.3. Cutting

    7.2. Secondary Manufacturing Process Robots

7.2.1. Material Handling, Palletizing & Packaging

7.2.2. Assembly/Disassembly

8. By Region

8.1. Key Points

8.3. North America

8.4. Europe

8.5. Asia Pacific

8.6. Rest of the World

9. Company Profile

(Profile contain company overview, products/services, financials & recent developments)

9.1. ABB (Switzerland)

9.2. FANUC Corporation (Japan) 

9.3. Yaskawa Electric Corporation (Japan) 

9.4. KUKA AG (Germany) 

9.5. Kawasaki Heavy Industries (Japan)

The Automotive Robotics Market report has been categorized as below

By Product Type

  • Articulated Robots

  • Cartesian Robots

  • Cylindrical Robots

  • SCARA Robots

  • Others

By Component

  • Controller

  • Robotics Arm

  • End Effector

  • Drive

  • Sensor

By Application

  • Primary Manufacturing Process Robots

    • Welding

    • Painting

    • Cutting

  • Secondary Manufacturing Process Robots

    • Material Handling, Palletizing & Packaging

    • Assembly/Disassembly

By Region

  • North America
  • Europe
  • Asia Pacific
  • Rest of World

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  • Multiple User-
    5500 USD 3500 USD

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