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Food Robotics Market by Type, Payload, Application, End Use, and Geography - Global Forecast to 2028

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    Report

  • 244 Pages
  • August 2021
  • Region: Global
  • Meticulous Market Research Pvt. Ltd.
  • ID: 5438304
UP TO OFF until Jan 10th 2025
Food Robotics Market by Type (Articulated Robots [SCARA, Six-axis Robots], Delta & Parallel Robots, Collaborative Robots, Cartesian Robots, Cylindrical Robots, Portal Robots), Payload, Application, End Use, and Geography-Global Forecast to 2028



The food robotics market is expected to reach USD 2.02 billion by 2028, at a CAGR of 11.6 % during the forecast period, 2021-2028.

The research report titled ‘Food Robotics Market by Type (Articulated Robots [SCARA, Six-axis Robots, and Other Articulated Robots], Delta & Parallel Robots, Collaborative Robots, Cartesian Robots, Cylindrical Robots, Portal Robots), Payload (Low, Medium, and High Payload), Application (Palletizing and Depalletizing, Packaging and Repacking, Pick and Place, Cutting and Slicing, Grading and Sorting, Butchery, Quality Inspection, and Other Applications), End Use (Dairy, Beverage, Bakery & Confectionery, Meat, Poultry, and Seafood, Fruits and Vegetables, Oil & Fats, Other End Uses) and Geography-Global Forecast to 2028’ provides an in-depth analysis of the food robotics market across five major geographies and emphasizes on the current market size, market shares, recent developments, and forecast till 2028.

This market's growth is mainly attributed to increasing food safety regulations, rising investments in robots for the food industry, growing adoption of digitalization across the food & beverage industry, growing focus on efficient food packaging. Moreover, the increasing adoption of robots in emerging economies is expected to stimulate this market's growth.

The study offers a comprehensive analysis of the food robotics market with respect to type, payload, application, end use, and geography. The food robotics market is segmented based on Type (Articulated Robots [SCARA, Six-axis Robots, Other Articulated Robots], Delta & Parallel Robots, Collaborative Robots, Cartesian Robots, Cylindrical Robots, Portal Robots), Payload (Low Payload, Medium Payload, High Payload), Application (Palletizing and Depalletizing, Packaging and Repacking, Pick and Place, Cutting and Slicing, Grading and Sorting, Butchery, Quality Inspection, Other Applications), End Use (Dairy, Beverage, Bakery & Confectionery, Meat, Poultry, and Seafood, Fruits and Vegetables, Oil & Fats, Other End Uses) and geography (Asia-Pacific, Europe, North America, Latin America, and the Middle East & Africa). The study also evaluates industry competitors and analyzes the market at the country level.

Based on type, the collaborative robots segment is expected to grow at the highest CAGR during the forecast period. The rapid growth of this segment is mainly attributed to the specialty of working in humid greenhouses, from refrigerated rooms to tending hot ovens, relieving employees from repetitive tasks that can cause injury in unfavorable environments. Collaborative robots have the potential to identify, align and place products with the pick-and-place action. Moreover, it supports several tasks along with quality analysis, which drives demand for these robots.

Based on payload, the low payload segment is expected to grow at the highest CAGR during the forecast period. Low payload robots are preferred due to their compact design that allows operating in the limited workspace.

Based on application, the packaging and repacking segment is expected to grow at the highest CAGR during the forecast period.

Based on end use, the beverages segment is projected to grow at the highest CAGR during the forecast period. The rapid growth of this segment is mainly attributed to the growing need to cater to consumer demand, maintain quality, consistency, and hygiene, and optimize production.

Geographically, the Asia-Pacific food robotics market is expected to grow at the fastest CAGR during the forecast period. The high growth of the food robotics market is attributed to the rising concerns regarding food hygiene and lifestyle that have directed the population towards ready-to-eat and packaged food items. The increase in consumer income has fueled the demand for advanced packaged food and beverages across the region.

The key players operating in the food robotics market are ABB Ltd (Switzerland), Fanuc Corporation (Japan), Yaskawa Electric Corporation (Japan), Kuka AG(Germany), Mitsubishi Electric Corporation (Japan), Kawasaki Heavy Industries, Ltd. (Japan), Universal Robots A/S (Denmark), Stäubli International AG (Switzerland), Denso Corporation (Japan), Seiko Epson Corporation (Japan), Mayekawa Mfg. Co., Ltd. (Japan), Omron Corporation (Japan), and Autonox Robotics GmbH (Germany).

Key Questions Answered in the Report

  • Which are the high-growth market segments in terms of type, payload, application, end use, and geography?
  • What is the historical market size for the food robotics market across the globe?
  • What are the market forecasts and estimates for the period 2021-2028?
  • What are the major drivers, restraints, opportunities, and challenges in the food robotics market?
  • Who are the major players in the market, and what are their market shares?
  • How is the competitive landscape for the food robotics market?
  • What are the recent developments in the food robotics market?
  • What are the different strategies adopted by the major players in the market?
  • Which are the high-growth countries?
  • Who are the local emerging players in the food robotics market, and how do they compete with other players?

Scope of the Report


Food Robotics Market, by Type

  • Articulated Robots
  • SCARA
  • Six-Axis Robots
  • Other Articulated Robots
  • Delta & Parallel Robots
  • Collaborative Robots
  • Cartesian Robots
  • Portal Robots

Food Robotics Market, by Payload

  • Medium Payload
  • Low Payload
  • High Payload

Food Robotics Market, by Application

  • Palletizing & Depalletizing
  • Packaging & Repacking
  • Pick-and-Place
  • Cutting & Slicing
  • Grading & Sorting
  • Butchery
  • Quality Inspection
  • Other Applications

Food Robotics Market, by End Use

  • Dairy
  • Beverages
  • Bakery & Confectionery
  • Meat, Poultry, and Seafood
  • Fruits and Vegetable
  • Oil & Fats
  • Other End Users

Food Robotics Market, by Geography

  • Asia-Pacific (APAC)
  • China
  • Japan
  • South Korea
  • India
  • Australia
  • Taiwan
  • Indonesia
  • New Zealand
  • Rest of Asia-Pacific (RoAPAC)
  • Europe
  • Germany
  • U.K.
  • France
  • Spain
  • Benelux
  • Switzerland
  • Italy
  • Poland
  • Austria
  • Czech Republic
  • Hungary
  • Romania
  • Slovakia
  • Turkey
  • Greece
  • Rest of Europe (RoE)
  • North America
  • U.S.
  • Canada
  • Latin America
  • Mexico
  • Brazil
  • Argentina
  • Rest of Latin America (RoLATAM)
  • Middle East
  • Africa
  • South Africa
  • Rest of Africa (RoAfrica)

Table of Contents

1. Introduction
1.1. Market Definition
1.2. Market Ecosystem
1.3. Currency and Limitations
1.4. Key Stakeholders
2. Research Methodology
2.1. Research Process
2.2. Data Collection & Validation
2.2.1. Secondary Research
2.2.2. Primary Research
2.3. Market Assessment
2.3.1. Market Size Estimation
2.3.2. Bottom-Up Approach
2.3.3. Top-Down Approach
2.3.4. Growth Forecast
2.4. Assumptions for the Study
2.5. Limitations for the Study
3. Executive Summary
3.1. Introduction
3.2. Regional Analysis
3.3. Key Players
4. COVID-19: Impact Assessment
4.1. Scenario A: Severe Impact
4.2. Scenario B: Moderate Recovery
4.3. Scenario C: Fast Recovery
5. Market Insights
5.1. Introduction
5.2. Market Dynamics
5.2.1. Drivers
5.2.1.1. Increasing Food Safety Regulations
5.2.1.2. Rising Investments in Robots for the Food Industry
5.2.1.3. Growing Adoption of Digitalization Across the F&B Industry
5.2.1.4. Growing Focus on Efficient Food Packaging
5.2.2. Restraint
5.2.2.1. High Installation Cost
5.2.3. Opportunities
5.2.3.1. Emerging Economies
5.2.4. Challenges
5.2.4.1. Limited Adoption of Robotics in F&B SMEs
6. Global Food Robotics Market, by Type
6.1. Introduction
6.2. Articulated Robots
6.2.1. Selective Compliance Articulated Robot Arms
6.2.2. Six-Axis Robots
6.2.3. Other Articulated Robots
6.3. Delta & Parallel Robots
6.4. Collaborative Robots
6.5. Cartesian Robots
6.6. Cylindrical Robots
6.7. Portal Robots
7. Global Food Robotics Market, by Payload
7.1. Introduction
7.2. Medium Payload
7.3. Low Payload
7.4. High Payload
8. Global Food Robotics Market, by Application
8.1. Introduction
8.2. Palletizing & Depalletizing
8.3. Packaging and Repacking
8.4. Pick-and-Place
8.5. Cutting and Slicing
8.6. Grading and Sorting
8.7. Butchery
8.8. Quality Inspection
8.9. Other Applications
9. Global Food Robotics Market, by End Use
9.1. Introduction
9.2. Dairy
9.3. Beverages
9.4. Bakery & Confectionery
9.5. Meat, Poultry, and Seafood
9.6. Fruits and Vegetables
9.7. Oil & Fats
9.8. Other End Uses
10. Food Robotics Market, by Geography
10.1. Introduction
10.2. Asia-Pacific
10.2.1. China
10.2.2. Japan
10.2.3. South Korea
10.2.4. India
10.2.5. Australia
10.2.6. Taiwan
10.2.7. Indonesia
10.2.8. New Zealand
10.2.9. Rest of Asia-Pacific (RoAPAC)
10.3. Europe
10.3.1. Germany
10.3.2. U.K.
10.3.3. France
10.3.4. Spain
10.3.5. Benelux
10.3.6. Switzerland
10.3.7. Italy
10.3.8. Poland
10.3.9. Austria
10.3.10. Czech Republic
10.3.11. Hungary
10.3.12. Romania
10.3.13. Slovakia
10.3.14. Turkey
10.3.15. Greece
10.3.16. Rest of Europe (RoE)
10.4. North America
10.4.1. U.S.
10.4.2. Canada
10.5. Latin America
10.5.1. Mexico
10.5.2. Brazil
10.5.3. Argentina
10.5.4. Rest of Latin America (RoLATAM)
10.6. Middle East
10.7. Africa
10.7.1. South Africa
10.7.2. Rest of Africa (RoAfrica)
11. Competitive Landscape
11.1. Introduction
11.2. Key Growth Strategies
11.3. Market Share Analysis (2020)
11.3.1. ABB Ltd
11.3.2. Fanuc Corporation
11.3.3. Kuka AG
11.3.4. Yaskawa Electric Corporation
12. Company Profiles
12.1. ABB Ltd.
12.1.1. Business Overview
12.1.2. Product Portfolio
12.1.3. Strategic Developments
12.2. Fanuc Corporation
12.2.1. Business Overview
12.2.2. Product Portfolio
12.2.3. Strategic Developments
12.3. Yaskawa Electric Corporation
12.3.1. Business Overview
12.3.2. Product Portfolio
12.3.3. Strategic Developments
12.4. Kuka Ag
12.4.1. Business Overview
12.4.2. Product Portfolio
12.4.3. Strategic Developments
12.5. Mitsubishi Electric Corporation
12.5.1. Business Overview
12.5.2. Product Portfolio
12.5.3. Strategic Developments
12.6. Kawasaki Heavy Industries, Ltd.
12.6.1. Business Overview
12.6.2. Product Portfolio
12.6.3. Strategic Developments
12.7. Universal Robots A/S
12.7.1. Business Overview
12.7.2. Product Portfolio
12.7.3. Strategic Developments
12.8. Stäubli International AG
12.8.1. Business Overview
12.8.2. Product Portfolio
12.8.3. Strategic Developments
12.9. Denso Corporation
12.9.1. Business Overview
12.9.2. Product Portfolio
12.9.3. Strategic Developments
12.10. Seiko Epson Corporation
12.10.1. Business Overview
12.10.2. Product Portfolio
12.10.3. Strategic Developments
12.11. Mayekawa Mfg. Co., Ltd.
12.11.1. Business Overview
12.11.2. Product Portfolio
12.12. Omron Corporation
12.12.1. Business Overview
12.12.2. Product Portfolio
12.12.3. Strategic Developments
12.13. Autonox Robotics Gmbh
12.13.1. Business Overview
12.13.2. Product Portfolio
12.13.3. Strategic Developments
13. Appendix
13.1. Questionnaire
13.2. Available Customization

Companies Mentioned

ABB Ltd (Switzerland), Fanuc Corporation (Japan), Yaskawa Electric Corporation (Japan), Kuka AG(Germany), Mitsubishi Electric Corporation (Japan), Kawasaki Heavy Industries, Ltd. (Japan), Universal Robots A/S (Denmark), Stäubli International AG (Switzerland), Denso Corporation (Japan), Seiko Epson Corporation (Japan), Mayekawa Mfg. Co., Ltd. (Japan), Omron Corporation (Japan), and Autonox Robotics GmbH (Germany).

Table Information