Global Food Robotics Market - Technologies, Market share and Industry Forecast to 2024

  • ID: 4655738
  • Report
  • Region: Global
  • 240 Pages
  • Occams Business Research and Consulting
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The Global Food Robotics Market is Expected to Rise with the CAGR of about 12.50%

FEATURED COMPANIES

  • Abb Group (Switzerland)
  • Aris Bv (Netherlands)
  • Chowbotics Inc. (U.S.)
  • Fanuc Corporation (Japan)
  • Kuka Ag (Germany)
  • MORE

Food robotics deals with the use of robots in the food and beverage sector for different processes such as food processing, food handling, etc. The global food robotics market is expected to rise with the CAGR of about 12.50% during the forecast period 2017-2024.

Increasing demand for packaged food is one of the major factors that contribute towards the growth of global food robotics market during the forecast period. However, lack of skilled workforce in emerging economies is one of the major factors restraining the growth of global food robotics market during the forecast period.

Geographically, the global food robotics market report has been segmented in regions such as North America, Asia Pacific, Europe and Rest of the World. Asia Pacific is expected to dominate the market during the forecast period due to high demand for packaged food products increasing adoption of automation technologies across the region to enhance the food production capabilities, etc.

Also, Asia Pacific is expected to be the fastest growing region in the global food robotics market during the forecast period due to new food safety and hygiene legislations, increasing demand for automation from food and beverages sector of the region, etc.

The growth in the global food robotics market is also influenced by the presence of major players such as ABB Group (Switzerland), Kawasaki Heavy Industries Ltd. (Japan), Kuka AG (Germany), Mitsubishi Electric Corporation (Japan), Universal Robotics A/S (Denmark), etc. In order to gain competitive advantage, the major players of global food robotics market are adopting various strategies such as mergers & acquisitions, product launch, strategic partnership, collaboration, joint ventures, etc. during the forecast period.

The report scope and market revenue estimates and forecast of global food robotics market is widely categorized on the basis of its segments such as type, payload, applications and end user industries. Type of food robotics is divided as articulated, Cartesian, SCARA, parallel, cylindrical, collaborative and others. Payload segment of global food robotics market is divided as medium, low and heavy.

Further, the applications of food robotics include palletizing, packaging, repackaging, pick & place, processing and other applications. End user industries segment of global food robotics market is divided as beverage, meat, poultry, and seafood, dairy, bakery, fruits & vegetables, confectionery and other end use industries. Articulated robot is expected to dominate the market during the forecast period due to factors such as wide variety of payload capacities of articulated robots, etc.

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Note: Product cover images may vary from those shown
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FEATURED COMPANIES

  • Abb Group (Switzerland)
  • Aris Bv (Netherlands)
  • Chowbotics Inc. (U.S.)
  • Fanuc Corporation (Japan)
  • Kuka Ag (Germany)
  • MORE

1. Introduction
1.1. Executive Summary
1.2. Estimation Methodology

2. Market Overview
2.1. Global Food Robotics Market: Evolution & Transition
2.2. Market Definition & Scope
2.3. Industry Structure
2.4. Total Market Analysis
2.4.1. Top 5 Findings
2.4.2. Top 5 Opportunity Markets
2.4.3.Top 5 Companies
2.4.4. Top 3 Competitive Strategies
2.5. Estimation Analysis
2.6. Strategic Analysis
2.6.1. Investment Vs. Adoption Model
2.6.2. 360-Degree Industry Analysis
2.6.3. Porters 5 Force Model
2.6.4. See-Saw Analysis
2.6.5. Consumer Analysis And Key Buying Criteria
2.7. Competitive Analysis
2.7.1. Key Strategies & Analysis
2.7.2. Market Share Analysis & Top Company Analysis
2.8. Strategic Recommendations & Key Conclusions
2.8.1. Investment Opportunities By Regions
2.8.2. Opportunities In Emerging Applications
2.8.3. Investment Opportunity In Fastest Growing Segment

3. Market Determinants
3.1. Market Drivers
3.1.1. Increasing Regulations For Food Safety
3.1.2. Increasing Demand For Packaged Food
3.1.3. Rising Need For Automation
3.1.4. Development Of Innovative Products
3.2. Market Restraints
3.2.1. Lack Of Skilled Workforce In Emerging Economies
3.3. Market Opportunities
3.3.1. Increasing Production Of Low Cost Robots
3.3.2. Increasing Functionality Of Robots
3.4. Market Challenges
3.4.1. High Installation Cost Of Robotic Systems

4. Global Food Robotics Market By Type
4.1. Market Definition And Scope
4.2. Decision Support Database & Estimation Methodology
4.3. Comparative Analysis Across Market Segments
4.4. Opportunity Matrix
4.5. Market Segmentation
4.5.1. Global Articulated Market
4.5.1.1. Adoption Scenario & Market Determinants
4.5.1.2. Market Estimations And Forecasts 2015-2024 ($ Million)
4.5.1.3. Key Conclusions
4.5.2. Global Cartesian Market
4.5.2.1. Adoption Scenario & Market Determinants
4.5.2.2. Market Estimations And Forecasts 2015-2024 ($ Million)
4.5.2.3. Key Conclusions
4.5.3. Global Scara Market
4.5.3.1. Adoption Scenario & Market Determinants
4.5.3.2. Market Estimations And Forecasts 2015-2024 ($ Million)
4.5.3.3. Key Conclusions
4.5.4. Global Parallel Market
4.5.4.1. Adoption Scenario & Market Determinants
4.5.4.2. Market Estimations And Forecasts 2015-2024 ($ Million)
4.5.4.3. Key Conclusions
4.5.5. Global Cylindrical Market
4.5.5.1. Adoption Scenario & Market Determinants
4.5.5.2. Market Estimations And Forecasts 2015-2024 ($ Million)
4.5.5.3. Key Conclusions
4.5.6. Global Collaborative Market
4.5.6.1. Adoption Scenario & Market Determinants
4.5.6.2. Market Estimations And Forecasts 2015-2024 ($ Million)
4.5.6.3. Key Conclusions
4.5.7. Global Others Market
4.5.7.1. Adoption Scenario & Market Determinants
4.5.7.2. Market Estimations And Forecasts 2015-2024 ($ Million)
4.5.7.3. Key Conclusions

5. Global Food Robotics Market By Payload
5.1. Market Definition And Scope
5.2. Decision Support Database & Estimation Methodology
5.3. Comparative Analysis Across Market Segments
5.4. Opportunity Matrix
5.5. Market Segmentation
5.5.1. Global Medium Market
5.5.1.1. Adoption Scenario & Market Determinants
5.5.1.2. Market Estimations And Forecasts 2015-2024 ($ Million)
5.5.1.3. Key Conclusions
5.5.2. Global Low Market
5.5.2.1. Adoption Scenario & Market Determinants
5.5.2.2. Market Estimations And Forecasts 2015-2024 ($ Million)
5.5.2.3. Key Conclusions
5.5.3. Global Heavy Market
5.5.3.1. Adoption Scenario & Market Determinants
5.5.3.2. Market Estimations And Forecasts 2015-2024 ($ Million)
5.5.3.3. Key Conclusions

6. Global Food Robotics Market By Application
6.1. Market Definition And Scope
6.2. Decision Support Database & Estimation Methodology
6.3. Comparative Analysis Across Market Segments
6.4. Opportunity Matrix
6.5. Market Segmentation
6.5.1. Global Palletizing Market
6.5.1.1. Adoption Scenario & Market Determinants
6.5.1.2. Market Estimations And Forecasts 2015-2024 ($ Million)
6.5.1.3. Key Conclusions
6.5.2. Global Packaging Market
6.5.2.1. Adoption Scenario & Market Determinants
6.5.2.2. Market Estimations And Forecasts 2015-2024 ($ Million)
6.5.2.3. Key Conclusions
6.5.3. Global Repackaging Market
6.5.3.1. Adoption Scenario & Market Determinants
6.5.3.2. Market Estimations And Forecasts 2015-2024 ($ Million)
6.5.3.3. Key Conclusions
6.5.4. Global Pick & Place Market
6.5.4.1. Adoption Scenario & Market Determinants
6.5.4.2. Market Estimations And Forecasts 2015-2024 ($ Million)
6.5.4.3. Key Conclusions
6.5.5. Global Processing Market
6.5.5.1. Adoption Scenario & Market Determinants
6.5.5.2. Market Estimations And Forecasts 2015-2024 ($ Million)
6.5.5.3. Key Conclusions
6.5.6. Global Other Applications Market
6.5.6.1. Adoption Scenario & Market Determinants
6.5.6.2. Market Estimations And Forecasts 2015-2024 ($ Million)
6.5.6.3. Key Conclusions

7. Global Food Robotics Market By End-Use Industry
7.1. Market Definition And Scope
7.2. Decision Support Database & Estimation Methodology
7.3. Comparative Analysis Across Market Segments
7.4. Opportunity Matrix
7.5. Market Segmentation
7.5.1. Global Beverage Market
7.5.1.1. Adoption Scenario & Market Determinants
7.5.1.2. Market Estimations And Forecasts 2015-2024 ($ Million)
7.5.1.3. Key Conclusions
7.5.2. Global Meat, Poultry, And Sea Food Market
7.5.2.1. Adoption Scenario & Market Determinants
7.5.2.2. Market Estimations And Forecasts 2015-2024 ($ Million)
7.5.2.3. Key Conclusions
7.5.3. Global Dairy Market
7.5.3.1. Adoption Scenario & Market Determinants
7.5.3.2. Market Estimations And Forecasts 2015-2024 ($ Million)
7.5.3.3. Key Conclusions
7.5.4. Global Bakery Market
7.5.4.1. Adoption Scenario & Market Determinants
7.5.4.2. Market Estimations And Forecasts 2015-2024 ($ Million)
7.5.4.3. Key Conclusions
7.5.5. Global Fruits & Vegetables Market
7.5.5.1. Adoption Scenario & Market Determinants
7.5.5.2. Market Estimations And Forecasts 2015-2024 ($ Million)
7.5.5.3. Key Conclusions
7.5.6. Global Confectionery Market
7.5.6.1. Adoption Scenario & Market Determinants
7.5.6.2. Market Estimations And Forecasts 2015-2024 ($ Million)
7.5.6.3. Key Conclusions
7.5.7. Global Other End-Use Industries Market
7.5.7.1. Adoption Scenario & Market Determinants
7.5.7.2. Market Estimations And Forecasts 2015-2024 ($ Million)
7.5.7.3. Key Conclusions

8. Competitive Landscape
8.1. Key Strategies
8.1.1. List Of Mergers And Acquisition
8.1.2. List Of Joint Ventures
8.1.3. List Of Product Launches
8.1.4. List Of Partnerships

9. Geographic Analysis
9.1. Decision Support Database & Estimation Methodology
9.2. Comparative Analysis Across Market Segments
9.3. Opportunity Matrix
9.4. Global Food Robotics Market By Region 2015-2024
9.4.1. North America
9.4.1.1. Industry Analysis 2015-2024 ($ Million)
9.4.1.2. Top Country Analysis
9.4.1.2.1. U.S.
9.4.1.2.1.1. Market Estimations And Forecasts 2015-2024 ($ Million)
9.4.1.2.1.2. Key Conclusions
9.4.1.2.2. Canada
9.4.1.2.2.1. Market Estimations And Forecasts 2015-2024 ($ Million)
9.4.1.2.2.2. Key Conclusions
9.4.2. Europe
9.4.2.1. Industry Analysis 2015-2024 ($ Million)
9.4.2.2. Top Country Analysis
9.4.2.2.1. Uk
9.4.2.2.1.1. Market Estimations And Forecasts 2015-2024 ($ Million)
9.4.2.2.1.2. Key Conclusions
9.4.2.2.2. France
9.4.2.2.2.1. Market Estimations And Forecasts 2015-2024 ($ Million)
9.4.2.2.2.2. Key Conclusions
9.4.2.2.3. Germany
9.4.2.2.3.1. Market Estimations And Forecasts 2015-2024 ($ Million)
9.4.2.2.3.2. Key Conclusions
9.4.2.2.4. Spain
9.4.2.2.4.1. Market Estimations And Forecasts 2015-2024 ($ Million)
9.4.2.2.4.2. Key Conclusions
9.4.2.2.5. Rest Of Europe
9.4.2.2.5.1. Market Estimations And Forecasts 2015-2024 ($ Million)
9.4.2.2.5.2. Key Conclusions
9.4.3. Asia Pacific
9.4.3.1. Industry Analysis 2015-2024 ($ Million)
9.4.3.2. Top Country Analysis
9.4.3.2.1. China
9.4.3.2.1.1. Market Estimations And Forecasts 2015-2024 ($ Million)
9.4.3.2.1.2. Key Conclusions
9.4.3.2.2. India
9.4.3.2.2.1. Market Estimations And Forecasts 2015-2024 ($ Million)
9.4.3.2.2.2. Key Conclusions
9.4.3.2.3. Japan
9.4.3.2.3.1. Market Estimations And Forecasts 2015-2024 ($ Million)
9.4.3.2.3.2. Key Conclusions
9.4.3.2.4. Australia
9.4.3.2.4.1.Market Estimations And Forecasts 2015-2024 ($ Million)
9.4.3.2.4.2.Key Conclusions
9.4.3.2.5.Rest Of Asia Pacific
9.4.3.2.5.1.Market Estimations And Forecasts 2015-2024 ($ Million)
9.4.3.2.5.2.Key Conclusions
9.4.4. Row
9.4.4.1. Industry Analysis 2015-2024 ($ Million)
9.4.4.2. Top Country Analysis
9.4.4.2.1. Latin America
9.4.4.2.1.1. Market Estimations And Forecasts 2015-2024 ($ Million)
9.4.4.2.1.2. Key Conclusions
9.4.4.2.2. Middle East & Africa
9.4.4.2.2.1. Market Estimations And Forecasts 2015-2024 ($ Million)
9.4.4.2.2.2. Key Conclusions

10. Company Profiles
10.1. Abb Group (Switzerland)
10.1.1. Overview
10.1.2. Product Portfolio
10.1.3. Strategic Initiatives
10.1.4. Scot Analysis
10.1.5. Strategic Analysis
10.2. Aris Bv (Netherlands)
10.2.1. Overview
10.2.2. Product Portfolio
10.2.3. Strategic Initiatives
10.2.4. Scot Analysis
10.2.5. Strategic Analysis
10.3. Bastian Solutions Inc. (U.S.)
10.3.1. Overview
10.3.2. Product Portfolio
10.3.3. Strategic Initiatives
10.3.4. Scot Analysis
10.3.5. Strategic Analysis
10.4. Chowbotics Inc. (U.S.)
10.4.1. Overview
10.4.2. Product Portfolio
10.4.3. Strategic Initiatives
10.4.4. Scot Analysis
10.4.5. Strategic Analysis
10.5. Fanuc Corporation (Japan)
10.5.1. Overview
10.5.2. Product Portfolio
10.5.3. Strategic Initiatives
10.5.4. Scot Analysis
10.5.5. Strategic Analysis
10.6. Kawasaki Heavy Industries Ltd. (Japan)
10.6.1. Overview
10.6.2. Product Portfolio
10.6.3. Strategic Initiatives
10.6.4. Scot Analysis
10.6.5. Strategic Analysis
10.7. Kuka Ag (Germany)
10.7.1. Overview
10.7.2. Product Portfolio
10.7.3. Strategic Initiatives
10.7.4. Scot Analysis
10.7.5. Strategic Analysis
10.8. Mayekawa Mfg. Co., Ltd (Japan)
10.8.1. Overview
10.8.2. Product Portfolio
10.8.3. Strategic Initiatives
10.8.4. Scot Analysis
10.8.5. Strategic Analysis
10.9. Mitsubishi Electric Corporation (Japan)
10.9.1. Overview
10.9.2. Product Portfolio
10.9.3. Strategic Initiatives
10.9.4. Scot Analysis
10.9.5. Strategic Analysis
10.10. Rockwell Automation Incorporated (U.S.)
10.10.1. Overview
10.10.2. Product Portfolio
10.10.3. Strategic Initiatives
10.10.4. Scot Analysis
10.10.5. Strategic Analysis
10.11. Seiko Epson Corporation (Japan)
10.11.1. Overview
10.11.2. Product Portfolio
10.11.3. Strategic Initiatives
10.11.4. Scot Analysis
10.11.5. Strategic Analysis
10.12. Soft Robotics, Inc. (U.S.)
10.12.1. Overview
10.12.2. Product Portfolio
10.12.3. Strategic Initiatives
10.12.4. Scot Analysis
10.12.5. Strategic Analysis
10.13. Staubli International Ag (Switzerland)
10.13.1. Overview
10.13.2. Product Portfolio
10.13.3. Strategic Initiatives
10.13.4. Scot Analysis
10.13.5. Strategic Analysis
10.14. Universal Robotics A/S (Denmark)
10.14.1. Overview
10.14.2. Product Portfolio
10.14.3. Strategic Initiatives
10.14.4. Scot Analysis
10.14.5. Strategic Analysis
10.15. Yaskawa Electric Corporation (Japan)
10.15.1. Overview
10.15.2. Product Portfolio
10.15.3. Strategic Initiatives
10.15.4. Scot Analysis
10.15.5. Strategic Analysis

List Of Tables
1. Global Food Robotics Market By Type 2015-2024 ($ Million)
2. Global Articulated Market By Geography 2015-2024 ($ Million)
3. Global Cartesian Market By Geography 2015-2024 ($ Million)
4. Global Scara Market By Geography 2015-2024 ($ Million)
5. Global Parallel Market By Geography 2015-2024 ($ Million)
6. Global Cylindrical Market By Geography 2015-2024 ($ Million)
7. Global Collaborative Market By Geography 2015-2024 ($ Million)
8. Global Others Market By Geography 2015-2024 ($ Million)
9. Global Food Robotics Market By Payload 2015-2024 ($ Million)
10. Global Medium Market By Geography 2015-2024 ($ Million)
11. Global Low Market By Geography 2015-2024 ($ Million)
12. Global Heavymarket By Geography 2015-2024 ($ Million)
13. Global Food Robotics Market By Application 2015-2024 ($ Million)
14. Global Palletizing Market By Geography 2015-2024 ($ Million)
15. Global Packaging Market By Geography 2015-2024 ($ Million)
16. Global Repackaging Market By Geography 2015-2024 ($ Million)
17. Global Pick & Place Market By Geography 2015-2024 ($ Million)
18. Global Processing Market By Geography 2015-2024 ($ Million)
19. Global Other Applications Market By Geography 2015-2024 ($ Million)
20. Global Food Robotics Market Byend-Use Industry 2015-2024 ($ Million)
21. Global Beverage Market By Geography 2015-2024 ($ Million)
22. Global Meat, Poultry, And Seafood Market By Geography 2015-2024 ($ Million)
23. Global Dairy Market By Geography 2015-2024 ($ Million)
24. Global Bakery Market By Geography 2015-2024 ($ Million)
25. Global Fruits & Vegetables Market By Geography 2015-2024 ($ Million)
26. Global Confectionery Market By Geography 2015-2024 ($ Million)
27. Global Other End-Use Industries Market By Geography 2015-2024 ($ Million)
28. North America Food Robotics Market 2015-2024 ($ Million)
29. Europe Food Robotics Market 2015-2024 ($ Million)
30. Asia Pacific Food Robotics Market 2015-2024 ($ Million)
31. Rest Of The World Food Robotics Market 2015-2024 ($ Million)
32. North America Food Robotics Market By Type2015-2024 ($ Million)
33. Europe Food Robotics Market By Type2015-2024 ($ Million)
34. Asia Pacific Food Robotics Market By Type2015-2024 ($ Million)
35. Rest Of The World Food Robotics Market By Type2015-2024 ($ Million)
36. North America Food Robotics  Market By Payload 2015-2024 ($ Million)
37. Europe Food Robotics Market By Payload 2015-2024 ($ Million)
38. Asia Pacific Food Robotics  Market By Payload 2015-2024 ($ Million)
39. Rest Of The World Food Robotics  Market By Payload 2015-2024 ($ Million)
40. North America Food Robotics  Market By Application 2015-2024 ($ Million)
41. Europe Food Robotics Market By Application 2015-2024 ($ Million)
42. Asia Pacific Food Robotics  Market By Application 2015-2024 ($ Million)
43. Rest Of The World Food Robotics  Market By Application 2015-2024 ($ Million)
44. North America Food Robotics  Market By End-Use Industry 2015-2024 ($ Million)
45. Europe Food Robotics Market By End-Use Industry 2015-2024 ($ Million)
46. Asia Pacific Food Robotics  Market By End-Use Industry 2015-2024 ($ Million)
47. Rest Of The World Food Robotics  Market By End-Use Industry 2015-2024 ($ Million)

List Of Figures
1. Global Articulated Market 2015-2024 ($ Million)
2. Global Cartesian Market 2015-2024 ($ Million)
3. Global Scara Market 2015-2024 ($ Million)
4. Global Parallel Market 2015-2024 ($ Million)
5. Global Cylindrical Market 2015-2024 ($ Million)
6. Global Collaborative Market 2015-2024 ($ Million)
7. Global Others Market 2015-2024 ($ Million)
8. Global Medium Market 2015-2024 ($ Million)
9. Global Low Market 2015-2024 ($ Million)
10. Global Heavymarket 2015-2024 ($ Million)
11. Global Palletizing Market 2015-2024 ($ Million)
12. Global Packaging Market 2015-2024 ($ Million)
13. Global Repackaging Market 2015-2024 ($ Million)
14. Global Pick & Place Market 2015-2024 ($ Million)
15. Global Processing Market 2015-2024 ($ Million)
16. Global Other Applications Market 2015-2024 ($ Million)
17. Global Beverage Market 2015-2024 ($ Million)
18. Global Meat, Poultry, And Seafood Market 2015-2024 ($ Million)
19. Global Dairy Market 2015-2024 ($ Million)
20. Global Bakery Market 2015-2024 ($ Million)
21. Global Fruits & Vegetables Market 2015-2024 ($ Million)
22. Global Confectionery Market 2015-2024 ($ Million)
23. Global Other End-Use Industries Market 2015-2024 ($ Million)
24. United States (U.S.) Food Robotics Market 2015-2024 ($ Million)
25. Canada Food Robotics Market 2015-2024 ($ Million)
26. United Kingdom (Uk) Food Robotics Market 2015-2024 ($ Million)
27. France Food Robotics Market 2015-2024 ($ Million)
28. Germany Food Robotics Market 2015-2024 ($ Million)
29. Spain Food Robotics Market 2015-2024 ($ Million)
30. Roe Food Robotics Market 2015-2024 ($ Million)
31. China Food Robotics Market 2015-2024 ($ Million)
32. India Food Robotics Market 2015-2024 ($ Million)
33. Japan Food Robotics Market 2015-2024 ($ Million)
34. Australia Food Robotics Market 2015-2024 ($ Million)
35. Roapac Food Robotics Market 2015-2024 ($ Million)
36. Latin America Food Robotics Market 2015-2024 ($ Million)
37. Mena Food Robotics Market 2015-2024 ($ Million)

Note: Product cover images may vary from those shown
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FEATURED COMPANIES

  • Abb Group (Switzerland)
  • Aris Bv (Netherlands)
  • Chowbotics Inc. (U.S.)
  • Fanuc Corporation (Japan)
  • Kuka Ag (Germany)
  • MORE

Global food robotics market is expected to witness a significant growth rate through 2024

Food robotics refers to the adoption of robots such as articulated robots, SCARA robots, collaborative robots, etc. in food and beverages industry to carry out tasks such as processing, food handling, food branding, product packaging, etc. The global food robotics market is expected to rise with the CAGR of about 12.50% during the forecast period 2017-2024. Development of innovative products by the market players across the globe is one of the major factors that contribute towards the growth of global food robotics market during the forecast period.

For instance, according to the official company sources, in 2018, Sony Corporation (Japan) partnered with Carnegie Mellon University (CMU, United States) to work on food robots. This partnership aims to collaborate on Artificial Intelligence (AI) and robotics research for the development of food related robots that would focus on the optimization of food preparation, cooking as well as delivery.

Also, in 2017, Yaskawa Electric Corporation (Japan) launched compact robots for food applications. New food grade robots, MOTOMAN GP7 and GP8 robots are specifically designed to provide the benefits of sophisticated automated handling pick and place, robotics solutions to the food and beverage industry. These robots also offer other benefits, such as optimum productivity with high speeds and payloads, greater movement, improved acceleration / deceleration control, etc., as per the official company sources.

Further, in 2018, Soft Robotics, Inc. (United States) unveiled its automated pizza solution at International Pizza Expo. The pizza automation solution is specifically developed for tasks such as picking, placing, packaging needs of the pizza industry ensuring food safety and integrity and enhancing pizza packaging line efficiency, according to the Robotic Industries Association (RIA, United States). Development of such innovative robotic solutions for food industry is expected to increase the adoption and demand of food robots. This is expected to promote the growth of global food robotics market during the forecast period.

Asia Pacific: The most lucrative region
Asia Pacific accounted for the largest market share in terms of revenue for the global food robotics market in 2017. Also, Asia Pacific is expected to dominate the market with fastest growth rate (highest CAGR) in food robotics market during the forecast period. High demand for packaged food products, increasing adoption of automation technologies across the region, etc. are some of the major factors that contributes towards the fastest growth rate of Asia Pacific in food robotics market during the forecast period. Also, increasing adoption of robotic solutions from the food and beverage sector of the region promotes the growth of food robotics market in Asia Pacific during the forecast period.

For instance, according to the official company sources, in 2016, Aitech Robotics and Automation (Singapore based start-up) developed a robotic prototype for food delivery. The robot can be deployed in office buildings or food and beverage outlets to facilitate the delivery of orders that can be made by a customer through a mobile application. Also, in 2017, Fanuc Corporation (Japan) launched M20iB/25C robot, specifically designed for food handling environments. M20iB/25C robot is designed to carry out applications such as automated picking, packing and handling, as per the official company sources. Such factors are expected to fuel growth and contribute towards the fastest growth rate of Asia Pacific in food robotics market during the forecast period.

Increasing regulations for food safety: Growth promoter
Food safety regulations increase the demand for food robots in order to ensure safety and security of the food product. Increasing regulations for food safety is one of the major factors that are expected to promote the growth of global food robotics market during the forecast period.

For instance, according to the Association of Southeast Asian Nations (ASEAN, Indonesia), in 2015-16, ASEAN Food Safety Regulatory Framework (AFSRF) was proposed that provides a coherent integrated approach for ensuring food safety implementation across the food chain. The objectives of the ASEAN Food Safety Regulatory Framework includes protection of consumer’s health, enhance standard for food, etc.

Further, according to the United States Department of Agriculture, in 2015, China announced its new Food Safety Law. The law is enacted with a view to ensure safety of the food products and public health as well as life safety. The law also ensures safe production and distribution of packaging materials, detergents, containers, and disinfectants that are used for food production and distribution. Such regulations pertaining to food safety and security are expected to increase the adoption of robots in food and beverage industry in order to ensure safety of the food products.

This is expected to fuel growth in the global food robotics market during the forecast period. However, lack of skilled workforce in emerging economies is one of the major factors restraining the growth of global food robotics market during the forecast period.

Note: Product cover images may vary from those shown
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  • Abb Group (Switzerland)
  • Aris Bv (Netherlands)
  • Bastian Solutions Inc. (U.S.)
  • Chowbotics Inc. (U.S.)
  • Fanuc Corporation (Japan)
  • Kawasaki Heavy Industries Ltd. (Japan)
  • Kuka Ag (Germany)
  • Mayekawa Mfg. Co., Ltd (Japan)
  • Mitsubishi Electric Corporation (Japan)
  • Rockwell Automation Incorporated (U.S.)
  • Seiko Epson Corporation (Japan)
  • Soft Robotics, Inc. (U.S.)
  • Staubli International Ag (Switzerland)
  • Universal Robotics A/S (Denmark)
  • Yaskawa Electric Corporation (Japan)
Note: Product cover images may vary from those shown
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Note: Product cover images may vary from those shown
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