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Global Food Robotics Market Analysis By Segmentations, Top Key Players, Geographical Expansion, Future Development & Forecast 2024-2035

  • PUBLISHED ON
  • 1/12/2023
  • NO OF PAGES
  • 282
  • CATEGORY
  • Heavy Industry

Market Overview:

The food robotics market refers to the use of automated machines and robots in food processing and preparation. The market is driven by several factors such as the growing demand for processed foods, increasing awareness regarding food safety and hygiene, and the need for increased productivity and efficiency in the food industry. Food robotics technology has seen significant advancements in recent years, with the development of robots that can handle delicate food items, slice and dice vegetables, mix ingredients, and even cook meals. These robots are also equipped with sensors and cameras that enable them to detect and respond to changes in temperature, moisture, and other environmental factors.

The food robotics market is expected to grow significantly in the coming years, with a projected CAGR of 12.8% from 2021 to 2028. The market is driven by several factors, including the need for increased productivity and efficiency in the food industry, the growing demand for processed foods, and the increasing adoption of automation and robotics in various industries. The market is segmented into various categories based on application, such as food processing, packaging and repackaging, and quality control and inspection. The food processing segment is expected to dominate the market due to the increasing demand for processed foods and the need for increased efficiency in food processing.

The key players in the food robotics market include ABB Ltd., Fanuc Corporation, Kuka AG, Yaskawa Electric Corporation, Kawasaki Heavy Industries Ltd., Rockwell Automation, Inc., Staubli International AG, Mitsubishi Electric Corporation, Mayekawa Mfg. Co., Ltd., and Universal Robots A/S. These companies are focused on developing innovative and advanced food robotics solutions to meet the growing demand in the market. Overall, the food robotics market is expected to see significant growth in the coming years, driven by the need for increased productivity, efficiency, and food safety in the food industry.

Covid-19 Impact:

The COVID-19 pandemic has had a mixed impact on the food robotics market. On one hand, the pandemic has highlighted the importance of automation and robotics in the food industry, as it has become increasingly important to reduce human contact and ensure food safety and hygiene. On the other hand, the pandemic has also led to supply chain disruptions and reduced demand for certain food products, which has affected the growth of the market.

During the pandemic, there has been an increased demand for certain types of food products, such as frozen foods and packaged meals, which has driven the adoption of food robotics technology in food processing and packaging. Additionally, robots have been used to disinfect food production facilities and ensure the safety of workers.

However, the pandemic has also led to supply chain disruptions, which has affected the availability of certain types of food products and slowed down the growth of the food robotics market. Additionally, the economic downturn caused by the pandemic has led some companies to postpone investments in robotics and automation.

Overall, the impact of the COVID-19 pandemic on the food robotics market has been mixed, with both positive and negative effects. However, the long-term trend towards automation and robotics in the food industry is expected to continue, driven by the need for increased productivity, efficiency, and food safety.

Market Dynamics:

Drivers:

There are several drivers that are contributing to the growth of the food robotics market, including:

  1. Increasing demand for processed foods: With the busy lifestyles of consumers, there has been a growing demand for processed foods that can be prepared quickly and easily. This has led to an increased need for automation and robotics in food processing and preparation.
  2. Need for increased efficiency and productivity: The use of robotics in the food industry can help increase efficiency and productivity, as robots can perform tasks faster and more accurately than humans. This can help reduce costs and increase profitability for food companies.
  3. Growing focus on food safety and hygiene: Food safety and hygiene have become increasingly important concerns for consumers, and the use of robotics in the food industry can help improve safety and hygiene by reducing the risk of contamination and ensuring consistent quality.
  4. Shortage of labor: There is a shortage of skilled labor in the food industry, and the use of robotics can help address this by automating tasks that would otherwise require manual labor.
  5. Technological advancements: There have been significant advancements in robotics technology in recent years, including the development of robots that can handle delicate food items, slice and dice vegetables, mix ingredients, and even cook meals. This has made robotics a more viable option for the food industry.
  6. Government support and funding: Governments in several countries have provided support and funding for the development of robotics technology in the food industry, which has helped drive innovation and growth in the market.

Overall, these drivers are expected to continue to contribute to the growth of the food robotics market in the coming years.

Regional Analysis:

The food robotics market can be analyzed regionally, based on the adoption of food robotics technology in different parts of the world.

  1. North America: North America is a leading market for food robotics, driven by the presence of major food companies and a focus on food safety and hygiene. The United States is a major contributor to the market, with companies such as ABB Ltd., Rockwell Automation, Inc., and Yaskawa Electric Corporation leading the way in developing food robotics solutions.
  2. Europe: Europe is another significant market for food robotics, driven by the increasing demand for processed foods and a need for increased efficiency and productivity in the food industry. Germany, France, and the United Kingdom are the major contributors to the market, with companies such as Kuka AG and Staubli International AG leading the way in developing food robotics solutions.
  3. Asia-Pacific: Asia-Pacific is a rapidly growing market for food robotics, driven by the increasing adoption of automation and robotics in various industries and a growing demand for processed foods. China, Japan, and South Korea are the major contributors to the market, with companies such as Fanuc Corporation and Kawasaki Heavy Industries Ltd. leading the way in developing food robotics solutions.
  4. Rest of the World: The rest of the world, which includes Latin America, the Middle East, and Africa, is a smaller market for food robotics but is expected to see significant growth in the coming years. The market is driven by the increasing demand for processed foods and a need for increased productivity and efficiency in the food industry.

Overall, the food robotics market is a global market, with significant growth potential in all regions of the world. The market is driven by several factors, including the increasing demand for processed foods, the need for increased efficiency and productivity, and a growing focus on food safety and hygiene.

Market Segmentation:

The food robotics market refers to the use of robots and automation technology in the food industry. This can include everything from food processing and packaging to restaurant automation and meal preparation.

The food robotics market can be segmented by application, industry, and geography.

  1. By Application:
  • Packaging and repackaging
  • Palletizing and depalletizing
  • Cutting and slicing
  • Processing
  • Dispensing and vending
  • Others (inspection, sorting, and grading)
  1. By Industry:
  • Bakery and confectionery
  • Beverages
  • Dairy and frozen desserts
  • Meat, fish, and seafood
  • Fruits and vegetables
  • Others (food service, convenience stores, and retail stores)
  1. By Geography:
  • North America
  • Europe
  • Asia Pacific
  • Middle East and Africa
  • Latin America

The food robotics market is expected to grow rapidly in the coming years, driven by increasing demand for efficiency, precision, and consistency in the food industry. Some of the key players in the market include ABB Group, FANUC Corporation, KUKA AG, Yaskawa Electric Corporation, and Kawasaki Heavy Industries Ltd.

Competitive Landscape:

The food robotics market refers to the application of robotics technology in the food industry, from food processing and packaging to food service and delivery. The market is expected to grow significantly in the coming years, driven by increasing demand for automated solutions in the food industry to improve efficiency, reduce costs, and ensure food safety and quality.

Some key players in the food robotics market include:

  1. ABB Ltd.
  2. Fanuc Corporation
  3. Kuka AG
  4. Mitsubishi Electric Corporation
  5. Kawasaki Heavy Industries Ltd.
  6. Yaskawa Electric Corporation
  7. Staubli International AG
  8. Mayekawa Mfg. Co. Ltd.
  9. Bastian Solutions LLC
  10. Universal Robots A/S

These companies provide a range of food robotics solutions, including robotic arms and grippers, automated packaging and palletizing systems, and autonomous mobile robots for food delivery and logistics.

Base Year: 2023
Historic Year: 2016-2022
Forecast: 2024-2035
1 Report Overview
1.1 Study Scope
1.2 Key Market Segments
1.3 Players Covered: Ranking by Food Robotics Revenue
1.4 Market Analysis by Type
1.4.1 Global Food Robotics Market Size Growth Rate by Type: 2023 VS 2032
1.4.2 Low Payload
1.4.3 Medium Payload
1.4.4 High Payload
1.5 Market by Application
1.5.1 Global Food Robotics Market Share by Application: 2023-2032
1.5.2 Palletizing
1.5.3 Packaging
1.5.4 Processing
1.6 Study Objectives
1.7 Years Considered
1.8 Overview of Global Food Robotics Market
1.8.1 Global Food Robotics Market Status and Outlook (2017-2032)
1.8.2 North America
1.8.3 East Asia
1.8.4 Europe
1.8.5 South Asia
1.8.6 Southeast Asia
1.8.7 Middle East
1.8.8 Africa
1.8.9 Oceania
1.8.10 South America
1.8.11 Rest of the World
2 Market Competition by Manufacturers
2.1 Global Food Robotics Production Capacity Market Share by Manufacturers (2017-2022)
2.2 Global Food Robotics Revenue Market Share by Manufacturers (2017-2022)
2.3 Global Food Robotics Average Price by Manufacturers (2017-2022)
2.4 Manufacturers Food Robotics Production Sites, Area Served, Product Type
3 Sales by Region
3.1 Global Food Robotics Sales Volume Market Share by Region (2017-2022)
3.2 Global Food Robotics Sales Revenue Market Share by Region (2017-2022)
3.3 North America Food Robotics Sales Volume
3.3.1 North America Food Robotics Sales Volume Growth Rate (2017-2022)
3.3.2 North America Food Robotics Sales Volume Capacity, Revenue, Price and Gross Margin (2017-2022)
3.4 East Asia Food Robotics Sales Volume
3.4.1 East Asia Food Robotics Sales Volume Growth Rate (2017-2022)
3.4.2 East Asia Food Robotics Sales Volume Capacity, Revenue, Price and Gross Margin (2017-2022)
3.5 Europe Food Robotics Sales Volume (2017-2022)
3.5.1 Europe Food Robotics Sales Volume Growth Rate (2017-2022)
3.5.2 Europe Food Robotics Sales Volume Capacity, Revenue, Price and Gross Margin (2017-2022)
3.6 South Asia Food Robotics Sales Volume (2017-2022)
3.6.1 South Asia Food Robotics Sales Volume Growth Rate (2017-2022)
3.6.2 South Asia Food Robotics Sales Volume Capacity, Revenue, Price and Gross Margin (2017-2022)
3.7 Southeast Asia Food Robotics Sales Volume (2017-2022)
3.7.1 Southeast Asia Food Robotics Sales Volume Growth Rate (2017-2022)
3.7.2 Southeast Asia Food Robotics Sales Volume Capacity, Revenue, Price and Gross Margin (2017-2022)
3.8 Middle East Food Robotics Sales Volume (2017-2022)
3.8.1 Middle East Food Robotics Sales Volume Growth Rate (2017-2022)
3.8.2 Middle East Food Robotics Sales Volume Capacity, Revenue, Price and Gross Margin (2017-2022)
3.9 Africa Food Robotics Sales Volume (2017-2022)
3.9.1 Africa Food Robotics Sales Volume Growth Rate (2017-2022)
3.9.2 Africa Food Robotics Sales Volume Capacity, Revenue, Price and Gross Margin (2017-2022)
3.10 Oceania Food Robotics Sales Volume (2017-2022)
3.10.1 Oceania Food Robotics Sales Volume Growth Rate (2017-2022)
3.10.2 Oceania Food Robotics Sales Volume Capacity, Revenue, Price and Gross Margin (2017-2022)
3.11 South America Food Robotics Sales Volume (2017-2022)
3.11.1 South America Food Robotics Sales Volume Growth Rate (2017-2022)
3.11.2 South America Food Robotics Sales Volume Capacity, Revenue, Price and Gross Margin (2017-2022)
3.12 Rest of the World Food Robotics Sales Volume (2017-2022)
3.12.1 Rest of the World Food Robotics Sales Volume Growth Rate (2017-2022)
3.12.2 Rest of the World Food Robotics Sales Volume Capacity, Revenue, Price and Gross Margin (2017-2022)
4 North America
4.1 North America Food Robotics Consumption by Countries
4.2 United States
4.3 Canada
4.4 Mexico
5 East Asia
5.1 East Asia Food Robotics Consumption by Countries
5.2 China
5.3 Japan
5.4 South Korea
6 Europe
6.1 Europe Food Robotics Consumption by Countries
6.2 Germany
6.3 United Kingdom
6.4 France
6.5 Italy
6.6 Russia
6.7 Spain
6.8 Netherlands
6.9 Switzerland
6.10 Poland
7 South Asia
7.1 South Asia Food Robotics Consumption by Countries
7.2 India
7.3 Pakistan
7.4 Bangladesh
8 Southeast Asia
8.1 Southeast Asia Food Robotics Consumption by Countries
8.2 Indonesia
8.3 Thailand
8.4 Singapore
8.5 Malaysia
8.6 Philippines
8.7 Vietnam
8.8 Myanmar
9 Middle East
9.1 Middle East Food Robotics Consumption by Countries
9.2 Turkey
9.3 Saudi Arabia
9.4 Iran
9.5 United Arab Emirates
9.6 Israel
9.7 Iraq
9.8 Qatar
9.9 Kuwait
9.10 Oman
10 Africa
10.1 Africa Food Robotics Consumption by Countries
10.2 Nigeria
10.3 South Africa
10.4 Egypt
10.5 Algeria
10.6 Morocco
11 Oceania
11.1 Oceania Food Robotics Consumption by Countries
11.2 Australia
11.3 New Zealand
12 South America
12.1 South America Food Robotics Consumption by Countries
12.2 Brazil
12.3 Argentina
12.4 Columbia
12.5 Chile
12.6 Venezuela
12.7 Peru
12.8 Puerto Rico
12.9 Ecuador
13 Rest of the World
13.1 Rest of the World Food Robotics Consumption by Countries
13.2 Kazakhstan
14 Sales Volume, Sales Revenue, Sales Price Trend by Type
14.1 Global Food Robotics Sales Volume Market Share by Type (2017-2022)
14.2 Global Food Robotics Sales Revenue Market Share by Type (2017-2022)
14.3 Global Food Robotics Sales Price by Type (2017-2022)
15 Consumption Analysis by Application
15.1 Global Food Robotics Consumption Volume by Application (2017-2022)
15.2 Global Food Robotics Consumption Value by Application (2017-2022)
16 Company Profiles and Key Figures in Food Robotics Business
16.1 ABB
16.1.1 ABB Company Profile
16.1.2 ABB Food Robotics Product Specification
16.1.3 ABB Food Robotics Production Capacity, Revenue, Price and Gross Margin (2017-2022)
16.2 FANUC
16.2.1 FANUC Company Profile
16.2.2 FANUC Food Robotics Product Specification
16.2.3 FANUC Food Robotics Production Capacity, Revenue, Price and Gross Margin (2017-2022)
16.3 KUKA
16.3.1 KUKA Company Profile
16.3.2 KUKA Food Robotics Product Specification
16.3.3 KUKA Food Robotics Production Capacity, Revenue, Price and Gross Margin (2017-2022)
16.4 Kawasaki
16.4.1 Kawasaki Company Profile
16.4.2 Kawasaki Food Robotics Product Specification
16.4.3 Kawasaki Food Robotics Production Capacity, Revenue, Price and Gross Margin (2017-2022)
16.5 Yaskawa
16.5.1 Yaskawa Company Profile
16.5.2 Yaskawa Food Robotics Product Specification
16.5.3 Yaskawa Food Robotics Production Capacity, Revenue, Price and Gross Margin (2017-2022)
16.6 Staubli
16.6.1 Staubli Company Profile
16.6.2 Staubli Food Robotics Product Specification
16.6.3 Staubli Food Robotics Production Capacity, Revenue, Price and Gross Margin (2017-2022)
16.7 Universal Robots
16.7.1 Universal Robots Company Profile
16.7.2 Universal Robots Food Robotics Product Specification
16.7.3 Universal Robots Food Robotics Production Capacity, Revenue, Price and Gross Margin (2017-2022)
16.8 DENSO
16.8.1 DENSO Company Profile
16.8.2 DENSO Food Robotics Product Specification
16.8.3 DENSO Food Robotics Production Capacity, Revenue, Price and Gross Margin (2017-2022)
16.9 Omron Adept Technologies
16.9.1 Omron Adept Technologies Company Profile
16.9.2 Omron Adept Technologies Food Robotics Product Specification
16.9.3 Omron Adept Technologies Food Robotics Production Capacity, Revenue, Price and Gross Margin (2017-2022)
16.10 SIASUN
16.10.1 SIASUN Company Profile
16.10.2 SIASUN Food Robotics Product Specification
16.10.3 SIASUN Food Robotics Production Capacity, Revenue, Price and Gross Margin (2017-2022)
17 Food Robotics Manufacturing Cost Analysis
17.1 Food Robotics Key Raw Materials Analysis
17.1.1 Key Raw Materials
17.2 Proportion of Manufacturing Cost Structure
17.3 Manufacturing Process Analysis of Food Robotics
17.4 Food Robotics Industrial Chain Analysis
18 Marketing Channel, Distributors and Customers
18.1 Marketing Channel
18.2 Food Robotics Distributors List
18.3 Food Robotics Customers
19 Market Dynamics
19.1 Market Trends
19.2 Opportunities and Drivers
19.3 Challenges
19.4 Porter's Five Forces Analysis
20 Production and Supply Forecast
20.1 Global Forecasted Production of Food Robotics (2023-2032)
20.2 Global Forecasted Revenue of Food Robotics (2023-2032)
20.3 Global Forecasted Price of Food Robotics (2017-2032)
20.4 Global Forecasted Production of Food Robotics by Region (2023-2032)
20.4.1 North America Food Robotics Production, Revenue Forecast (2023-2032)
20.4.2 East Asia Food Robotics Production, Revenue Forecast (2023-2032)
20.4.3 Europe Food Robotics Production, Revenue Forecast (2023-2032)
20.4.4 South Asia Food Robotics Production, Revenue Forecast (2023-2032)
20.4.5 Southeast Asia Food Robotics Production, Revenue Forecast (2023-2032)
20.4.6 Middle East Food Robotics Production, Revenue Forecast (2023-2032)
20.4.7 Africa Food Robotics Production, Revenue Forecast (2023-2032)
20.4.8 Oceania Food Robotics Production, Revenue Forecast (2023-2032)
20.4.9 South America Food Robotics Production, Revenue Forecast (2023-2032)
20.4.10 Rest of the World Food Robotics Production, Revenue Forecast (2023-2032)
20.5 Forecast by Type and by Application (2023-2032)
20.5.1 Global Sales Volume, Sales Revenue and Sales Price Forecast by Type (2023-2032)
20.5.2 Global Forecasted Consumption of Food Robotics by Application (2023-2032)
21 Consumption and Demand Forecast
21.1 North America Forecasted Consumption of Food Robotics by Country
21.2 East Asia Market Forecasted Consumption of Food Robotics by Country
21.3 Europe Market Forecasted Consumption of Food Robotics by Countriy
21.4 South Asia Forecasted Consumption of Food Robotics by Country
21.5 Southeast Asia Forecasted Consumption of Food Robotics by Country
21.6 Middle East Forecasted Consumption of Food Robotics by Country
21.7 Africa Forecasted Consumption of Food Robotics by Country
21.8 Oceania Forecasted Consumption of Food Robotics by Country
21.9 South America Forecasted Consumption of Food Robotics by Country
21.10 Rest of the world Forecasted Consumption of Food Robotics by Country
22 Research Findings and Conclusion
23 Methodology and Data Source
23.1 Methodology/Research Approach
23.1.1 Research Programs/Design
23.1.2 Market Size Estimation
23.1.3 Market Breakdown and Data Triangulation
23.2 Data Source
23.2.1 Secondary Sources
23.2.2 Primary Sources
23.3 Disclaimer

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Case Study- Automotive Sector

One of the key manufacturers of automotive had plans to invest in electric utility vehicles. The electric cars and associated markets being a of evolving nature, the automotive client approached Straits Research for a detailed insight on the market forecasts. The client specifically asked for competitive analysis, regulatory framework, regional prospects studied under the influence of drivers, challenges, opportunities, and pricing in terms of revenue and sales (million units).

Solution

The overall study was executed in three stages, intending to help the client meet its objective of precisely understanding the entire market before deciding on an investment. At first, secondary research was conducted considering political, economic, social, and technological parameters to get a gist of the various aspects of the market. This stage of the study concluded with the derivation of drivers, opportunities, and challenges. It also laid substantial emphasis on understanding and collecting data not only on a global scale but also on the regional and country levels. Data Extraction through Primary Research

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Conclusion

The report aided the client in understanding the market trends, including country-level business scenarios, consumer behavior, and trends in 50 countries. The report also provided financial insights of crucial players and detailed market estimations and forecasts till 2028.


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