Feed Robotics Market by Product Type (Feed Pushers, Feed Mixers, Feeding robots), Farming Environment (Indoor, Outdoor), End Use Application (Dairy Farms, Poultry Farms, Swine Farm), Functionality, Farm Size & Region - Global Forecast to 2029
[245 Pages Report] According to MarketsandMarkets, The feed robotics market is projected to grow from USD 1.6 billion in 2024 to USD 2.5 billion by 2029, at a CAGR of 11.5% during the forecast period. This remarkable growth is driven by the increasing adoption of automation in agriculture, aiming to enhance efficiency, and reduced labor cost. Agriculture sector faces a significance labor shortage worldwide and the feed robotics provides a viable solution to this by automating the day to day task and reducing the dependency on skilled labors. Another prominent factor driving the industry is the rising awareness and adoption of precision farming. These sustainable farming practices are gaining traction as this approach ensures optimal utilization. By Region, the market has been segmented by North America, Europe, Asia Pacific, South America, & the Rest of the World (RoW). With ongoing advancements and strategic collaboration, the global feed robotics market is poised for substantial growth, promising to revolutionize the agricultural sector in coming years.
The major driver of the market include is the shortage of skilled labour. An automatic feeding system offers several advantages, including continuous, autonomous operation once set, which conserves the energy typically expended through manual feeding. The adoption of feed robotics is not limited to large scale farms but is also gaining traction among the small and medium sized enterprises owing to its scalability and flexibility of systems.
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Feed Robotics Market Dynamics
Driver: Increasing Food Safety Regulations
To align the Food Safety and Standards Authority of India (FSSAI) requirements for animal feed with the standards specified by the Bureau of Indian Standards (BIS) and the Department of Animal Husbandry & Dairying (DAHID), as well as to address safety issues identified in recent quality and safety surveys of commodities like milk, it has been decided to re-implement these regulations effective from January 28, 2021. This alignment aims to ensure a cohesive and comprehensive approach to animal feed safety, enhancing overall food safety standards. The decision to re-operationalize the regulations reflects a proactive measure to mitigate risks and improve the quality and safety of animal feed, thereby safeguarding public health and ensuring the integrity of the food supply chain.
The integration of robotics into the food industry, particularly in the handling and feeding processes, significantly enhances food safety and cleanliness standards, thereby helping to maintain and comply with stringent regulatory requirements. Automating the handling of food with feed robots significantly reduces the need for human touch, thereby minimizing the risk of contamination from human hands, which can carry pathogens and other contaminants. This reduction in direct human contact ensures that food remains uncontaminated throughout the handling process. Additionally, feed robots are designed to operate in environments that adhere to high cleanliness standards. Constructed from materials that are easy to clean and sanitize, these robots consistently meet hygiene requirements without the variability associated with human performance. This consistency is crucial for maintaining the high sanitation levels demanded by food safety regulations.
Restraint: High Initial Investment/ Maintenance/ and Technical Issues
Feeding systems in aquaculture require regular maintenance to ensure optimal performance and prevent issues that can adversely affect the operation. One of the most critical yet often neglected tasks is cleaning the feeders. Feeding fish in foul weather can cause feed and feed dust to get wet, forming a mucky, sticky paste that adheres to surfaces. This wet feed dust accumulates around feeder chutes, nozzles, spinners, and walkways, creating an unsightly and unhygienic mess.
Additionally, calibrations are a vital procedure for both centralized automated feeding systems and some non-centralized feed systems. Calibration ensures that when a feeder is set to dispense a specific amount of feed, such as 1 kg, it accurately dispenses that amount, rather than 0.8 kg or 1.2 kg. Incorrect calibration can lead to significant problems for farmers, such as overfeeding or underfeeding, which can be costly and impact fish growth and health. For large-scale operations dispensing tons of feed per day, even a small deviation in calibration can result in substantial discrepancies.
Opportunity: Expanding Feed Robotics Market in APAC
The significant growth in robot installations, particularly in China, presents a substantial growth opportunity for the Feed Robotics Market. With annual installations reaching a record high of 290,258 units in 2022, representing a 5% increase from the previous year, China has solidified its position as the world's largest market for robotics. This growth trend is particularly noteworthy given that it surpasses the impressive 57% jump recorded in 2021 compared to 2020.
The establishment of production plants by both domestic and international robot suppliers in China reflects the industry's recognition of the country's dynamic market potential. As capacity continues to increase to meet demand, this creates a conducive environment for the adoption of advanced technologies, including feed robotics, to support various sectors, including agriculture and aquaculture.
The latest World Robotics report highlights a 5% year-on-year growth in industrial robot installations in factories globally in 2022.
Overall, the remarkable growth in robot installations, particularly in key markets like China and Japan, signifies a fertile ground for the Feed Robotics Market to thrive. With increasing recognition of the benefits of automation in enhancing agricultural operations, there is a growing opportunity to leverage this momentum and drive innovation in feed robotics to meet the evolving needs of the industry.
Challenge: High Power Consumption
High energy consumption poses a significant challenge to the Feed Robotics Market, especially amidst the rising global energy consumption trend. As automated and robotic production systems become increasingly prevalent, the issue of electricity usage in robotics becomes more pronounced. Like any machine, robots require energy to operate efficiently. However, the escalating demand for energy necessitates intensified efforts towards its rational utilization, both on a global scale and within individual countries. Additionally, the substantial electricity consumption associated with robotics also exerts a notable impact on the environment.
Addressing the challenge of high energy consumption in the Feed Robotics Market requires innovative solutions aimed at optimizing energy efficiency without compromising operational performance. This could involve the development of energy-efficient robotic designs, the integration of renewable energy sources, and the implementation of smart energy management systems. Moreover, promoting awareness and incentivizing the adoption of energy-saving practices among manufacturers and end-users can contribute to reducing energy consumption in robotic operations. Therefore, addressing the challenge of high energy consumption is crucial for the sustainable growth of the Feed Robotics Market.
Feed Robotics Market Ecosystem
Prominent companies in this market include well-established, financially stable manufacturers of feed robotics. These companies have been operating in the market for several years and possess a diversified product portfolio, state-of-the-art technologies, and strong global sales and marketing networks. Prominent companies in this market include Lely (Netherlands), GEA Group AG (Germany), DeLaval (Europe), Triolet BV (Netherlands), Hetwin (Austria), Rovibec Agrisolutions (Quebec).
Based on application, the Dairy Farms segment has the highest implementation of Feed Robotics
According to Organisation for Economic Cooperation and Development, FAO Agricultural Outlook 2021-2023, world milk production is projected to grow at an annual rate of 1.7%, reaching 1,020 million tons by 2030. This growth rate surpasses that of most other major agricultural commodities. The average annual growth of dairy herds worldwide is estimated at 1.1%, while the average yield growth is projected at 0.7% annually?
These projections underscore the strong expansion of the dairy sector globally, highlighting a strong and growing market for dairy products. This increasing demand in the dairy industry correlates with the higher application of feed robotics, as advancements in dairy farming technologies are crucial to meeting production needs. Companies like Lely, DeLaval, and GEA Group AG are at the forefront of this trend, with their feed robotics technologies predominantly utilized in dairy farms to enhance efficiency and productivity?.
Feed pushers, feeding systems, and feed mixers are used primarily in large farms.
Operating a large farm requires significant labor, particularly for tasks such as feeding livestock. Ensuring precision and consistency in feeding practices is difficult on such a scale. Manual feeding often results in inconsistencies, where some animals might receive too much or too little feed, which can negatively impact their health and productivity.
In large farms, automated feeding systems minimize feed wastage by delivering the precise amount of feed needed for each animal, thereby eliminating overfeeding and spillage. This reduction in waste lowers costs and decreases the environmental impact. Additionally, these systems enhance animal welfare by creating a stress-free feeding environment?
The APAC region is experiencing the fastest growth in feed robotics.
The rapid growth of robotics in the APAC region is evident with numerous emerging startups making significant strides. For instance, in China, XYZ Robotics has secured funding of USD 100 million, and RobotPlusPlus has garnered USD 22.9 million. Similarly, in India, startups such as SVAYA Robotics and Niqo Robotics are spearheading the AI-powered robotics revolution in agriculture. This surge in investment and innovation highlights the region's commitment to advancing robotics technology. As these startups continue to develop and deploy cutting-edge solutions, they are likely to drive substantial growth in the agricultural sector. Governments have been actively supporting the adoption of agricultural technologies to meet increasing demand and enhance productivity in the sector. They have introduced various technology initiatives in recent years to assist domestic agriculture producers in improving efficiency through the adoption of relevant technologies. For instance, Malaysia launched a national IoT plan in 2016 with a focus on agriculture, aiming to achieve significant economic output by 2020 through smart farming technologies. Similarly, Thailand increased government investment in IT for agriculture in 2017, particularly for enhancing data analytics capabilities. In the Philippines, the establishment of the first state-funded smart farm in 2018 aimed to encourage the adoption of advanced technologies and smart farming methods. These initiatives are pivotal in fostering the growth of feed robotics and other automated technologies across the Asia-Pacific (APAC) region.
The increasing adoption of robotics will enhance efficiency, productivity, and sustainability in farming practices. Consequently, the rise of these technological advancements is expected to boost the demand and development of feed robotics across the APAC region, further solidifying its position as a leader in agricultural innovation.
Key Market Players
Key Market Players in this include Lely ( Netherlands), DeLaval (Europe), GEA Group AG (Germany), Triolet BV (Netherlands), Hetwin (Austria), Rovibec Agrisolutions (Quebec)
Other players include AGCO Corporation (US), Fullwood JOZ (Netherlands), Jeantil (France), Kuhn SAS (France), BouMatic (US), Wasserbauer Fütterungssysteme (Austria).
These players in this market are focusing on increasing their presence through agreements and collaborations. These companies have a strong presence in North America, Asia Pacific, and Europe. They also have manufacturing facilities along with strong distribution networks across these regions.
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Report Metric |
Details |
Market size estimation |
2024–2029 |
Base year considered |
2023 |
Forecast period considered |
2024–2029 |
Units considered |
Value (USD) |
Segments Covered |
By Product Type, By End User Application, By Functionality, By Farm Size, and by Region |
Regions covered |
North America, Europe, Asia Pacific, South America, and RoW |
Companies studied |
Key Players:
|
This research report categorizes the feed robotics market based on product type, end user application, farm size, functionality and region.
Feed Robotics market:
By Product Type
- Feeding Systems
- Feed Pushers
- Feed Mixers
- Other Product Types
By End User Application
- Dairy Farms
- Poultry Farms
- Swine Farms
- Other Farms
By Farming Environment
- Indoors
- Outdoors
By Functionality
- Autonomous
- Semi - Autonomous
By Farm Size
- Small Sized Farms (<50 HA)
- Medium Sized Farms (<50 - 200 HA)
- Large Sized Farms (>200 HA)
By Region
- North America
- Europe
- Asia Pacific
- South America
- Rest of the World (RoW)
Recent Developments
- In October 2023, Lely partnered with Konrad Pumpe GmbH to integrate their dosing systems into Lely's feeding portfolio, distributed through the Lely Center network. This partnership expands Konrad Pumpe's business area and allows Lely to offer enhanced feeding solutions with the Lely Vector automatic feeding system, resulting from successful previous collaborations.
- In August 2023, The GEA Exclusive Program was established with Kerbl GmbH for selected GEA distribution partners, allowing farmers to centrally purchase GEA-designed accessories for livestock, milk production, and calf rearing.
- In March 2023, This enhancement with Trimble bolsters AGCO's comprehensive technology portfolio, which includes guidance, autonomy, precision spraying, connected farming, data management, ands sustainability solutions. As a result, AGCO's combined Precision Ag revenue is now projected to surpass USD 2.0 billion by 2028.
- In October 2021, BouMatic has announced the acquisition of SAC, a strategic move aimed at expanding its product portfolio and enhancing its position in the dairy equipment industry. This acquisition will enable BouMatic to offer a broader range of innovative solutions to dairy farmers, reinforcing its commitment to improving efficiency and productivity in dairy operations globally.
- In November 2020, The Production Unit and the 7,000 m² hall will house a new research and development center and a new training center. Fully automatic feeding solutions are increasingly complex, with digitalization becoming the prevailing trend.
Frequently Asked Questions (FAQ):
What is the current size of the feed robotics market?
The Feed Robotics market is projected to grow from USD 1.6 billion in 2024 to USD 2.5 billion by 2029, at a CAGR of 11.5% during the forecast period.
Which are the key players in the market, and how intense is the competition?
Key Market Players in this include Lely ( Netherlands), DeLaval (Europe), GEA Group AG (Germany), Triolet BV (Netherlands), Hetwin (Austria), Rovibec Agrisolutions (Quebec)
The market for feed robotics is expanding rapidly, with more mergers, acquisitions, and product launches. Companies in this sector are also heavily investing in research and development.
Which region is projected to account for the largest share of the feed robotics market?
According to the International Federation of Robotics (IFR) on June 28, 2023, the European Union's (EU) 27 member states installed nearly 72,000 industrial robots in 2022, marking a 6% increase compared to the previous year. This demonstrates Europe's leading position in the field of feed robotics and automation.
What kind of information is provided in the company profile section?
The provided company profiles deliver crucial details, including a thorough business summary that covers different segments, financial results, geographic presence, revenue distribution, and business revenue breakdown. They also offer insights into product lines, key achievements, and expert analyst opinions to better illustrate the company's potential.
What are the factors driving the feed robotics market?
Stricter food safety regulations are driving the need for more advanced and reliable feeding systems in agriculture, while the growing demand for automation is pushing the industry to adopt more robotic solutions. Continuous advancements in robotic technology are enabling the creation of more efficient and effective feeding systems. Additionally, the development of new tech robots capable of analyzing real-time data is revolutionizing the management of feeding processes. .
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The study involved two major approaches in estimating the current size of the feed robot market. Exhaustive secondary research was done to collect information on the market, peer, and parent markets. The next step was to validate these findings, assumptions, and sizing with industry experts across the value chain through primary research. Both top-down and bottom-up approaches were employed to estimate the complete market size. After that, market breakdown and data triangulation were used to estimate the market size of segments and subsegments.
Secondary Research
This research study involved the extensive use of secondary sources—directories and databases such as Bloomberg Businessweek and Factiva—to identify and collect information useful for a technical, market-oriented, and commercial study of the market.
In the secondary research process, various sources such as annual reports, press releases & investor presentations of companies, white papers, food journals, certified publications, articles from recognized authors, directories, and databases were referred to identify and collect information.
Secondary research was mainly used to obtain key information about the industry’s supply chain, the total pool of key players, and market classification and segmentation as per the industry trends to the bottom-most level, regional markets, and key developments from both market- and technology-oriented perspectives.
Primary Research
Extensive primary research was conducted after obtaining information regarding the feed robotics market scenario through secondary research. Several primary interviews were conducted with market experts from both the demand and supply sides across major countries of North America, Europe, Asia Pacific, South America, and the Rest of the World. Primary data was collected through questionnaires, emails, and telephonic interviews. The primary sources from the supply side included various industry experts, such as Chief X Officers (CXOs), Vice Presidents (VPs), Directors from business development, marketing, research, and development teams, and related key executives from distributors and key opinion leaders. Primary interviews were conducted to gather insights such as market statistics, data on revenue collected from the products and services, market breakdowns, market size estimations, market forecasting, and data triangulation. Primary research also helped in understanding the various trends related to feed robotics product types, farm size, functionality, end user application, and region. Stakeholders from the demand side, such as farmers, dairy farm, poultry farm, swine farms, & aquaculture owners were interviewed to understand the buyer’s perspective on the suppliers, products, and their current usage of feed robotics and the outlook of their business, which will affect the overall feed robotics market.
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COMPANY NAME |
designation |
Lely ( Netherlands) |
Research |
DeLaval (Europe) |
Sales Manager |
GEA Group AG (Germany) |
Product Sales Manager |
Triolet BV (Netherlands) |
Product Developer |
Hetwin (Austria) |
Managing Director |
Rovibec Agrisolutions (Quebec) |
Senior Software Engineer |
Market Size Estimation
Both the top-down and bottom-up approaches were used to estimate and validate the total size of the feed robotics market. These approaches were also used extensively to determine the size of various subsegments in the market. The research methodology used to estimate the market size includes the following details:
- The key players in the industry and the overall markets were identified through extensive secondary research.
- All shares, splits, and breakdowns were determined using secondary sources and verified through primary sources.
- All possible parameters that affect the market covered in this research study were accounted for, viewed in extensive detail, verified through primary research, and analyzed to obtain final quantitative and qualitative data.
- The research included the study of reports, reviews, and newsletters of top market players, along with extensive interviews for opinions from leaders, such as CEOs, directors, and marketing executives.
Global feed robotics market: Supply-side analysis.
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Global feed robotics market: Top-Down Approach.
Data Triangulation
After arriving at the overall market size from the estimation process explained above, the total market was split into several segments and subsegments. The data triangulation and market breakdown procedures were employed, wherever applicable, to estimate the overall feed robotics market and arrive at the exact statistics for all segments and subsegments. The data was triangulated by studying various factors and trends from the demand and supply sides. The market size was also validated using both the top-down and bottom-up approaches.
Market Definition
The feed robotics refers to the specialized application of robotic technology designed to automate the process of feeding in various context such as enhance efficiency, precision, and consistency in the feed management, therefore optimizing productivity and reducing labor costs. The feed robotics market offers a range of robotic feeders, feed pushers, and feed mixers that are designed to increase feeding operations' accuracy and management. These technologies contribute to improved animal health and productivity by ensuring that animals receive the proper amount of feed at the right time. The market is expanding as a result of developments in automation and robotics, the demand for more productive agricultural methods, and the desire to lower labor costs without sacrificing animal welfare.
Key Stakeholders
- Feed Robotics manufacturers, suppliers, and processors
- Research & development institutions
- Traders & retailers
- Distributors, importers, and exporters
-
Regulatory bodies
- Organizations such as the Food and Drug Administration (FDA), United States Department of Agriculture (USDA), European Food Safety Agency (EFSA), European Union (EU) Directorate-General for Agriculture and Rural Development, World Organisation for Animal Health (OIE), Animal Feed Industry Association (AFIA), Animal Feed Manufacturers Association (AFMA)
- Government agencies
- Intermediary suppliers
- Universities and industry bodies
- End users
Report Objectives
MARKET INTELLIGENCE
- To determine and project the size of the feed robotics market with respect to the product type, end use application, farm size, functionality, and regions in terms of value over five years, ranging from 2024 to 2029.
- To identify the attractive opportunities in the market by determining the largest and fastest-growing segments across regions
- To provide detailed information about the key factors influencing market growth (drivers, restraints, opportunities, and challenges)
- To analyze the opportunities in the market for stakeholders and provide details of the competitive landscape for market leaders.
- To analyze the micro-markets with respect to individual growth trends, prospects, and their contribution to the total market.
- To identify and profile the key players in the feed robotics market.
- To understand the competitive landscape and identify the major growth strategies adopted by players across the key regions.
Available Customizations:
With the given market data, MarketsandMarkets offers customizations according to company-specific scientific needs.
The following customization options are available for the report:
Product Analysis
- Product Matrix, which gives a detailed comparison of the product portfolio of each company.
Geographic Analysis
With the given market data, MarketsandMarkets offers customizations according to company-specific scientific needs.
- Further breakdown of the European feed robotics market into key countries.
- Further breakdown of the Rest of Asia Pacific feed robotics market into key countries.
Company Information
- Detailed analyses and profiling of additional market players (up to five)
Growth opportunities and latent adjacency in Feed Robotics Market