Global Agricultural Robots Market is expected to witness significant growth over the forecast period owing to the widespread use of robots in farming, milking, food production, and animal control to implement automated process for the industry. Robot technology is increasingly used for deploying machines for weed control, which results in increased crop yields. This may drive the agricultural robots market growth. Several benefits offered by agricultural robots such as eliminating herbicides and process automation are also anticipated to fuel market growth. In addition, robots meet stringent safety and hygiene regulations, work for longer time, and relieve human workers of physically demanding tasks, which may also favourably impact the agricultural robots market growth over the next few years.
Agricultural robots are robots deployed for agricultural purposes. The main area of agricultural robots’ application is during the harvesting stage. Robots significantly contribute to the freshness, variety, and quality of food. In addition, various uses of agricultural robots include automated harvesting systems, automated weed control, autonomous navigation in the fields, autonomous ploughing, sorting and packing, row crop, vineyard, orchard, and dairy applications. Agricultural robots are capable of improving the delivery of consistent quality food and implementing efficiency in managing food production, which may propel the agricultural robots market demand. Additionally, agricultural robots improve labour productivity and provide speed and agility to harvest operations. This may also contribute extensively to the global agricultural robots’ market growth.
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High manufacturing and installation costs associated with agricultural robots may pose as a challenge to market growth over the coming years. Additionally, guiding farmers towards a new economic model coupled with lack of skills to operate the robots is estimated to hinder market growth significantly. However, benefits such as increased productivity, decreased labor cost, and decreased farm overheads including seeds, herbicides, and fertilizers may impel market growth.
Technological advancements coupled with increasing consumer disposable income is also expected to favourably impact market growth. Furthermore, extreme weather patterns across the globe have devastated crops leading to increased food prices paired with increasing awareness among consumers about the way their food is produced, and is resulting in difficulties for farmers to keep up with urban growth, which may further drive the global agricultural robots market growth over the forecast period.
Benefits of robotically cultivated crop over traditional cultivated crops such as fertilizer and pesticide-free crops, and organically produced food items are also anticipated to positively impact the agricultural robots market growth. Advanced agricultural robots are able to improve the delivery of consistent quality food and implement efficiency in managing food production. North America is expected to account for majority market share over the next few years owing to early adoption of agricultural robots in the region. Asia Pacific may exhibit high growth over the forecast period owing to increasing adoption of agricultural robots coupled with increasing population leading to rising demand for food in the region.
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Key market participants include ABB Robotics, Jaybridge Robotics, iRobot, Fanuc, Google, Harvard Robobee, Ossian Agro Automation/Nano Ganesh, Harvard Robobee, Precise Path Robotics, IBM, Kuka, NARO, a Japanese Incorporated Administrative Agency, Shibuya Seiki, Lely, Wall-Ye V.I.N. Robot, Australian Centre for Field Robotics, Yamaha, Shibuya Kogyo, KumoTek, Agricultural Robotic Research Labs, Blue River Technology, Sicily Tractor Harvesting, Millennial Net, Japanese National Agriculture and Food Research Organization, Georgia Tech Agricultural Robots, and Yaskawa/Motoman.
Manufacturers emphasize on developing agricultural robots to produce high-value crops and meet the global demand. For instance, a new generation of agricultural robots has been developed with most advanced technology to give maximum performance to a strawberry farm. Harvesting robots can optimize the productivity of the farming business. Farmers can get the best results in a berry farm using automated process. Automated picking collection system improves labour productivity and provides speed and agility to harvest operations.
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