Crop Harvesting Robots Market Foreseen to Draw a Promising Growth of CAGR by 2024 | Analysis by Agrobot,Cerescon,Energid Technologies

Global Overview :

Global Crop Harvesting Robots Market size is expected to witness a growth at a significant rate during the forecast period. The focus on increased productivity and farm efficiency, automation leading to minimized use of labour, efficient use of natural resources, population growth, constant innovation in technology, a decline in the availability of workforce and less time-consuming nature are the propelling factors for the growth of the market. The high cost involved in hiring skilled labour and increased pressure on food supply are also the factors leading to the emergence of agricultural robots. The Crop Harvesting Robots market is expected to receive support from government authorities in the future.

Crop Harvesting Robots

An Crop Harvesting Robots is a robot deployed for agricultural purposes. … Emerging applications of robots or drones in agriculture include weed control, cloud seeding, planting seeds, harvesting, environmental monitoring and soil analysis.

Agricultural robots are also known as AgriBots, AgBots and FarmBots. Robots have already transformed the agriculture industry, and with the invention of agricultural drones, they have set a different standard for farming. They are mainly deployed for harvesting the crops. The robotics in agriculture have helped the farmers in identifying the weeds and hoeing. The next strategy in agricultural robotics is to develop autonomous robots which will locate the weeds in crop rows and take a precise action to eliminate them. Agricultural robots lead to lower costs in farming, functioning without fatigue, better quality of yield produced and reduced damage to the soil. They use the technologies involved in computing, navigation, mobility, localization and sensing. The key strategy to build economical robots is to adopt the existing commercial vehicles in the market. The companies engaged in manufacturing of robots are focused on the agricultural industry.

Crop Harvesting Robots Applications

Crop Harvesting Robots  automate slow, repetitive and dull tasks for farmers, allowing them to focus more on improving overall production yields. Some of the most common robots in agriculture are used for:

  • Harvesting and picking
  • Weed control
  • Autonomous mowing, pruning, seeding, spraying and thinning
  • Phenotyping
  • Sorting and packing
  • Utility platforms

Harvesting and picking is one of the most popular robotic applications in agriculture due to the accuracy and speed that robots can achieve to improve the size of yields and reduce waste from crops being left in the field.

These applications can be difficult to automate, however. For example, a robotic system designed to pick sweet peppers encounters many obstacles. Vision systems have to determine the location and ripeness of the pepper in harsh conditions, including the presence of dust, varying light intensity, temperature swings and movement created by the wind.

But it still takes more than advanced vision systems to pick a pepper. A robotic arm has to navigate environments with just as many obstacles to delicately grasp and place a pepper. This process is very different from picking and placing a metal part on an assembly line. The agricultural robotic arm must be flexible in a dynamic environment and accurate enough not to damage the peppers as they’re being picked.

Harvesting and picking robots are becoming very popular among farmers, but there are dozens of other innovative ways the agricultural industry is deploying robotic automation to improve their production yields.

The demand for food is outpacing available farmland and it’s up to farmers to close this gap. Agricultural robots are helping them do just that.

Segmentations :

Product Type Segmentation

Solar-Powered Crop Harvesting Robots

Autonomous Robots

Industry Segmentation

Fruit and Vegetable Harvesting

Grain Harvesting

According to our market research experts, the fruit and vegetable harvesting robots segment will account for the highest growth in the market. Additionally, the report also provides an accurate prediction of the contribution of the various products segments to the growth of the crop harvesting robots market size. These robots can be used as an effective solution by programming the robots to harvest only those fruits and vegetables that are ready to be consumed.

Crop harvesting robots market growth based on geographic regions




With a complete study of the growth opportunities for the companies across regions such as the Americas, APAC, and EMEA, our industry research analysts have estimated that countries in the Americas will contribute to the highest growth of this market throughout the predicted period. With the rising government funding for agriculture mechanization in the region to improve crop yields, the demand for agricultural robots is expected to rise considerably over the predicted period.

Global Key Vendors:

Agrobot,Cerescon,Energid Technologies,FFRobotics,Green Robot Machinery

Harvest Automation,SwarmFarm

Report Highlight :

Crop Harvesting Robots  market research study inspects the current market trends related to the demand, supply, and sales, in addition to the recent developments. Major drivers, restraints, and opportunities have been covered to provide an exhaustive picture of the market. The analysis presents in-complexity information regarding the development, trends, and industry policies and guidelines implemented in each of the geographical regions. Further, the overall directing framework of the market has been thoroughly covered to offer stakeholders a better understanding of the key factors affecting the overall market environment.

Identification of key industry players in the industry and their revenue influence to the overall business or relevant segment associated to the study have been covered as a part of competitive intelligence done through extensive secondary research. Various studies and data published by industry associations, analyst reports, investor presentations, press releases and journals among others have been taken into consideration while conducting the secondary research. Both bottom-up and top down approaches have been utilized to determine the market size of the overall market and key segments. The values obtained are correlated with the primary inputs of the key stakeholders in the value chain of cloud analytics market. The last step involves complete market engineering which includes analysing the data from different sources and existing exclusive datasets while using various data different methods for market breakdown and forecasting.


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