Agricultural Robot for Automatic Ploughing and Seeding

As more farmers demand farm equipment, agricultural robots have been developing in leaps and bounds. A global supply chain has helped companies develop their technology quicker, and updated standards and regulations define the precise outline of agriculture robots.

These improvements are helping to bring the technology to the next level, and they are making it easier for farmers to choose an ideal agricultural robot for their farms. Read on to learn more about the technology behind agricultural robots.


The Slopehelper is a farm automation system that can harvest a wide range of crops in the form of ripe fruit. The autonomous horizontal load balancing and self-balancing cargo platform make it a highly versatile farming machine.

In addition to harvesting, Slopehelper is also a seasonal worker that can be connected to a front loader. With a battery life of 14 hours and multiple control options, Slopehelper is a sustainable agriculture solution.

Agricultural Robot for Automatic Ploughing and Seeding

The Slopehelper can operate unsupervised in muddy fields and on steep slopes. The system can carry two tons of load and is capable of operating in all types of weather. In addition to this, the Slopehelper can operate autonomously and has sensors that allow it to adapt to changing situations in real-time.

As the agriculture industry continues to advance, experts expect future technologies to help increase profitability. The Slopehelper has been built with safety in mind and was tested in the harshest environments.

With a battery and an electric motor, it can do tasks such as

  • Tillage
  • Fertilization
  • Pruning
  • Spraying
  • Harvesting

The Slopehelper is highly cost-efficient. The Slopehelper uses only PeK automotive technologies and parts, resulting in a price three times cheaper than comparable agricultural machinery.

PeK Automotive’s team of engineers is also responsible for making the Slopehelper, and the company began regional production last season. The company will also oversee the Slopehelper’s use in the field. It will be sold by PeK Automotive, which will begin worldwide distribution by 2022.

The Slopehelper is a unique type of agricultural robot. It has a self-cleaning mechanism that is connected to its frame via leaf springs. It avoids the typical design problems of caterpillar vehicles. The typical caterpillar design consists of a suspension that is attached to the wheels, preventing them from operating in optimal conditions.

The Slopehelper, unlike its predecessors, is designed in a way that is similar to a conventional motor car. It is light enough to be transported on a standard trailer and has a highly stable and convenient mode for working in the field.

Fendt Xaver

The Xaver is an agricultural robot developed by Fendt. It uses MQTT, the OASIS standard messaging protocol for the Internet of Things, to send and receive data. This allows the robot to be monitored in real-time from anywhere in the world, even when it is on the move.

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Its design is based on the swarm concept, with a group of robots swarming over a field to seed. Originally, the robots were part of the MARS project (Mobile Agricultural Robot Swarms), but now have undergone an update to improve their capabilities.

Agricultural Robot for Automatic Ploughing and Seeding

Xaver agriculture robots are designed to make precision seeding easy by using a seed coulter. The Xaver features a 20-litre seed hopper and is capable of sowing 90,000 seeds per hectare. The robot’s compact size makes it easy to manoeuvre and is ideal for small-scale farmers.

The seeding process is accurate within a centimetre. The Fendt Xaver is also lightweight, with just under 150 kilograms of empty weight. The Xaver agriculture robot is the next step in precision farming technology. It can cover 120 acres in 24 hours by seeding six acres at a time.

Its battery-powered design reduces energy use and emissions. It uses 80 per cent less ground pressure than a conventional high-horsepower tractor. In addition to precision seeding, the Fendt Xaver can reduce the costs associated with labour.

The Fendt Xaver is an autonomous agricultural robot that combines precision seeding and a robot. It uses up to 90% less energy than conventional farming machines and produces zero emissions. The robot can operate independently, or be connected to a farm’s telemetry system.

A Fendt Xaver can be controlled by the same system that controls a manned tractor. This allows the farmer to manage both the automated and manned machines using the same guidance.


The agricultural robot, TerraSentia, weighs around 30 pounds and is over a foot wide. It uses computer vision and machine learning to collect plant trait data in the field. The robot has been trained to count corn plants based on 300 pictures.

It also has the ability to detect diseases, abiotic stress, and other traits that can help farmers improve their crops. The company plans to build 100 more TerraSentia robots this year. The cost of the machine is low because the sensors are built into the tractor, and the robot itself is fairly easy to build.

Agricultural Robot for Automatic Ploughing and Seeding

The company is developing a maintenance barn for the robot. It can be wiped down with a cleaning solution and replaced with a new battery if needed. A fully charged battery can be swapped for the TerraSentia.

The robot can also be dumped into a truck for transport. The robot then uploads data to the cloud for analysis. The TerraSentia robot is one of the smallest agricultural robots currently on the market. It weighs only 30 pounds and measures traits in crops.

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It collects data that scientists use for predictive analytics. Its learning capabilities allow it to analyze data from thousands of factors. It can even detect the occurrence of diseases. The robot is also an agricultural robot that can collect data from plant breeders and research plots.

The TerraSentia robot uses an onboard sensor to measure plant traits and other traits. The robot uses a nonlinear model predictive control (NMC) algorithm to make observations.

It also uses machine vision filters to detect stems and plants. The system also has the ability to detect diseases and plant growth. This makes the TerraSentia robot a very valuable tool for productive agroforestry.

American Robotics

A Boston-based agtech company is producing an agricultural robot called Scout. Designed for small farms, this agricultural robot can perform tasks such as plant cover crops, pull weeds, and diagnose plant diseases. The goal of the robot is to help farmers grow better crops.

American Robotics produces agricultural robots that can perform a variety of tasks, including seeding, harvesting, and crop inspection. These robots are able to collect data that farmers need to improve their yields.

Although the technology is relatively new, it has already achieved great strides. While the “Vegebot” cannot match the speed of human hands, it’s still an impressive achievement for the agricultural industry. The “Vegebot” has proven its efficiency in picking lettuce, while other agricultural robots such as Harvest Croo are designed to pick strawberries.

These new robots are not yet ready for the market, but the rapid advancement of robotic technology bodes well for the future of the agricultural industry. The TerraSentia robot has several features to make it a powerful tool. It measures

  • Plant height
  • Stem diameter
  • Leaf-area index
  • Stand count
  • The number of live fruit and grain-producing plants

The robot also gathers data from plant breeders’ plots. It can also measure plant phenotypes. With these features, the robotic farmbot can identify which plants are healthy and which are not. With a growing population, the world population is expected to reach 9 billion by 2050.

Agriculture will have to double to meet the demand, and a new generation of farming robots is on the way. The company is also working with the government to help farmers implement their vision into reality.

While agricultural robots are not yet ready for mass production, they are already helping farmers in many ways. In some cases, one automated farm is able to achieve the same yields as an acre of conventional farmland.

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Cambridge Consultants

Mamut is an AI-powered self-drive agricultural robot developed by Cambridge Consultants, a subsidiary of Altran. It features a stereo camera, lidar, compass, and six 360-degree cameras, which map the row of a field, orchard, or vineyard.

Mamut’s sensors allow it to collect detailed data at the plant level, which drone monitoring cannot. Mamut’s capabilities are essential for agriculture, particularly for speciality crop growers. Agri-tech innovations are the key to transforming agriculture.

Today, combine harvesters have largely replaced scythes and rakes. Similarly, an intelligent facility for net-zero livestock production will enable farmers to reduce their reliance on inorganic fertiliser and increase the nutritional value of their grass. In the near future,

Cambridge Consultants aims to revolutionize the agriculture industry by developing the most advanced robotic tools. The company’s agriculture robot, called Mamut, explores a field and collects data on individual plants, allowing growers to accurately predict yields and crop health.

Its onboard AI enables it to navigate without fixed radio infrastructure. Its cameras capture detailed crop data at the plant level, enabling growers to optimize yields. In addition to providing accurate predictions, Mamut also automates data capture.

The company is currently using a 500-acre orchard to test its autonomous navigation and mapping capabilities. Mamut has been undergoing field tests over the past eight hours, covering approximately 15 miles.

Researchers are testing the effectiveness of real-time mapping and route planning as well as using different sensor combinations to determine the most accurate and efficient routes. But it is not yet ready for commercial use. It will be available to researchers at REAP and on the market by 2020.

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Agricultural Robot for Automatic Ploughing and Seeding