As part of its recently announced Autonomy Project, Kinze Manufacturing unveiled its precision planting technology, an autonomous planter that operates without a person in the tractor cab.
The first of its kind in row crop production worldwide, the Autonomy Project utilizes autonomous agricultural equipment to complete many tasks on the farm with minimal direct human interaction.
“We are proud to offer the first truly autonomous row crop solution on this scale in the world,” said Susanne Kinzenbaw Veatch, vice president and chief marketing officer at Kinze. “Knowing how important it is to get crops into the ground during the short planting window, we’re excited to offer this system to help growers be productive and make the most of their harvest.”
The Kinze Autonomy Project is designed to reduce the need for skilled operators by taking the human element out of the tractor cab. Kinze plans to market this technology to help growers increase their productivity by allowing them to focus their time and attention elsewhere while performing cursory monitoring of the Kinze autonomous equipment.
How It Works
To begin, the grower loads a field map into the global positioning system including field boundaries and any predesigned non-field areas such as waterways. After the grower takes the tractor to the field and identifies which field it is positioned in, the system generates the most efficient method to plant the field. At that point, the system then positions the tractor and planter at a designated starting point and begins planting until it encounters an obstacle. Grower intervention is required to maneuver around unplanned obstacles.
As a project more than two years in the making, Kinze performed extensive obstacle detection testing to ensure the accuracy and safety of the autonomous equipment. Beginning in a laboratory environment and then in the field, Kinze engineers simulated real-world scenarios to ensure the equipment would detect objects often encountered in the field, such as fence posts, stand pipes, farm animals and other vehicles.
The technology was originally developed in a laboratory setting using computer simulation. Kinze engineers partnered with Jaybridge Robotics, a firm in Cambridge, Mass., to bring that technology from the lab to the field, and to test and refine the work. In addition to planting, the Kinze Autonomy Project could be used to do a variety of other tasks, including nourishing, maintaining and harvesting crops.
For more information visit www.kinze.com.