Case IH announces pilot programme, defines autonomy in agriculture

Case IH Supervised autonomySupervised autonomy, one of the five categories of automation as defined by Case IH, allows an operator in one tractor to supervise the operation of a tractor in the same field without an operator. (Image source: Case IH)Since the reveal of the autonomous concept vehicle, Case IH has been evolving the technology and further defining automation and autonomy as it relates to agriculture

The company has been in discussions with customers around the world to study how this technology can be implemented for maximum benefit in their operations. Now, through its Autonomy and Automation Programme, Case IH is researching and piloting the autonomous technology in real-life scenarios.

“While the autonomous concept vehicle reveals in 2016 showed the world what’s possible with autonomous vehicles, it was just that — a concept. This working tractor provided a platform for us to start discussions with farmers and the industry about the technology needed for High-Efficiency Farming operations today and in the future,” said Robert Zemenchik, Case IH AFS global product manager.

“We’re ready to show how automation and autonomy apply across agriculture and how it can advance the precision farming solutions our customers are currently using on their farms,” Zemenchik added.

Five categories of automation for agriculture

Diverse farming operations around the world require varying levels of automation. Through extensive Customer Driven Product Design research, Case IH found that current and future technology needs fall into five categories of automation for agricultural field applications. The categories and types of activities associated with each include:

Guidance

Coordination and Optimisation

Operator Assisted Automation

Supervised Autonomy

Full Autonomy

“It’s exciting to explore the efficiencies that automation and, eventually, full autonomy can bring to each farming operation,” Zemenchik said. “The logic behind the categories is to provide a vision of what’s possible. They are not linear, and a given fleet may even fit into more than one category at a time. Today, many of our customers are already operating in the Guidance and/or Operator Assisted Automation categories.”

The five categories defined by Case IH start with automating specific tasks on a piece of equipment. Case IH led the way by first providing producers automation technology in the 1990’s with AFS AccuGuide™ autoguidance, and it continues today with more advanced solutions, such as AFS AccuTurn™ automated headland turning technology and AFS Soil Command™ seedbed sensing technology.

Researching and piloting autonomous technology in the field

In 2018, Case IH is collaborating with Bolthouse Farms on an autonomous tractor pilot programme. The goal is to understand how new autonomous technology can be used and how it meets real-world, on-farm requirements.

“The only way to validate on-farm uses for autonomous technology is, quite literally, with field pilots where farmers use it on their own farm, integrate it into their own fleet and conduct their everyday activities,” Zemenchik noted.

As one of the largest carrot producers in North America, Bolthouse Farms is a year-round operation that farms extensive acreage across four states and Canada. The company’s focus on and openness to advanced technology, coupled with their desire to improve productivity, make it ideal for the pilot for the Case IH Autonomy and Automation Programme.

The pilot programme will focus first on primary tillage and deep tillage — both highly repetitive tasks Bolthouse Farms conducts year-round — and a small fleet of autonomous Steiger® Quadtrac® tractors pulling a True-Tandem™ disk harrow or Ecolo-Tiger® disk ripper will be used. This will help evaluate autonomous machine control in a variety of tillage applications, soil types, meteorological conditions and sensing and perception activities.

“One of the primary goals is to receive agronomic and operator feedback on the use of autonomous technology in real-world farm conditions so Case IH can further develop and refine our technological control and machine optimization systems,” Zemenchik said. “Additionally, we will be able to learn from Bolthouse Farms what uses they envision for automation and autonomy that we might not have already thought of.”

Brian Grant, vice-president of agriculture at Bolthouse Farms, stated the autonomous tractor pilot programme as an opportunity to find new ways to make the company’s operation more efficient and deliver high-quality food for the growing population.

“We’re just now starting to play the ‘what if?’ game — where we’re asking ourselves and the Case IH engineers the questions about what autonomous tractors are capable of,” Grant said. “And the answers to these questions are not ‘if.’ It’s ‘when.’”

Case IH will provide periodic updates throughout the course of the pilot programme.

Alain Charles Publishing, University House, 11-13 Lower Grosvenor Place, London, SW1W 0EX, UK
T: +44 20 7834 7676, F: +44 20 7973 0076, W: www.alaincharles.com

twn Are you sure that you want to switch to desktop version?