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Machine Monitoring and Maintenance Scheduling: Precision Farming

COST:$0

(value up to $988)
Explore Course Details

Sector

Length

15 Hours

Format

Languages

English

Start Dates

June 1, 2023

Registration Deadlines

March 15, 2024

About this microcredential

There are eight microcredentials within the Precision Farming series and they can be taken in any order or on their own.

Precision farming is a management concept that observes, measures, and responds to field variability in crops. Do this, precision farming uses the latest techniques and technologies to address the carbon footprint, clean technologies, and the environmental impact of farming. Using existing software applications to track equipment, maintenance, and failure rates, participants will explore how using equipment monitoring can improve maintenance.

Microcredentials in this series:

What will you learn?

Upon completion of this microcredential, learners will be able to:

  1. Survey of existing software applications that track equipment, maintenance, and failure rates.
  2. Explore how using equipment monitoring including position and use at locations, improved maintenance can be achieved.
  3. Discuss ‘smart’ equipment data collection that supports maintenance.

How does this prepare you for the low carbon economy?

Precision farming practices using the latest techniques and technologies address various aspects of carbon footprint and clean technologies. For example, using data on field conditions and states of weed growth, the latest sprayer technology can target spray weeds without carpet-spraying the entire field. By analyzing growth and temporal soil conditions, such as moisture content, and soil nutrient levels, targeted fertilizing can reduce overall fertilizer use thereby reducing greenhouse gas emissions. It is well known that much of the applied fertilizer runs off into waterways, or is broken down by microbes in the soil, releasing the potent greenhouse gas nitrous oxide into the atmosphere. By only targeting the field locations that require the fertilizer and applying only what is needed in those areas, the greenhouse threat is reduced. An understanding of how smart equipment can assist with the reduction of greenhouse gases, not only regarding fertilizer application but also pesticide use and seeding practices, is vital.