Define Precision Agriculture

AGRICULTURE AND RURAL DEVELOPMENT PRECISION AGRICULTURE: AN OPPORTUNITY FOR EU FARMERS - POTENTIAL SUPPORT WITH THE CAP 2014-2020 STUDY Abstract Precision Agriculture (PA) is a whole-farm management approach using information technology, satellite positioning (GNSS) data, remote sensing and proximal data gathering.

Define precision agriculture. “Precision Agriculture is a management strategy that gathers, processes and analyzes temporal, spatial and individual data and combines it with other information to support management decisions according to estimated variability for improved resource use efficiency, productivity, quality, profitability and sustainability of agricultural production.” Precision agriculture (PA) is an approach to farm management that uses information technology ( IT ) to ensure that the crops and soil receive exactly what they need for optimum health and productivity. The goal of PA is to ensure profitability, sustainability and protection of the environment. PA is also known as satellite agriculture,. It was a memorable experience, yet his definition of precision agriculture was equally unforgettable. Precision was not really about GPS, he said — accurate geolocation and field guidance even then were seen as a means to an end. “It’s really all about use of data,” he told me. Precision agriculture seeks to use new technologies to increase crop yields and profitability while lowering the levels of traditional inputs needed to grow crops (land, water, fertilizer, herbicides and insecticides). In other words, farmers utilizing precision agriculture are using less to grow more. GPS devices on tractors, for instance.

PrecisionAnalytics Agriculture is a web-based portal designed specifically for agriculture users. It automatically processes aerial imagery into 2D maps and 3D elevation models, features a continuously expanding library of on-demand analysis tools, and makes sharing data easy. Precision Agriculture. Often abbreviated by those in the industry to Precision Ag or even just PA, precision agriculture refers to the tools and techniques in agricultural production that are developed for optimization.Its principles focus on the granular measurement of crop production. Precision agriculture (PA), satellite farming or site specific crop management (SSCM) is a farming management concept based on observing, measuring and responding to inter and intra-field variability in crops.The goal of precision agriculture research is to define a decision support system (DSS) for whole farm management with the goal of optimizing returns on inputs while preserving resources. Precision Agriculture is a way to maintain the economies of scale realized by using big equipment, but using automation and technology to manage cultivation on units smaller then a field. Generally, the smaller the unit of management, the greater the benefit to the plants. Ideally, each plant would be managed to its own unique needs, stresses.

Precision agriculture (PA) can be an intimidating topic. High-tech terms like drones, robots, sensors, geo-mapping and big data come up when discussing precision ag. Not only are those concepts misunderstood and complex, but they all come with price tags— and often large ones. All of this complexity and expense have led to the relatively slow […] Agriculture definition is - the science, art, or practice of cultivating the soil, producing crops, and raising livestock and in varying degrees the preparation and marketing of the resulting products. How to use agriculture in a sentence. Precision definition is - the quality or state of being precise : exactness. How to use precision in a sentence. Did You Know? Precision Agriculture in Crop Production Site-specific crop management (SSM) uses a variety of technologies to manage different parts of a field separately. Natural, inherent variability within fields means that mechanized farming could traditionally apply only crop treatments for “average” soil, nutrient, moisture, weed, and growth conditions.

The First Wave of Precision Agriculture. Precision agriculture was born with the introduction of GPS guidance for tractors in the early 1990s, and the adoption of this technology is now so widespread globally that it’s probably the most commonly-used example of precision ag today. However, the term precision agriculture, often abbreviated PA, is more widely used. In a 2016 report on how big data will revolutionize the global food chain, McKinsey & Company define precision agriculture as: “a technology-enabled approach to farming management that observes, measures, and analyzes the needs of individual fields and crops”. Precision agriculture is a technology and information-based system used to manage farm inputs and to identify, analyze, and manage spatial and temporal variability in all aspects of agricultural production system within fields to maximize sustainability, profitability, and environmental safety (McBratney et al., 2005). N nutrition can be. ‘Precision Agriculture is a management strategy that gathers, processes and analyzes temporal, spatial and individual data and combines it with other information to support management decisions according to estimated variability for improved resource use efficiency, productivity, quality, profitability and sustainability of agricultural.

Precision agriculture (PA), in India, is synonymous to Remote sensing, GIS, GPS, VRA and VRT. These are old technologies and during last 3-4 decades enough research has been carried out. But the. Precision agriculture seeks to exert more control over a production system by recognising variation and managing different areas of land differently, according to a range of economic and environmental goals. To do this, the tools of Precision Agriculture are used to collect large amounts of data on crop or animal performance and the attributes. Precision Agriculture and Hyperspectral Sensors: Monitoring Against Drought, Disease, and Nutrient Stress. Crop monitoring for nutrients, water-stress, disease, insect attack and overall plant health is a vital aspect of successful agricultural operations. Traditionally this has been carried out by visual examination of crops on the ground or. Precision agriculture is the peak of today’s stage of the agricultural revolution, which started in the early 20th century with increasing mechanization. It proceeded in 1990 when new methods of genetic modification were introduced. To understand the advantages, let’s first define what precision agriculture is and why it is beneficial for.

Over the past 20 years, precision agriculture technology has changed so quickly and has become an information-intensive endeavor. Growers, ag retailers, and others seeking to acquire new systems or upgrade existing equipment need to be fluent in terminology used in communications, hardware, software, and other areas in order to make informed decisions at the time of purchase.