Company patents
Precision Planting LLC
Precision Planting LLC's patent strategy reveals a surprising recent shift, with its dominant category, Material & Chemical Analysis (33.7% of portfolio), experiencing a significant decline of -58.1% so far in 2026 after a -35.4% drop in 2025. While many categories saw sharp declines in 2026, Flow / Volume Measurement stands out as an emerging focus, with an impressive 300.0% year-over-year growth in 2026, reaching 8 patents so far this year, indicating a potential strategic pivot towards this area.
Patent Trend by Technology Area
Yearly patent publications since 2023
Product themes
Product-level themes inferred from filings since 2023, with category chips showing where each theme appears. Select a theme to filter the patents below.
362 US filings (since 2023) · 12 categories · 18 themes
Technologies for improving the efficiency, precision, and environmental impact of spraying applications in agriculture, including smart nozzles, boom control, and real-time sensing.
Systems and methods for accurately controlling the volume, location, and characteristics of sprayed fluids, often involving sensors, feedback, or specific nozzle geometries for precise application.
Utilizing optical sensors and image processing to detect, classify, and analyze crops, terrain features, or harvested material to inform automated machine actions and decision-making.
Methods and compositions for identifying, quantifying, or characterizing specific biological molecules (e.g., nucleic acids, proteins, metabolites, antibodies) or microbial species, often for diagnostic, prognostic, or quality control applications.
Technologies for efficiently collecting, conveying, separating, and managing harvested materials, including quality control, blending for desired parameters, and processing of biomass.
Systems and components designed for precise, automated manipulation, transfer, and dispensing of liquid samples and reagents, often involving pipettes, robotic arms, and specialized sample containers.
Spraying devices designed to handle, mix, or independently dispense multiple distinct fluid components, often with mechanisms for selection, blending, or sequential application.
Innovations in the mechanical design and functionality of cutting, collecting, or processing components directly interacting with crops or ground cover.
Innovations in nozzle internal geometry, actuation, or multi-fluid mixing to achieve specific spray patterns, droplet sizes, or performance characteristics, especially for challenging fluids or conditions.
Integrated systems for automatically dispensing, mixing, and often packaging multiple components to create a final product, frequently incorporating sensors and control for quality, customization, and unattended operation.
Techniques and systems for optimizing pump operation, including capacity modulation, energy management, pulsation reduction, and precise fluid dispensing to improve performance and reduce energy consumption.
Systems and methods for accurately measuring and compensating for position, orientation, and movement errors in mechanical systems, often for manufacturing, robotics, or optical alignment.
Self-contained or modular devices designed to automate and integrate multiple steps of molecular diagnostic assays, from sample preparation to result interpretation, often for point-of-care or high-throughput applications.
Techniques utilizing various physical principles (e.g., radar, capacitance, ultrasound, thermal, optical, force) to accurately determine the fill level or presence of substances in containers, often under challenging conditions.
Technologies for measuring the flow rate, level, or composition of mixtures containing multiple fluid phases (e.g., liquid-liquid, liquid-gas, liquid-solid suspensions), often employing specialized sensing principles to differentiate components.
Miniaturized devices that manipulate small volumes of fluids (nanoliters to picoliters) through microchannels to perform laboratory functions like mixing, separation, reaction, and detection on a single chip.
Methods and components for converting power into mechanical motion to drive pump mechanisms, encompassing electric motors, hydraulic actuators, and specialized motion converters like ball screws or solenoids.
Dynamically adjusting machine parameters such as cutting height, travel speed, or power output in response to real-time environmental conditions, crop characteristics, or operational goals.
Patents
Showing 1-1 of 1
Adaptive Machine Operation & Control