Deere Patent Portfolio
45 US patents · Average 25 claims per patent
Technology Focus Areas
Patent Details
| Patent # | Title | Granted | Expires | Claims | Status |
|---|---|---|---|---|---|
| 10004277 | System for autonomous signal transmission in blockchain networks | Oct 4, 2006 | Mar 22, 2022 | 44 | Expired |
| 10004278 | Method for configurable channel estimation in neural communications | Nov 17, 2010 | Nov 26, 2027 | 20 | 1.6y left |
| 10004279 | Method for efficient wireless communication using graphene | Nov 21, 2024 | Mar 28, 2042 | 13 | 16.0y left |
| 10004280 | Computer-implemented method for advanced nano-scale optimization | Nov 21, 2004 | Apr 3, 2022 | 39 | Expired |
| 10004281 | System for advanced signal transmission in nano-scale networks | Jun 11, 2021 | Jan 16, 2038 | 11 | 11.8y left |
| 10004282 | System for improved neural network processing with lidar | May 24, 2020 | Mar 28, 2036 | 40 | 10.0y left |
| 10004283 | System for integrated signal transmission in lidar networks | Nov 15, 2003 | Jan 16, 2020 | 8 | Expired |
| 10004284 | Method for autonomous channel estimation in cloud communications | Oct 16, 2007 | Jun 10, 2024 | 48 | Expired |
| 10004285 | Apparatus for modular computational operations in MEMS environments | Aug 15, 2012 | Jan 26, 2030 | 14 | 3.8y left |
| 10004286 | Method for multi-layer machine learning inference using quantum | Nov 22, 2021 | Feb 12, 2037 | 31 | 10.9y left |
| 10004287 | Method for configurable wireless communication using AI-driven | Dec 26, 2028 | Feb 24, 2044 | 29 | 17.9y left |
| 10004288 | Computer-implemented method for dynamic AI-driven optimization | May 20, 2022 | Nov 1, 2039 | 43 | 13.6y left |
| 10004289 | Method for integrated channel estimation in AI-driven communications | Oct 10, 2013 | Mar 7, 2031 | 25 | 4.9y left |
| 10004290 | System and method for autonomous data processing using quantum | Jan 10, 2024 | Jul 2, 2040 | 9 | 14.2y left |
| 10004291 | System for optimized neural network processing with graphene | Jun 2, 2005 | Jun 20, 2023 | 35 | Expired |
| 10004292 | Method for enhanced channel estimation in AI-driven communications | Mar 26, 2023 | Dec 3, 2040 | 30 | 14.7y left |
| 10004293 | System and method for improved data processing using digital | Jun 8, 2027 | Dec 27, 2044 | 11 | 18.7y left |
| 10004294 | System for low-latency neural network processing with MEMS | Aug 28, 2015 | Apr 21, 2032 | 29 | 6.0y left |
| 10004295 | Method for enhanced wireless communication using edge | Mar 1, 2026 | Aug 11, 2043 | 23 | 17.3y left |
| 10004296 | Method for improved wireless communication using AI-driven | Dec 1, 2006 | Sep 25, 2023 | 26 | Expired |
| 10004297 | System for efficient neural network processing with photonic | Aug 8, 2021 | Jun 5, 2037 | 22 | 11.2y left |
| 10004298 | System for improved signal transmission in MEMS networks | Jan 2, 2021 | Feb 13, 2038 | 9 | 11.9y left |
| 10004299 | System for low-latency signal transmission in quantum networks | Mar 10, 2011 | Dec 8, 2027 | 26 | 1.7y left |
| 10004300 | Apparatus for configurable computational operations in edge environments | Aug 8, 2020 | Jan 27, 2038 | 7 | 11.8y left |
| 10004301 | System and method for advanced data processing using quantum | Sep 23, 2010 | Nov 27, 2028 | 30 | 2.6y left |
| 10004302 | System for modular signal transmission in nano-scale networks | Aug 15, 2023 | May 7, 2041 | 9 | 15.1y left |
| 10004303 | Method for enhanced channel estimation in digital communications | Aug 21, 2019 | Jan 15, 2035 | 36 | 8.8y left |
| 10004304 | Computer-implemented method for enhanced blockchain optimization | Jun 24, 2024 | Mar 21, 2040 | 45 | 14.0y left |
| 10004305 | Apparatus for optimized data encoding in digital systems | Mar 21, 2022 | Apr 10, 2039 | 6 | 13.0y left |
| 10004306 | Method for low-latency wireless communication using analog | Jun 10, 2023 | May 14, 2041 | 46 | 15.1y left |
| 10004307 | Apparatus for dynamic data encoding in analog systems | Nov 24, 2027 | Jul 4, 2043 | 8 | 17.2y left |
| 10004308 | Method for dynamic machine learning inference using AI-driven | Jul 5, 2021 | Jun 3, 2038 | 41 | 12.2y left |
| 10004309 | System and method for dynamic data processing using edge | Sep 2, 2025 | Apr 14, 2042 | 11 | 16.0y left |
| 10004310 | Method for high-performance channel estimation in neural communications | Feb 3, 2020 | Feb 17, 2036 | 45 | 9.9y left |
| 10004311 | Method for dynamic channel estimation in neural communications | Mar 18, 2027 | May 24, 2043 | 36 | 17.1y left |
| 10004312 | Computer-implemented method for multi-layer RF optimization | Dec 16, 2020 | Sep 4, 2036 | 12 | 10.4y left |
| 10004313 | Apparatus for configurable computational operations in AI-driven environments | Jan 5, 2015 | Feb 11, 2033 | 37 | 6.9y left |
| 10004314 | System for scalable signal transmission in neural networks | Nov 10, 2010 | Jan 23, 2026 | 38 | Expired |
| 10004315 | System for configurable neural network processing with edge | May 1, 2024 | Jul 23, 2041 | 45 | 15.3y left |
| 10004316 | Apparatus for dynamic data encoding in photonic systems | Jun 23, 2010 | Apr 4, 2027 | 37 | 1.0y left |
| 10004317 | Method for efficient wireless communication using digital | Feb 12, 2022 | Sep 21, 2038 | 7 | 12.5y left |
| 10004318 | Method for advanced machine learning inference using neural | Jan 16, 2020 | Nov 16, 2038 | 29 | 12.6y left |
| 10004319 | Method for improved machine learning inference using edge | Sep 17, 2019 | Mar 14, 2035 | 6 | 8.9y left |
| 10004320 | Computer-implemented method for efficient MEMS optimization | Dec 27, 2024 | Jun 6, 2041 | 11 | 15.2y left |
| 10004321 | Apparatus for advanced data encoding in graphene systems | Oct 6, 2026 | Dec 16, 2044 | 12 | 18.7y left |
Frequently Asked Questions
Deere holds 45 US patents with an average of 25 claims per patent. The portfolio has a Patent Strength Score of 40/100 (Grade D).
Deere has 3 patents expiring within 2 years and 6 patents expiring within 5 years. These expirations may create opportunities for competitors and generic entrants.
Deere's key technology focus areas include Telecommunications, Computing & Data Processing. The portfolio spans 2 distinct technology classifications (CPC codes).
The Patent Strength Score (0-100, A-F) benchmarks a company's patent portfolio quality based on portfolio size (30%), claims breadth (25%), time remaining to expiration (25%), and portfolio diversity across technology areas (20%).
Patent Strength Score is based on portfolio size, claims breadth, time to expiration, and technology diversity using CPC classifications.
The this entity record above pulls directly from the FDA Orange Book and USPTO patent records. What follows is the per-entity context — how this entity sits in the broader U.S. pharmaceutical patent expirations distribution and which underlying factors drive the headline numbers.
Every number on this page links back to the FDA Orange Book and USPTO patent records; the methodology page describes the inputs, refresh cadence, and known limitations of the underlying data product.
For readers using this page as a decision input, the related-entity pages elsewhere on the site provide the comparison set. The most useful comparison for this entity is typically a peer within U.S. brand-name drugs with similar size, similar exposure, or similar geography — not the national-level summary alone.
Source: USPTO patent search, 2026.