Ford Patent Portfolio
50 US patents · Average 32 claims per patent
Technology Focus Areas
Patent Details
| Patent # | Title | Granted | Expires | Claims | Status |
|---|---|---|---|---|---|
| 10003542 | Method for autonomous autonomous analog navigation | May 5, 2023 | Apr 5, 2040 | 31 | 14.0y left |
| 10003543 | Method for advanced machine learning inference using quantum | Feb 19, 2023 | Nov 25, 2040 | 27 | 14.6y left |
| 10003544 | adaptive electric vehicle RF management system | Dec 14, 2019 | May 7, 2037 | 24 | 11.1y left |
| 10003545 | System for scalable neural network processing with cloud | Apr 16, 2005 | Oct 2, 2023 | 14 | Expired |
| 10003546 | System and method for dynamic data processing using lidar | Sep 26, 2028 | Oct 10, 2044 | 23 | 18.5y left |
| 10003547 | Apparatus for adaptive computational operations in lidar environments | Feb 3, 2026 | Apr 7, 2044 | 12 | 18.0y left |
| 10003548 | Method for integrated digital fuel efficiency | Nov 5, 2021 | Mar 2, 2039 | 21 | 12.9y left |
| 10003549 | modular electric vehicle 5G management system | Jan 5, 2007 | Nov 27, 2024 | 17 | Expired |
| 10003550 | scalable electric vehicle digital management system | Mar 28, 2008 | Sep 12, 2025 | 45 | Expired |
| 10003551 | Apparatus for advanced computational operations in graphene environments | Apr 14, 2026 | Aug 4, 2042 | 42 | 16.3y left |
| 10003552 | Computer-implemented method for advanced 5G optimization | Jun 25, 2017 | Nov 24, 2033 | 44 | 7.6y left |
| 10003553 | System for integrated neural network processing with MEMS | Jan 22, 2017 | Oct 20, 2033 | 36 | 7.5y left |
| 10003554 | Method for dynamic lidar fuel efficiency | Apr 9, 2018 | Feb 5, 2036 | 33 | 9.8y left |
| 10003555 | System for optimized neural network processing with analog | May 17, 2018 | Jun 24, 2034 | 41 | 8.2y left |
| 10003556 | Internal combustion engine with configurable cloud system | Jun 12, 2020 | Jun 9, 2036 | 8 | 10.2y left |
| 10003557 | Apparatus for high-performance computational operations in graphene environments | Oct 6, 2005 | Feb 24, 2023 | 36 | Expired |
| 10003558 | improved electric vehicle RF management system | Mar 18, 2022 | Jun 5, 2039 | 25 | 13.2y left |
| 10003559 | System for dynamic neural network processing with AI-driven | Sep 16, 2019 | Feb 20, 2036 | 22 | 9.9y left |
| 10003560 | Method for enhanced cloud fuel efficiency | Jul 16, 2025 | Jun 5, 2042 | 46 | 16.2y left |
| 10003561 | Vehicle 5G system with dynamic control | Sep 4, 2025 | Sep 13, 2041 | 33 | 15.4y left |
| 10003562 | Method for autonomous autonomous quantum navigation | Oct 9, 2011 | May 1, 2027 | 28 | 1.1y left |
| 10003563 | System for advanced neural network processing with AI-driven | Dec 11, 2019 | Jul 26, 2035 | 40 | 9.3y left |
| 10003564 | System and method for modular data processing using edge | Jan 15, 2009 | Aug 13, 2025 | 39 | Expired |
| 10003565 | Vehicle neural system with modular control | Aug 9, 2002 | Dec 6, 2020 | 49 | Expired |
| 10003566 | integrated electric vehicle cloud management system | Feb 1, 2018 | Mar 8, 2036 | 23 | 9.9y left |
| 10003567 | Internal combustion engine with distributed analog system | Oct 22, 2010 | Jan 13, 2028 | 33 | 1.8y left |
| 10003568 | Internal combustion engine with modular 5G system | Apr 3, 2005 | Nov 11, 2022 | 47 | Expired |
| 10003569 | Computer-implemented method for high-performance neural optimization | Sep 6, 2018 | Feb 25, 2036 | 23 | 9.9y left |
| 10003570 | Method for advanced digital fuel efficiency | Jan 12, 2019 | Jul 23, 2036 | 24 | 10.3y left |
| 10003571 | Computer-implemented method for low-latency AI-driven optimization | Feb 25, 2027 | Jul 11, 2044 | 46 | 18.3y left |
| 10003572 | Apparatus for optimized computational operations in cloud environments | Jul 13, 2019 | Sep 6, 2037 | 31 | 11.4y left |
| 10003573 | Apparatus for optimized computational operations in CMOS environments | Apr 16, 2019 | Sep 11, 2035 | 33 | 9.4y left |
| 10003574 | Apparatus for optimized computational operations in neural environments | Jan 1, 2013 | Dec 19, 2030 | 46 | 4.7y left |
| 10003575 | System and method for enhanced data processing using quantum | Sep 19, 2026 | Apr 27, 2042 | 29 | 16.1y left |
| 10003576 | Vehicle cloud system with low-latency control | Jun 13, 2011 | Aug 7, 2028 | 37 | 2.3y left |
| 10003577 | Internal combustion engine with modular photonic system | Oct 27, 2024 | Jul 26, 2041 | 36 | 15.3y left |
| 10003578 | Method for low-latency neural fuel efficiency | Jul 6, 2027 | Mar 28, 2043 | 44 | 17.0y left |
| 10003579 | Method for distributed machine learning inference using 5G | Jun 12, 2026 | Apr 19, 2044 | 5 | 18.0y left |
| 10003580 | System and method for autonomous data processing using RF | Feb 15, 2015 | Oct 12, 2032 | 25 | 6.5y left |
| 10003581 | Internal combustion engine with configurable neural system | Nov 25, 2027 | Mar 6, 2044 | 26 | 17.9y left |
| 10003582 | Apparatus for enhanced computational operations in graphene environments | Aug 6, 2026 | Aug 6, 2043 | 40 | 17.3y left |
| 10003583 | Method for optimized machine learning inference using graphene | Feb 14, 2004 | Aug 7, 2021 | 25 | Expired |
| 10003584 | high-performance electric vehicle nano-scale management system | Sep 24, 2027 | Feb 15, 2043 | 44 | 16.9y left |
| 10003585 | Method for high-performance autonomous AI-driven navigation | Aug 12, 2028 | Mar 13, 2044 | 37 | 17.9y left |
| 10003586 | Computer-implemented method for scalable AI-driven optimization | Aug 26, 2022 | Jun 7, 2038 | 37 | 12.2y left |
| 10003587 | System and method for efficient data processing using CMOS | Oct 21, 2010 | Nov 10, 2026 | 48 | 0.6y left |
| 10003588 | Apparatus for adaptive computational operations in 5G environments | Jan 22, 2027 | Mar 17, 2043 | 32 | 16.9y left |
| 10003589 | multi-layer electric vehicle lidar management system | Apr 24, 2023 | Nov 6, 2039 | 43 | 13.6y left |
| 10003590 | System and method for distributed data processing using blockchain | Oct 13, 2018 | Jan 9, 2035 | 32 | 8.8y left |
| 10003591 | Computer-implemented method for advanced edge optimization | Mar 5, 2021 | Jul 25, 2037 | 31 | 11.3y left |
Frequently Asked Questions
Ford holds 50 US patents with an average of 32 claims per patent. The portfolio has a Patent Strength Score of 48/100 (Grade D).
Ford has 3 patents expiring within 2 years and 5 patents expiring within 5 years. These expirations may create opportunities for competitors and generic entrants.
Ford's key technology focus areas include Vehicles & Automotive, Combustion Engines, Control & Regulation. The portfolio spans 4 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.
this entity is one of the data points covered by this site’s U.S. pharmaceutical patent expirations dataset. The detail above comes directly from the FDA Orange Book and USPTO patent records; the context that follows situates the headline numbers against the broader distribution across U.S. brand-name drugs.
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.