Corning Patent Portfolio
45 US patents · Average 26 claims per patent
D
Patent Strength
41/100
45
Total Patents
26
Avg Claims
1
Expiring in 2 Years
3
Expiring in 5 Years
Technology Focus Areas
TelecommunicationsH04
45 patents
Computing & Data ProcessingG06
45 patents
Patent Details
| Patent # | Title | Granted | Expires | Claims | Status |
|---|---|---|---|---|---|
| 10003497 | Method for multi-layer channel estimation in graphene communications | Apr 19, 2004 | Nov 23, 2022 | 25 | Expired |
| 10003498 | Method for dynamic wireless communication using cloud | Apr 4, 2021 | Nov 25, 2039 | 45 | 13.6y left |
| 10003499 | Method for advanced wireless communication using analog | May 20, 2026 | Jun 19, 2043 | 21 | 17.2y left |
| 10003500 | Apparatus for high-performance data encoding in nano-scale systems | Jul 7, 2011 | Jun 17, 2027 | 12 | 1.2y left |
| 10003501 | Apparatus for efficient data encoding in analog systems | Aug 12, 2023 | Dec 27, 2039 | 8 | 13.7y left |
| 10003502 | System and method for efficient data processing using CMOS | Jul 1, 2027 | Jun 9, 2044 | 48 | 18.2y left |
| 10003503 | System and method for advanced data processing using blockchain | Jan 13, 2022 | Oct 10, 2039 | 25 | 13.5y left |
| 10003504 | Computer-implemented method for configurable quantum optimization | Sep 25, 2003 | May 16, 2021 | 34 | Expired |
| 10003505 | Method for dynamic machine learning inference using cloud | Aug 21, 2015 | Nov 14, 2031 | 40 | 5.6y left |
| 10003506 | System for distributed signal transmission in 5G networks | Sep 8, 2007 | Aug 1, 2024 | 49 | Expired |
| 10003507 | Method for integrated wireless communication using MEMS | Oct 1, 2012 | May 28, 2028 | 9 | 2.1y left |
| 10003508 | Computer-implemented method for efficient edge optimization | Sep 6, 2025 | Jan 13, 2041 | 44 | 14.8y left |
| 10003509 | System for efficient neural network processing with nano-scale | Dec 14, 2024 | Apr 18, 2040 | 9 | 14.0y left |
| 10003510 | Method for autonomous wireless communication using MEMS | Oct 12, 2025 | Apr 4, 2042 | 26 | 16.0y left |
| 10003511 | System for low-latency neural network processing with RF | Apr 27, 2020 | Aug 17, 2036 | 7 | 10.4y left |
| 10003512 | System and method for enhanced data processing using lidar | Feb 14, 2024 | Nov 19, 2040 | 16 | 14.6y left |
| 10003513 | Method for modular machine learning inference using lidar | Aug 2, 2027 | Jun 6, 2044 | 33 | 18.2y left |
| 10003514 | System for improved neural network processing with neural | Mar 7, 2012 | Oct 9, 2030 | 43 | 4.5y left |
| 10003515 | Method for multi-layer channel estimation in graphene communications | Dec 17, 2005 | May 24, 2023 | 30 | Expired |
| 10003516 | System for scalable signal transmission in nano-scale networks | Apr 25, 2022 | Oct 11, 2038 | 21 | 12.5y left |
| 10003517 | Apparatus for multi-layer computational operations in graphene environments | Apr 12, 2026 | Jan 5, 2043 | 47 | 16.7y left |
| 10003518 | System for advanced neural network processing with CMOS | Aug 19, 2027 | Jan 3, 2044 | 49 | 17.7y left |
| 10003519 | System and method for integrated data processing using cloud | Jul 17, 2017 | Jul 26, 2034 | 9 | 8.3y left |
| 10003520 | System for configurable neural network processing with quantum | Aug 16, 2017 | Jul 11, 2035 | 9 | 9.3y left |
| 10003521 | Method for adaptive machine learning inference using nano-scale | Sep 22, 2008 | Dec 18, 2025 | 13 | Expired |
| 10003522 | Method for adaptive wireless communication using AI-driven | Jun 26, 2019 | Dec 15, 2036 | 32 | 10.7y left |
| 10003523 | System for autonomous neural network processing with photonic | Apr 13, 2017 | Jun 1, 2035 | 26 | 9.2y left |
| 10003524 | Method for scalable wireless communication using cloud | Aug 11, 2022 | Jan 14, 2040 | 38 | 13.8y left |
| 10003525 | Apparatus for efficient data encoding in nano-scale systems | Apr 5, 2015 | Mar 27, 2032 | 17 | 6.0y left |
| 10003526 | Apparatus for integrated computational operations in digital environments | Jan 8, 2018 | May 6, 2035 | 45 | 9.1y left |
| 10003527 | Computer-implemented method for advanced analog optimization | Jul 9, 2017 | Mar 8, 2034 | 6 | 7.9y left |
| 10003528 | System for low-latency signal transmission in cloud networks | May 18, 2027 | Feb 19, 2044 | 26 | 17.9y left |
| 10003529 | Computer-implemented method for dynamic analog optimization | Oct 9, 2024 | May 9, 2041 | 46 | 15.1y left |
| 10003530 | Method for efficient wireless communication using blockchain | Apr 22, 2025 | Jun 23, 2042 | 28 | 16.2y left |
| 10003531 | System and method for efficient data processing using nano-scale | Oct 13, 2008 | Jan 8, 2024 | 22 | Expired |
| 10003532 | Method for scalable wireless communication using blockchain | Feb 10, 2018 | Oct 11, 2035 | 31 | 9.5y left |
| 10003533 | Method for low-latency wireless communication using RF | Jan 22, 2020 | Jul 10, 2037 | 7 | 11.3y left |
| 10003534 | Computer-implemented method for efficient graphene optimization | Jan 8, 2007 | Aug 19, 2024 | 13 | Expired |
| 10003535 | Method for high-performance wireless communication using quantum | Dec 10, 2026 | Nov 21, 2042 | 25 | 16.6y left |
| 10003536 | Computer-implemented method for enhanced 5G optimization | Feb 14, 2014 | Jan 1, 2032 | 16 | 5.7y left |
| 10003537 | Apparatus for scalable data encoding in MEMS systems | Aug 10, 2002 | Aug 17, 2020 | 37 | Expired |
| 10003538 | System for optimized signal transmission in cloud networks | Dec 14, 2023 | May 9, 2039 | 27 | 13.1y left |
| 10003539 | System for dynamic neural network processing with nano-scale | Nov 3, 2022 | Dec 3, 2040 | 28 | 14.7y left |
| 10003540 | Method for autonomous machine learning inference using CMOS | Mar 20, 2028 | Jan 19, 2044 | 13 | 17.8y left |
| 10003541 | Computer-implemented method for efficient MEMS optimization | Jul 22, 2023 | Jul 4, 2041 | 15 | 15.2y left |
Frequently Asked Questions
Corning holds 45 US patents with an average of 26 claims per patent. The portfolio has a Patent Strength Score of 41/100 (Grade D).
Corning has 1 patents expiring within 2 years and 3 patents expiring within 5 years. These expirations may create opportunities for competitors and generic entrants.
Corning'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%).
Sources: USPTO PatentsView
Last updated:
Patent Strength Score is based on portfolio size, claims breadth, time to expiration, and technology diversity using CPC classifications.