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PatentCliff

Ericsson Patent Portfolio

60 US patents · Average 26 claims per patent

D
Patent Strength
43/100
60
Total Patents
26
Avg Claims
4
Expiring in 2 Years
8
Expiring in 5 Years

Technology Focus Areas

Computing & Data ProcessingG06
60 patents
TelecommunicationsH04
60 patents

Patent Details

Patent #TitleGrantedExpiresClaimsStatus
10001806Computer-implemented method for adaptive AI-driven optimizationOct 24, 2019May 16, 2035189.1y left
10001807Computer-implemented method for high-performance RF optimizationApr 17, 2020Apr 28, 20383112.1y left
10001808Computer-implemented method for low-latency photonic optimizationApr 25, 2027Aug 13, 20441418.4y left
10001809System and method for low-latency data processing using cloudSep 1, 2010May 18, 2026420.1y left
10001810System for multi-layer signal transmission in photonic networksNov 6, 2022Mar 8, 20383811.9y left
10001811Method for high-performance machine learning inference using lidarApr 11, 2019Feb 13, 20371510.9y left
10001812System for improved neural network processing with CMOSJul 4, 2005Mar 4, 202132Expired
10001813Method for autonomous channel estimation in edge communicationsApr 19, 2015Jan 25, 203194.8y left
10001814Computer-implemented method for scalable 5G optimizationNov 19, 2017May 8, 203579.1y left
10001815Apparatus for scalable data encoding in photonic systemsMar 27, 2026May 9, 20422516.1y left
10001816Method for advanced wireless communication using AI-drivenSep 15, 2025May 21, 20411615.1y left
10001817Method for modular wireless communication using quantumApr 6, 2009Jan 27, 202535Expired
10001818System and method for improved data processing using AI-drivenMar 25, 2026Jun 24, 20444518.2y left
10001819System for improved signal transmission in lidar networksDec 2, 2025Feb 16, 20413214.9y left
10001820Method for integrated wireless communication using edgeAug 15, 2019Feb 23, 203699.9y left
10001821Computer-implemented method for enhanced edge optimizationApr 7, 2024Jun 7, 20424816.2y left
10001822System for adaptive signal transmission in lidar networksJun 23, 2023Mar 11, 20413514.9y left
10001823Computer-implemented method for optimized neural optimizationJul 15, 2015Jan 21, 2031164.8y left
10001824Method for efficient wireless communication using CMOSApr 24, 2019Apr 26, 20373211.1y left
10001825Method for low-latency wireless communication using analogMar 17, 2011May 11, 2027301.1y left
10001826Apparatus for dynamic data encoding in RF systemsApr 10, 2021Apr 26, 20393413.1y left
10001827System for low-latency neural network processing with MEMSFeb 15, 2016Jul 17, 2034338.3y left
10001828System for multi-layer signal transmission in graphene networksMar 1, 2016Mar 11, 2033246.9y left
10001829Method for improved machine learning inference using 5GJan 12, 2019Nov 21, 20371011.6y left
10001830System for adaptive neural network processing with lidarMar 17, 2022Feb 14, 20404313.9y left
10001831System and method for multi-layer data processing using neuralMay 4, 2004Feb 18, 202015Expired
10001832System for optimized signal transmission in cloud networksMar 4, 2027Mar 12, 20442317.9y left
10001833Method for efficient channel estimation in edge communicationsApr 13, 2022Oct 15, 20404614.5y left
10001834System for modular neural network processing with RFMay 1, 2023Apr 20, 20393813.0y left
10001835Apparatus for integrated data encoding in CMOS systemsMay 4, 2023Aug 7, 20392213.3y left
10001836Method for multi-layer channel estimation in AI-driven communicationsMay 12, 2013Nov 24, 2031225.6y left
10001837Computer-implemented method for autonomous AI-driven optimizationJun 20, 2026Sep 5, 20434817.4y left
10001838Apparatus for dynamic data encoding in photonic systemsSep 22, 2023Feb 18, 20392012.9y left
10001839Apparatus for integrated data encoding in quantum systemsJan 7, 2023Mar 10, 20412114.9y left
10001840System for low-latency neural network processing with grapheneJan 3, 2015Oct 21, 2032496.5y left
10001841Apparatus for enhanced data encoding in digital systemsNov 20, 2018Dec 17, 2034388.7y left
10001842Method for optimized channel estimation in 5G communicationsOct 15, 2026Dec 13, 20421016.7y left
10001843Apparatus for integrated data encoding in quantum systemsApr 12, 2006Feb 24, 20248Expired
10001844Method for adaptive wireless communication using neuralDec 9, 2020Sep 15, 20381612.4y left
10001845Method for dynamic channel estimation in digital communicationsNov 7, 2007Feb 26, 202330Expired
10001846System for adaptive neural network processing with nano-scaleSep 9, 2008Mar 18, 20248Expired
10001847Method for enhanced machine learning inference using quantumFeb 6, 2015Jun 19, 2031435.2y left
10001848System and method for scalable data processing using AI-drivenJul 19, 2006Oct 18, 202435Expired
10001849Method for configurable machine learning inference using MEMSNov 4, 2022Oct 27, 20404114.6y left
10001850Method for dynamic machine learning inference using digitalSep 27, 2020Oct 15, 20372311.5y left
10001851Method for autonomous wireless communication using 5GJun 2, 2026Aug 20, 20422316.4y left
10001852Method for improved channel estimation in MEMS communicationsDec 25, 2022May 26, 20392313.1y left
10001853System and method for distributed data processing using RFAug 20, 2012May 8, 2029273.1y left
10001854Method for improved machine learning inference using cloudAug 17, 2004Jan 9, 202112Expired
10001855Method for multi-layer channel estimation in MEMS communicationsMar 15, 2022Jul 5, 20402514.2y left

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Frequently Asked Questions

Ericsson holds 60 US patents with an average of 26 claims per patent. The portfolio has a Patent Strength Score of 43/100 (Grade D).

Ericsson has 4 patents expiring within 2 years and 8 patents expiring within 5 years. These expirations may create opportunities for competitors and generic entrants.

Ericsson's key technology focus areas include Computing & Data Processing, Telecommunications. 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%).

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Patent Strength Score is based on portfolio size, claims breadth, time to expiration, and technology diversity using CPC classifications.