WISeKey Holding Intellectual Property
Innovation is at the heart of WISeKey’s excellence in providing the best digital security solutions of the market
NFT Patent
WISeKey files a patent application for a “System and Method for Providing Persistent Authenticatable NFT the above captioned with the US Patent and Trademark Office (USPTO), under the number US 17/514,296.
The patent application that ensures the provenance, authenticity, persistence, and long-term value of NFTs that are minted on Blockchains using this method. During the minting process, this method allows to ensure that the NFT is not corrupted, incomplete, or ambiguous.
In general, there is a high confidence in the ability of a Blockchain to preserve and store the public key and digital signature information of the NFT along with any subsequent transaction data over long and very long periods of time. However, a Blockchain cannot preserve information that the NFT does not itself include. Such as disclosed in the patent application, it is the information in a persistent off-chain storage that establishes the value and that needs to be authenticated and secured.
NFTs that are not created by this method will not contain enough information to ensure that the minter of the NFT was the originator or possessor of the object at the time of minting or had authority to mint the NFT. Without identifying and establishing the rights of the minter, the long-term value of the NFT is diminished.
The information associated with an NFT can easily degrade over long periods of time. For example, over several decades or even over centuries the owner of an NFT, their descendants, and others may find it difficult to discern whether an NFT is authentic or what object the NFT is associated with, or the location where the object itself is located. There is no assurance that the NFT itself will preserve its ability to authenticate the associated object or that its association with the object will be preserved.
In order to solve these technical problems, the methods protected by the patent application define the structure, composition and minting process of an authenticatable and persistent NFT to establish and maintain long-term value as well as corresponding systems implementing these methods.
Carlos Moreira, WISeKey’s CEO pointed out, “This is an important patent application both for WISeKey as a company and for the NFT ecosystem in general. As this patent application’s methods and systems are adopted, the NFT marketplace will continue to gain acceptance and legitimacy.”
WISeKey has develop a WISe.ART NFT Marketplace version based on this unique patent pending NFT technology; its Marketplace is fully operational and includes new features providing art collectors and artists a secure marketplace and platform where NFT buyers and sellers can easily connect their crypto wallets to instantly purchase or list their NFTs for sale.
NFT Patent Summary Section Patent 29102021 Patent 26102021 Patent 10062022 Patent 21102021 Patent 26102021 Patent 16092022 Patent 31012023FOCUS ON R&D
Innovation is at the heart of WISeKey
Innovation is at the heart of WISeKey’s excellence in providing the best digital security solutions of the market. In 2019, the Company’s R&D expenses represented US$6.4M, namely more than 25% of the annual turnover.
Today, WISeKey holds a rich patent portfolio with more than 100 fundamental individual patents in various domains including the design of secure chips, Near Field Communication (NFC), the development of security firmware and backend software, the secure management of data, the improvement of security protocols between connected objects and advanced cryptography, to mention a few.
Innovation is a continuous process with WISeKey. Today, more than 20 additional patents are pending.
On boarding WISeKey as Your Digital Trust Partner is the guarantee that you will benefit from the state-of-the-art digital security solutions.
| Patent Title | Patent Grant No | Country where the patent has been granted | Origin |
|---|---|---|---|
| Circuit for Transmitting / Receiving Data by Inductive Coupling | 600 07 291 T2 | DE | EP |
| Circuit for Transmitting / Receiving Data by Inductive Coupling | 1,163,734 | FR | EP |
| Circuit for Transmitting / Receiving Data by Inductive Coupling | 1,163,734 | GB | EP |
| Circuit for Transmitting / Receiving Data by Inductive Coupling | 6,540,147 | US | WO |
| Synchronous Bpsk Decoder | 600 20 095 T2 | DE | EP |
| Synchronous Bpsk Decoder | 1,163,771 | FR | EP |
| Synchronous Bpsk Decoder | 1,163,771 | GB | EP |
| Synchronous Bpsk Decoder | 6,587,518 | US | WO |
| Contactless Electronic Tag for Three-Dimensional Object | 1,305,770 | FR | EP |
| Contactless Electronic Tag for Three-Dimensional Object | 6,809,703 | US | WO |
| Tunable Antenna Circuit, Particularly for Contactless Integrated Circuit Reader | 603 12 208 T2 | DE | EP |
| Tunable Antenna Circuit, Particularly for Contactless Integrated Circuit Reader | 1,568,130 | FR | EP |
| Tunable Antenna Circuit, Particularly for Contactless Integrated Circuit Reader | 1,568,130 | GB | EP |
| Tunable Antenna Circuit, Particularly for Contactless Integrated Circuit Reader | 7,113,139 | US | WO |
| RFID-UHF Integrated Circuit | 1,559,066 | DE | EP |
| RFID-UHF Integrated Circuit | 1,559,066 | FR | EP |
| RFID-UHF Integrated Circuit | 1,559,066 | GB | EP |
| RFID-UHF Integrated Circuit | 7,564,340 | US | WO |
| Radio-Communication Device Comprising a Uhf Tag Reader | 8,577,410 | US | |
| Radio-Communication Device Comprising a Uhf Tag Reader | 2,456,275 | DE | EP |
| Radio-Communication Device Comprising a Uhf Tag Reader | 2,456,275 | FR | EP |
| Radio-Communication Device Comprising a Uhf Tag Reader | 2,456,275 | GB | EP |
| Semiconductor Chip Comprising Protection Means Against a Physical Attack | 2,971,366 | FR | |
| Clock Frequency Adjusting Method and Circuit | 2,978,258 | FR | |
| Clock Frequency Adjusting Method and Circuit | 8,816,778 | US | |
| Clock Frequency Adjusting Method and Circuit | 2,549,355 | DE | EP |
| Clock Frequency Adjusting Method and Circuit | 2,549,355 | FR | EP |
| Device and Method to Perform a Parallel Memory Test | 2,810,281 | CH | EP |
| Device and Method to Perform a Parallel Memory Test | 2,810,281 | DE | EP |
| Device and Method to Perform a Parallel Memory Test | 2,810,281 | FR | EP |
| Device and Method to Perform a Parallel Memory Test | 2,810,281 | GB | EP |
| Device and Method to Perform a Parallel Memory Test | 2,810,281 | NL | EP |
| Device and Method to Perform a Parallel Memory Test | ZL201280068807.8 | CN | WO |
| Device and Method to Perform a Parallel Memory Test | 9,202,594 | US | WO |
| Dummy Memory Erase or Program Operations Protected Against Attack | 2,870,605 | DE | EP |
| Dummy Memory Erase or Program Operations Protected Against Attack | 2,870,605 | FR | EP |
| Dummy Memory Erase or Program Operations Protected Against Attack | 2,870,605 | GB | EP |
| Dummy Memory Erase or Program Operations Protected Against Attack | 9,478,294 | US | WO |
| Antenna System for Contactless Microcircuit | 2,867,832 | DE | EP |
| Antenna System for Contactless Microcircuit | 2,867,832 | FR | EP |
| Antenna System for Contactless Microcircuit | 2,867,832 | GB | EP |
| Antenna System for Contactless Microcircuit | ZL201380044948.0 | CN | WO |
| Antenna System for Contactless Microcircuit | 9,311,591 | US | WO |
| Method for Producing a Contactless Microcircuit | 2,992,761 | FR | |
| Method for Producing a Contactless Microcircuit | ZL201380044934.9 | CN | WO |
| Method for Producing a Contactless Microcircuit | 9,218,562 | US | WO |
| Antenna System for Contactless Microcircuit | 3,001,070 | FR | |
| Mémoire comprenant un circuit pour detecter une impulsion transitoire sur une ligne de la mémoire | 3,003,071 | FR | |
| Memory Comprising a Circuit for Detecting a Glitch on a Line of the Memory | 9,741,450 | US | WO |
| Method and Circuit for Adjusting the Frequency of a Clock Signal | 3,120,458 | CH | EP |
| Method and Circuit for Adjusting the Frequency of a Clock Signal | 3,120,458 | DE | EP |
| Method and Circuit for Adjusting the Frequency of a Clock Signal | 3,120,458 | FR | EP |
| Method and Circuit for Adjusting the Frequency of a Clock Signal | 3,120,458 | GB | EP |
| Method and Circuit for Adjusting the Frequency of a Clock Signal | 3,120,458 | IE | EP |
| Method and Circuit for Adjusting the Frequency of a Clock Signal | 3,120,458 | LU | EP |
| Method and Circuit for Adjusting the Frequency of a Clock Signal | 3,120,458 | MC | EP |
| Method and Circuit for Adjusting the Frequency of a Clock Signal | 3,120,458 | NL | EP |
| Method and Circuit for Adjusting the Frequency of a Clock Signal | 10,146,250 | US | WO |
| Communication Interface With Automatic Adaptation Of The Level Of The Input Signal | 3,138,199 | CH | EP |
| Communication Interface With Automatic Adaptation Of The Level Of The Input Signal | 3,138,199 | DE | EP |
| Communication Interface With Automatic Adaptation Of The Level Of The Input Signal | 3,138,199 | FR | EP |
| Communication Interface With Automatic Adaptation Of The Level Of The Input Signal | 3,138,199 | GB | EP |
| Communication Interface With Automatic Adaptation Of The Level Of The Input Signal | 10,476,506 | US | WO |
| Étiquette anti-contrefaçon | 3,021,462 | FR | |
| Method for Protecting the Resale of an Object Provided With an NFC Tag | 3,021,785 | FR | |
| Dual-Mode Anti-Counterfeiting Tag | 3,021,438 | FR | |
| Dual-Mode Anti-Counterfeiting Tag | 3,146,642 | CH | EP |
| Dual-Mode Anti-Counterfeiting Tag | 3,146,642 | DE | EP |
| Dual-Mode Anti-Counterfeiting Tag | 3,146,642 | FR | EP |
| Dual-Mode Anti-Counterfeiting Tag | 3,146,642 | GB | EP |
| Dual-Mode Anti-Counterfeiting Tag | 9,934,460 | US | WO |
| Anti-Counterfeiting Label for Detecting Cork Alterations | 3,021,474 | FR | |
| Anti-Counterfeiting Label for Detecting Cork Alterations | 3,146,643 | CH | EP |
| Anti-Counterfeiting Label for Detecting Cork Alterations | 3,146,644 | CH | EP |
| Anti-Counterfeiting Label for Detecting Cork Alterations | 3,146,643 | DE | EP |
| Anti-Counterfeiting Label for Detecting Cork Alterations | 3,146,644 | DE | EP |
| Anti-Counterfeiting Label for Detecting Cork Alterations | 3,146,643 | FR | EP |
| Anti-Counterfeiting Label for Detecting Cork Alterations | 3,146,644 | FR | EP |
| Anti-Counterfeiting Label for Detecting Cork Alterations | 3,146,643 | GB | EP |
| Anti-Counterfeiting Label for Detecting Cork Alterations | 3,146,644 | GB | EP |
| Dual-Mode Anti-Counterfeiting Label | 3,021,475 | FR | |
| Hybrid Anti-Counterfeiting Label | 3,027,706 | FR | |
| Hybrid Anti-Counterfeiting Label | 3,213,263 | CH | EP |
| Hybrid Anti-Counterfeiting Label | 3,213,263 | DE | EP |
| Hybrid Anti-Counterfeiting Label | 3,213,263 | FR | EP |
| Hybrid Anti-Counterfeiting Label | 3,213,263 | GB | EP |
| Anti-Counterfeiting Tag Maintaining a Functionality After Use | 3,021,439 | FR | |
| Anti-Counterfeiting Tag Maintaining a Functionality After Use | 3,146,645 | CH | EP |
| Anti-Counterfeiting Tag Maintaining a Functionality After Use | 3,146,645 | DE | EP |
| Anti-Counterfeiting Tag Maintaining a Functionality After Use | 3,146,645 | FR | EP |
| Anti-Counterfeiting Tag Maintaining a Functionality After Use | 3,146,645 | GB | EP |
| Anti-Counterfeiting Tag Maintaining a Functionality After Use | 9,893,889 | US | WO |
| Étiquette anti-contrefaçon à sécurité renforcée | 3,038,102 | FR | |
| Étiquette anti-contrefaçon à sécurité renforcée | 3,314,539 | CH | EP |
| Étiquette anti-contrefaçon à sécurité renforcée | 3,314,539 | DE | EP |
| Étiquette anti-contrefaçon à sécurité renforcée | 3,314,539 | FR | EP |
| Étiquette anti-contrefaçon à sécurité renforcée | 3,314,539 | GB | EP |
| Étiquette anti-contrefaçon à sécurité renforcée | 3,314,539 | LU | EP |
| Étiquette anti-contrefaçon à sécurité renforcée | 3,314,539 | MC | EP |
| Étiquette anti-contrefaçon à sécurité renforcée | 3,314,539 | NL | EP |
| Anti-Counterfeit Label Having Increased Security | 10,108,894 | US | WO |
| Crack-resistant counterfeit-proof label | 3,048,836 | FR | |
| Crack-resistant counterfeit-proof label | 3,427,392 | CH | EP |
| Crack-resistant counterfeit-proof label | 3,427,392 | DE | EP |
| Crack-resistant counterfeit-proof label | 3,427,392 | FR | EP |
| Crack-resistant counterfeit-proof label | 3,427,392 | GB | EP |
| Crack-resistant counterfeit-proof label | 3,427,392 | EP | WO |
| Microcircuit sans contact mesurant l’intensité du champ reçu pour adapter sa consommation électrique | 3,079,084 | FR | |
| Digital Low Frequency Detector | 7,710,161 | US | |
| Contactless Interface | 8,611,119 | US | |
| Contactless Interface | 2,739,909 | CA | WO |
| Contactless Interface | 2,340,511 | EP | WO |
| Multi-Threshold Reset Circuit | 7,567,098 | US | |
| Combined Polynomial and Natural Multiplier Architecture | 2,853,424 | FR | |
| Combined Polynomial and Natural Multiplier Architecture | 7,266,579 | US | |
| Interface for Shunt Voltage Regulator in a Contactless Smartcard | 2,491,899 | CA | WO |
| A Means to Deactivate a Contactless Device | 2,891,639 | FR | |
| A Means to Deactivate a Contactless Device | 7,548,164 | US | |
| A Means to Deactivate a Contactless Device | 2,444,682 | GB | WO |
| Data Security | 8,782,433 | US | |
| IC tag label | 10,467,519 | US |
ANTI-COUNTERFEITING TECHNOLOGY
WISeKey IP to protect valuable goods
Invention is at the root of WISeKey’s DNA since its inception in 1999, when the Company was granted its founding patent entitled “Method and apparatus for digital authentication of valuable goods”. This patent is the base for our WISeAuthentic and secure IoT solutions.
The patent has been granted already in:
- Switzerland (699,083)
- United States of America (9,934,460; 9,893,889 and 8,954,742)
- Canada (2,732,247)
- Singapore (2,011,005,832)