Patented technology by StraussKey Partners has been designed with the future in mind and the ever-expanding needs of cyber-security and user authenticity. Given the advances in technology and the continual increase of people utilizing the internet or internet based applications for their day-to-day activities, more and more businesses and Governments are catering to that demand by providing virtual access points or entirely providing a service online. Naturally, this movement only furthers the need for increased diligence while conducting business online, for both the consumer and the business provider.

Technologies by StraussKey Partners provide specific abilities to utilize biometric characteristics to encrypt and validate a user based on their own handwriting. These abilities are further enhanced with multi-factor authentication that cannot be replicated, stolen, forged or duplicated.

In addition, StraussKey technologies are ground breaking and hold protections on immutable distributed ledger networks such as blockchains to distribute and utilize across the biometric authentication platform. This ability allows for StraussKey products to be fully immersed in highest level of online security, maintain an instant global verification platform and develop a database of biometric changes over time on a given user.

Proudly, these technologies by StraussKey can be utilized by nearly any industry in the world or adapted to any end user communication application. As an example of the industries which can be enhanced and benefit from StraussKey Partners;

• Governments
• Shipping and Packaging
• Finance and Lending
• Airline and Transportation
• Education
• Pharmaceutical
• Retail
• Auto Dealerships
• Communications
• Social Networks

The above industries and areas are only a sample of where these technologies can be implemented and provide protection for the end user and clarity and verified assurance for the provider. If you feel that you or your business can benefit for the implementation of StraussKey Partner technologies, contact us directly.  

For a more technical description of the claims protected under one of the StraussKey Partners patents regarding biometric verification and authentication, see below;

What is claimed is:

1. A system for transmitting and authenticating an electronic message to a recipient in a sender’s handwriting comprising: a server including a processor and a software application configured to execute instructions including: identifying the electronic message composed by the sender, selecting, at the sender’s request, one of the sender’s handwriting from a plurality of stored handwritings associated with the sender, converting the electronic message composed by the sender into the selected sender’s handwriting, encrypting the sender’s electronic handwriting message to prohibit readability of contents, calculating a proprietary score based on the plurality of stored handwriting associated with the sender, saving the sender’s electronic handwriting message, opening the saved sender’s electronic handwriting message, decrypting the sender’s electronic handwriting message to recover readability of the contents, upon a matching of the proprietary score based on an input sample provided by the sender, transmitting the electronic message to the recipient; a database configured to store information related to the sender’s handwriting in an electronic format, said database is in a communicating relation with the server over a network; at least one electronic device connected to the network; and said at least one electronic device having a user interface for the sender and the recipient to communicate via electronic messaging.

2. A system for transmitting and authenticating an electronic message composed by a sender to a recipient in a sender’s handwriting comprising: a server including a processor and a software application configured to execute instructions including: identifying the electronic message composed by the sender, selecting, at the sender’s request, a sender’s handwriting, converting the electronic message composed by the sender into the selected sender’s handwriting, formatting the sender’s electronic handwriting message to correspond to the formatting of the electronic message composed by the sender, encrypting the sender’s electronic handwriting message to prohibit readability of contents, calculating a proprietary score based on at least one stored handwriting associated with the sender, saving the sender’s electronic handwriting message, opening the saved sender’s electronic handwriting message, decrypting the sender’s electronic handwriting message to recover readability of contents, upon a matching of the proprietary score based on an input sample provided by the sender, transmitting the sender’s electronic handwriting message to the recipient; a database configured to store information related to the sender’s handwriting in the electronic format, said database is in a communicating relation with the server over a network; at least one electronic device connected to the network; and said at least one electronic device defining a user interface for the sender and the recipient to communicate via electronic messaging.

3. The system as recited in claim 2, wherein said server is configured to retrieve predetermined amount of the sender’s handwriting information from said database.

4. The system as recited in claim 2, wherein said software application is configured to generate at least one hash code to be embedded in the sender’s electronic handwriting.

5. The system as recited in claim 4, wherein said software application is configured to locate and identify said at least one hash code embedded in the sender’s electronic handwriting.

6. The system as recited in claim 2, wherein said software application configured to provide at least one encryption algorithm in the encrypting step.

7. The system as recited in claim 6, wherein said at least one encryption algorithm comprises the calculation and matching of a proprietary score.

8. The system as recited in claim 6, wherein said at least one encryption algorithm comprises the use and checking of a known code.

9. The system as recited in claim 6, wherein said at least one encryption algorithm comprises the use and checking of a visual identifier.

10. The system as recited in claim 2, wherein said software application can be located on said at least one electronic device.

11. The system as recited in claim 2 further comprising an embedded widget, wherein said embedded widget is presented on a user interface of a web based email service and configured to initiate access of the sender’s electronic handwriting to the recipient.

12. The system as recited in claim 2 wherein said software application is further configured to destroy the sender’s electronic handwriting message after a predetermined amount of time.

13. A system for transmitting and authenticating an electronic message to a recipient in a sender’s handwriting comprising: a server including a processor and a software application configured to execute instructions including: identifying the electronic message composed by the sender, selecting, at the sender’s request, one of the sender’s handwriting from a plurality of stored handwriting associated with the sender, converting the electronic message composed by the sender into the selected sender’s handwriting, encrypting the sender’s electronic handwriting message to prohibit readability of contents, calculating a proprietary score based on the plurality of stored handwriting associated with the sender, saving the sender’s electronic handwriting message, opening the saved sender’s electronic handwriting message, decrypting the sender’s electronic handwriting message to recover readability of the contents, upon a matching of the proprietary score based on an input sample provided by the sender, transmitting the electronic message to the recipient, destroying the sender’s electronic handwriting message after a predetermined amount of time; a database configured to store information related to the sender’s handwriting in an electronic format, said database is in a communicating relation with the server over a network; at least one electronic device connected to the network; and said at least one electronic device having a user interface for the sender and the recipient to communicate via electronic messaging.