Patent ID: 11900455
Assignee: nan
Field: IT methods for management (Electrical engineering)
Classification: CPC G  H | IPC G  H

Claim 7:
8. A system for a secure communication environment configured to manage a decentralized venture capital (“VC”) fund in a decentralized autonomous organization (“DAO”), comprising:
at least one memory configured to store computer program code instructions; and at least one processor configured to execute said computer program code instructions to:
receive, in the secure communication environment, a plurality of information about a collateral that underwrites a first number of stable coins where the stable coins are funding for said decentralized venture capital fund;
receive, in the secure communication environment, a request for an investment from a company;
receive, in the secure communication environment, from a plurality of shareholders of said decentralized venture capital fund, a first plurality of votes based on said request;
approve said request automatically, in the secure communication environment, when a first number of approval votes, based on said first plurality of votes, exceeds a predetermined investment threshold;
transfer, in the secure communication environment, to said company, a second number of stable coins from said first number of stable coins as the investment based on the approval;
transfer, in the secure communication environment, at least one stable coin, from said second number of stable coins, to a seller as payment for at least one of a good and service; and
convert, in the secure communication environment, said at least one stable coin into at least one share option in said decentralized venture capital fund,
where the secure communication environment is generated by downloading a CCS application, from a central control system (CCS), which includes at least one processor and memory configured to store computer program code instructions, to the computers of users of the decentralized autonomous organization, the CCS application generates secure authentication messages between the users and the CCS, the secure authentication messages implement authentication with encryption that:
store securely, on a sender's computer, a plurality of authentication and authorization information, based on a use of at least one of a cryptographic public encryption key and a cryptographic symmetric encryption key in a process that encrypts a secure authentication message;
decompose, by the CCS application running on the sender's computer, an encrypted version of said secure authentication message into a block of linked and ordered subcomponents that are stored randomly across a first plurality of member computers that are selected from a predetermined list of participating computers, a final subcomponent in the link of subcomponents flagged as a last subcomponent;
randomly select, by the CSS application running on the sender's computer, three member computers on which to copy a first subcomponent of the secure authentication message;
randomly select, by each of the three computers which have a copy of the first subcomponent of the secure authentication message, a member computer for which to copy a second subcomponent of the secure authentication message, and repeat the process that randomly selects a member computer to copy the next ordered subcomponent of the secure authentication message by the computer that copied the ordered subcomponent that immediately precedes the next ordered subcomponent, until the final subcomponent of the block which is flagged as the last subcomponent has been copied, which generates three copies of blocks of linked and ordered subcomponents of the secure authentication message, where each computer which stores a copy of a subcomponent knows only of the computer which was randomly selected by that computer;
use a unique, configurable authorization identifier as a file name for each individual subcomponent, in said link of subcomponents, on each member computer that stores a subcomponent;
periodically, by the computer that stores a newest copy of the first subcomponent of the secure authentication message, select randomly a member computer for which to copy the first subcomponent of the secure authentication message and generate a new block of linked and ordered subcomponents of the secure authentication message;
delete an oldest block of linked and ordered subcomponents of the secure authentication message after the generation of the new block of linked and ordered subcomponents of the secure authentication message;
recombine, on a receiver's computer, the encrypted version of the secure authentication message from the new block of linked and ordered subcomponents of the secure authentication message after a verification, by the receiver's computer, of the unique, configurable authorization identifier transmitted by the sender's computer; and
recover said secure authentication message, based on the use of at least one of a cryptographic private encryption key and said cryptographic symmetric encryption key in a process that decrypts said encrypted version of said secure authentication message, where said cryptographic private encryption key matches said cryptographic public encryption key.