Abstract: A system and method for the cryptographic exchange of information is provided which affords maximum security, process simplicity and participant convenience to any software application, business process or device used to communicate messages. The system provides the ability to openly exchange encryption keys for each communication between participants in a totally secure fashion. Along with the key exchange, the system and method can be used to secure all accompanying message content with a derived message key. The system and method derives the message key in such a manner that the original encryption key cannot positively be determined from a discovered message key. The system and method additionally provide a technique for authenticated exchange of new encryption keys such that the new key is completely dissimilar from any previous key, effectively eliminating any chained key knowledge.
Abstract: A secure electronic digital streaming system provides absolute system security and user-defined message security for electronic digital streaming between two public entities. These digital streams can be of any kind provided the contents are created using binary (0 or 1) bits; the unique and total possible combinations of which will be defined in a master alphabet of 64 6-bit combinations. The system encrypts and decrypts source digital stream data using a series of message keys that are derived from a private, numeric original key known only by both parties sending and receiving streams. The message key suite absolutely secures the original key from discovery. The system translates digital stream content binary bits into numbers based on a message key suite dependent distribution of the master bit alphabet and then uses the related patent mathematics to encrypt the numbers. The formulas return every possible number value, except the input value, and are completely dependent on the message key suite.
Abstract: A secure electronic monetary transaction system (SEMTS) provides absolute security for electronic financial transactions. These transactions can be of any kind provided they are numeric in content and of known length. The SEMTS encrypts and decrypts source numeric data using a private, numeric key known only by both parties in the transaction. The secure distribution of these keys will be under the same methods that the financial institutions use to distribute the original source data such as credit cards, account numbers, etc. The system uses nine simple, open formulas for translating source numbers into encrypted cipher numbers. These formulas return every possible value, except the input value, and are completely dependent on the key. Because there are no hidden parts, the architecture of the SEMTS is completely available to anyone in the public sector. This open architecture makes stealing the cipher numbers worthless. The only way to break a number is to know the key.
Abstract: A secure electronic messaging system (SEMS) provides absolute system security and user-defined message security for electronic messaging between two public entities. These messages can be of any kind provided the contents are created using a defined master alphabet of 81 characters or less. The SEMS encrypts and decrypts source message data using a series of message keys that are derived from a private, numeric original key known only by both parties sending and receiving messages. The message key suite absolutely secures the original key from discovery. The secure distribution of these original keys will be under the same methods that the public entities would use to discover each other such as opening an account, making a public inquiry for membership, etc. The system is based on the simple mathematics for secure electronic monetary transactions that translates source numbers into encrypted cipher numbers.