Abstract: A system and method for encrypting and decrypting information is presented. In some embodiments, an endpoint token management system is provided for facilitating dynamic and random encryption and decryption methods. The system and methods may be employed in virtually any system or network, and may be used to protect virtually any type of data, whether at rest (data storage), in motion (data transfer), or in use. In some embodiments, synchronization points are used as analogs for encryption/decryption keys, enabling the encrypting system and decrypting system to begin randomly altering encryption data in a like-manner, thereby creating a constantly changing encryption field that is virtually impossible to decrypt without authorization.

Abstract: A system and method for encrypting and decrypting information is presented. In some embodiments, an endpoint token management system is provided for facilitating dynamic and random encryption and decryption methods. The system and methods may be employed in virtually any system or network, and may be used to protect virtually any type of data, whether at rest (data storage), in motion (data transfer), or in use. In some embodiments, synchronization points are used as analogs for encryption/decryption keys, enabling the encrypting system and decrypting system to begin randomly altering encryption data in a like-manner, thereby creating a constantly changing encryption field that is virtually impossible to decrypt without authorization.

Abstract: A system and method for encrypting and decrypting information is presented. In some embodiments, an endpoint token management system is provided for facilitating dynamic and random encryption and decryption methods. The system and methods may be employed in virtually any system or network, and may be used to protect virtually any type of data, whether at rest (data storage), in motion (data transfer), or in use. In some embodiments, synchronization points are used as analogs for encryption/decryption keys, enabling the encrypting system and decrypting system to begin randomly altering encryption data in a like-manner, thereby creating a constantly changing encryption field that is virtually impossible to decrypt without authorization.

Abstract: A system and method for encrypting and decrypting information is presented. In some embodiments, an endpoint token management system is provided for facilitating dynamic and random encryption and decryption methods. The system and methods may be employed in virtually any system or network, and may be used to protect virtually any type of data, whether at rest (data storage), in motion (data transfer), or in use. In some embodiments, synchronization points are used as analogs for encryption/decryption keys, enabling the encrypting system and decrypting system to begin randomly altering encryption data in a like-manner, thereby creating a constantly changing encryption field that is virtually impossible to decrypt without authorization.

Abstract: A system and method for encrypting and decrypting information is presented. In some embodiments, an endpoint token management system is provided for facilitating dynamic and random encryption and decryption methods. The system and methods may be employed in virtually any system or network, and may be used to protect virtually any type of data, whether at rest (data storage), in motion (data transfer), or in use. In some embodiments, synchronization points are used as analogs for encryption/decryption keys, enabling the encrypting system and decrypting system to begin randomly altering encryption data in a like-manner, thereby creating a constantly changing encryption field that is virtually impossible to decrypt without authorization.