What do you think?
Rate this book
Dynamical Passwords: Advanced Usage
Dynamical passwords are parametric, dynamic, recoverable, generated on demand, pseudo
random passwords, that are not stored in an electronic or paper form.
The most important property of dynamical passwords is that they do not require storage on
electronic devices or on paper. They are generated on demand when users need them. Because
they are not stored on electronic devices or on computers it is not possible to hack them using
traditional password cracking tools.
The second property of dynamical passwords is simplicity of generation of multiple strong
passwords for many accounts and/or devices. With one click of a button these passwords will be
generated.
The third property their ability to be quickly recovered or to get their cryptographic private keys,
which are based on these passwords.
The fourth property is that there is a super easy management of password changes. Users use
the same key, but only change a date to generate a new password.
With dynamical passwords users and security managers will be able to find optimal trade-offs
between convenience for users and a required security level for businesses, government
agencies, and organizations.
In the first e-book (Dynamical Introduction), answers were given to the following
How do you generate multiple, secure, recoverable passwords in a simple way?
How do you manage multiple passwords without saving them on computers or paper?
Why are online password managers more secure against brute force attacks than
offline password managers?
Why are dynamical password generators more secure than online/offline password
managers against hacking and brute force attacks?
How do you generate recoverable secure private keys for crypto-currency wallets or
data encryption with dynamical passwords?
In this e-book, readers find answers on the following
How do you increase security of dynamical passwords with recursion rules?
How do you increase security of dynamical passwords with selection rules?
How do you increase security of dynamical passwords with modification rules?
How do you increase security of dynamical passwords with permutation rules?
How do you increase security of dynamical passwords with association rules?
How do you increase security of dynamical passwords with dummy iterations?
How do you increase security of dynamical passwords with unreal dates?
How do you increase security of financial transactions with dynamical passwords?
How to defend online accounts against phishing attacks?
random passwords, that are not stored in an electronic or paper form.
The most important property of dynamical passwords is that they do not require storage on
electronic devices or on paper. They are generated on demand when users need them. Because
they are not stored on electronic devices or on computers it is not possible to hack them using
traditional password cracking tools.
The second property of dynamical passwords is simplicity of generation of multiple strong
passwords for many accounts and/or devices. With one click of a button these passwords will be
generated.
The third property their ability to be quickly recovered or to get their cryptographic private keys,
which are based on these passwords.
The fourth property is that there is a super easy management of password changes. Users use
the same key, but only change a date to generate a new password.
With dynamical passwords users and security managers will be able to find optimal trade-offs
between convenience for users and a required security level for businesses, government
agencies, and organizations.
In the first e-book (Dynamical Introduction), answers were given to the following
How do you generate multiple, secure, recoverable passwords in a simple way?
How do you manage multiple passwords without saving them on computers or paper?
Why are online password managers more secure against brute force attacks than
offline password managers?
Why are dynamical password generators more secure than online/offline password
managers against hacking and brute force attacks?
How do you generate recoverable secure private keys for crypto-currency wallets or
data encryption with dynamical passwords?
In this e-book, readers find answers on the following
How do you increase security of dynamical passwords with recursion rules?
How do you increase security of dynamical passwords with selection rules?
How do you increase security of dynamical passwords with modification rules?
How do you increase security of dynamical passwords with permutation rules?
How do you increase security of dynamical passwords with association rules?
How do you increase security of dynamical passwords with dummy iterations?
How do you increase security of dynamical passwords with unreal dates?
How do you increase security of financial transactions with dynamical passwords?
How to defend online accounts against phishing attacks?
29 pages, Kindle Edition
Published January 2, 2022
Ratings & Reviews
Friends & Following
Create a free account to discover what your friends think of this book!
Community Reviews
No one has reviewed this book yet.