The first application for text communication between users, using a polymorphic network as a new way of storing and sharing information via the WWW network.
It was proposed as a new way of communication in the first half of 2023 by the company Development studio. It is used exclusively for text communication between two or more users. Its aim was to change the way messages/content is normally stored in a limited number of places. Whether on central storage or on the devices of connected users. Unlike conventional communication, it is distributed over the World Wide Web.
Features
Polymorphic communication has these basic features:
- The content of communication is represented by the entire available WWW network See more in “content storage” and “content reproduction”.
- The content of communication changes over time, polymorphic communication forgets The way content is stored and reproduced predicts the actual change of content over time. See more in “Change of stored content over time”.
- Difficult to confirm the truth of the original content The “reproduction of content” results in difficult confirmation of the original content. The reproduction system denies the truth of the carrier information. See more in “Confirmation of the content truthfulness”.
Content storage
Polymorphic communication is characterized by the way content is stored. The content is sent to users. This is split into fragments such as words, letters, numbers, punctuation marks and characters before being stored in the data warehouse. They are then searched in the WWW network. The search is randomized by search engines that are arbitrarily alternated in the search for each fragment. It is important that the search fragments appear as little as possible in the target web url addresses. The target web address must contain the searched fragment as “content”. The searched fragment is stored in the data warehouse as url address, position and its length in the found content. Which is actually a fragment imprint in the WWW network. The content addressed in this way, split into fragments, creates a web of places in the WWW network and represents the stored content in the form of imprints that can be assembled into the original content.
Content reproduction
Content from the data warehouse is selected in fragments, represented by logically ordered webs of places and positions in the WWW network. These are carefully read from the www network to assemble the fragment imprints. After assembling the logically sorted imprints in the network, we get back to the stored content. This is sent to the client as content.
Change in the stored content over time
The likely rate of change increases with the time interval of reproduction and storage of the content. This is due to the nature of the WWW network, which is polymorphic. It is modified by users and operators. It can be said that it is naturally encrypted without using any encryption. The content is obvious but may not be true. The scalability of the content change speed can be influenced by selecting how the imprints are searched when the content is stored. The url address imprints, that contain, for example, forums, chats, discussions, predict a faster modification of the stored content.
Confirmation of the content truthfulness
Polymorphic communication forgets, it uses a polymorphic network. How can the original content be confirmed? The only way that all operators of the web applications used by the communication can 100% confirm that there has been no change to their content since the time of storage and reproduction. At the same time, if their applications use third-party scripts for advertising, statistical and commercial activities, they must be able to confirm that there has been no modification of the content, even in terms of, for example, byte-shifting.
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