Information    Applications

I n d e x :

1. The  Past  and  the  Future  in  the  Information  Concept. =>
2. 2. What  protocol  does  Nature  use  to  transmit  information ? =>
2. What  informational  applications  are  possible ? =>
3. What  are  information  applications  based  on ? =>
4. Obtaining  Information  from  the  Future. =>
5. Transmitting  information  at  a  speed  greater  than  the  speed  of  light. =>
6. Absolutely  Secret  Communication  Channels. =>


1. The  Past  and  the  Future  in  the  Information  Concept.

    The French physicist Jonas Lippmann (Nobel Prize 1908) was the first to draw attention to the fact that all the laws of physics regarding motion are reversible. Consequently, if we observe the motion of particles, we cannot determine the direction in which time flows in this system. The past and the future are indistinguishable. This means that if we think that the physical world is representation of information world, we have no way to determine the direction in which time flows in the physical world. Time, as a category for describing the world, emerges only in the context of statistical processes. For example, in the Second Law of Thermodynamics. But then another question arises. Life does not obey the Second Law of Thermodynamics.A fundamental characteristic of life is that life is a negentropic process (Erwin Schrödinger, 1948). But then it follows that living beings can receive information from the future, without regard for the cause-and-effect relationships of the physical world.
    How can this be described theoretically ?
    In the informational concept of the world, there is neither past nor future. We have all the information from both the past and the future. But why, then, in real life, do we not confuse the past and the future ?

    Since the trajectories of motion in both directions are identical, an observer is unable to distinguish information arriving from the future from information arriving from the past. He is compelled to rely on his own personal experience—specifically, on which piece of information he received first. Thus, time ceases to be an objective factor and becomes, instead, a subjective one.

    An anti-gravitaty effect introduces asymmetry into motion. For instance, Bob Beamon's jump cannot be reversed due to the asymmetry of its trajectory. Packets of projection powders exhibit the same asymmetry if thrown in free motion. Bags containing substances—to which the projection powders have imparted their properties—exhibit this same asymmetry during free flight.

The prediction method is based on these effects. The asymmetry of the trajectory of events, as in the long jump, allows us to make the right choice and receive the right information.

    Now we need to figure out how nature transmits information.


2. What  protocol  does  Nature  use  to  transmit  information ?

    Nature employs methods of secret information transmission.
    To avoid the problem of key distribution, Nature utilizes methods for transmitting secret information over open communication channels. There are many methods for transmitting secret information over open communication channels. Which of them does Nature use?
    We think that Nature uses three-pass Shamir's protocol. The reason Nature employs this protocol is that, when this ptotocol combined with algorithmically unsolvable problems, it yields the most secure method of information encryption—one that cannot be cracked by any algorithmic means or by any computer. These ciphers cannot be broken by any algorithm, as they are based on algorithmically unsolvable problems. (See  =>)

   We take two small packets containing ordinary substances and measure their anomalous antigravitational properties. When the event of interest occurs in the future, that event assumes one of two possible outcomes. We then transfer the antigravitational properties to the specific bag corresponding to the outcome that actually materialized. Consequently, when we perform our earlier measurement of the antigravitational properties, it is precisely this bag that will exhibit the presence of those properties. The other bag serves as a control for comparison.


2. What  informational  applications  are  possible ?

    The following information-related applications are possible:
    - Retrieval of information (from the future, past, or present).
    - Transmission of information at speeds exceeding the speed of light.
    - Creation of an absolutely secure communication channel.
    - Influencing future events.
    - Acts of terrorism disguised as random events.


3. What  are  information  applications  based  on ?

    All information-based applications utilize the following:
    1. The anomalous properties of projection powders. (Specifically, the anti-gravitational properties of projection powders are employed.)
    2. The effect of transferring anomalous properties to other substances.
    3. Protocols for secure communication over open channels. We utilize Shamir's three-pass protocol.

    Let us briefly examine these applications.


4. Obtaining  Information  from  the  Future.

    The retrieval of information from the future is carried out as follows:
    1. We measure the antigravitational properties of two samples of ordinary matter. Based on which sample exhibits antigravitational properties, we deduce which sample will be endowed with antigravitational properties in the future.
    2. When the specific moment in the future arrives, we transfer antigravitational properties to the sample corresponding to that event.
    3. We repeat these experiments several times and record the results obtained in the form of a matrix. In our experiments, we utilize a 5x5 matrix. We process the results of this matrix in accordance with protocols for secure communication over open channels. Specifically, we employ Shamir's three-pass protocol.

    There are numerous different options available. They differ in terms of:
    1. Which anomalous properties of projection powders should be utilized?
    2. How are they to be measured?
    3. Which substances should be used to transmit these anomalous properties?
    4. How should these properties be transmitted?
    5. Which protocol should be employed for processing the data matrix?
    Each of these options encompasses various modifications and offers a distinct range of parameter choices.

    Consequently, there exist hundreds of variations of algorithms for acquiring information. The problem is that we lack a comprehensive theoretical framework, making it impossible to predict which of these variations will prove the most successful. We must determine the optimal approach through experimentation.
    Such experiments must be conducted using real-world phenomena—for instance, stock market forecasting. To assess the efficacy of a given method, several dozen trials are required. This entails approximately one month of work. Thus, a comprehensive investigation of all available methods could potentially require many years of effort.

Accessing information from the future is a basic experiment. All other applications are modifications of it.

Influencing future events is the inversion of the algorithm for obtaining information from the future.


5. Transmitting  information  at  a  speed  greater  than  the  speed  of  light.

This is almost the same thing as receiving information from the future.
1. At time T1, a message is transmitted. This message reaches us at time T2. From our perspective, we are receiving information from the future.


6. Absolutely  Secret  Communication  Channels.

We hypothesize that more advanced civilizations utilize such communication channels, as they are completely secure, ensuring that information reaches only its intended recipient. Moreover, it is impossible to even detect the fact that information is being transmitted, since to an external observer, this communication channel appears merely as random noise.



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