V1003 Gravitational Filtering For Teleportation Purposes

This video discusses the concept of using gravitational filtering for teleportation. The speaker explains that to achieve teleportation, one must first measure changes in magnetic flux due to gravitation using flux gates. This generates vast amounts of data that needs to be organized to create a cohesive understanding of the environment.

Algorithms and software programs can then process this data to create a three-dimensional representation of a room based on changes in gravity. The video uses the example of gravitational sensors around a cinder block to illustrate how these algorithms distill the sensor readings into a 3D representation, accounting for various factors like people walking by, dogs, and weather.

Applying this technology to a teleportation portal, the goal is to distinguish between the fixed portal and the moving person. The key to this separation lies in mass; algorithms are used to isolate the mass entering the egress chamber (teleportation area) and subtract the surrounding mass. This is crucial to avoid teleporting the entire room, focusing only on the intended target and what they are wearing.

The video stresses the importance of these algorithms in determining the egress coordinates for successful teleportation. A crucial point is knowing the mass of what is being teleported to electronically subtract it from the data and place it in another location in time and space based on the surrounding environment. This process, according to the speaker, is how time travel and other forms of travel can be achieved.

Essentially, the process involves identifying the gravitational location of a person, subtracting it from the current environment, and switching the modified coordinates to new, clean ones. The speaker claims the teleportation system is robust. The video directs viewers to a linked article (Part 2 of DIY index) containing detailed mathematics and six different algorithms that can be used to separate the values, including graphic smoothing, polynomial surface fitting, and finite element analysis. The video concludes by summarizing the process: a person enters a portal, readings are taken and processed rapidly, a 3D rendering is created, filters separate the person from the portal, and this provides the egress and arrival coordinates. The speaker mentions the next video will cover the arrival coordinate.

00:00 - 01:17

The speaker begins by greeting the audience and acknowledging the challenges of making course corrections during a campaign. They mention experiencing turmoil and a long bus ride, as well as dealing with spam comments. This segment sets a tone of personal struggle and introduces the context for the technical discussion to follow.

01:17 - 02:11

The speaker introduces the main topic: the teleportation unit. They explain the need for flux gates to measure changes in magnetic flux due to gravitation and the resulting massive amounts of data. Algorithms and software programs are necessary to organize this data into a cohesive, three-dimensional representation of the room based on changing gravity.

02:11 - 04:30

The speaker elaborates on how electromagnetic flux readings can be transformed into a three-dimensional representation using mathematics and AI. They use the example of gravitational sensors around a cinder block to illustrate how algorithms can distill data into a 3D model, even with external factors like people, dogs, and weather. This technology can be applied to create a 3D reading of the teleportation area.

04:30 - 05:07

The speaker discusses the importance of distinguishing between the fixed teleportation portal and the moving person within it. Software programs are needed to identify the lighter mass blur of the person moving into and out of the portal, separating it from the heavier mass of the surrounding environment. Mass is the key factor in this separation process.

05:07 - 07:04

The speaker emphasizes the role of algorithms in isolating the mass entering the egress chamber and subtracting surrounding elements. This is crucial to avoid teleporting the entire room, focusing only on the person and their belongings. The system uses momentary gravitational readings from flux gates to determine egress coordinates.

07:04 - 08:36

The speaker explains the process of teleportation as electronically subtracting a person's coordinates from the current location and placing them in another location in time and space. This involves switching modified coordinates and using flux to create new coordinates for the destination. The speaker claims the system is robust and reliable.

08:36 - 10:15

The speaker assures the audience that the teleportation systems are safe and reliable, and that they have written and listed a whole bunch of names regarding these systems and they work. They emphasize the importance of converting gravitational waves into HG/HFGW frequencies using algorithms. The speaker also mentions the use of high-pass and low-pass filters to separate heavy and lighter masses.

10:15 - 12:09

The speaker directs viewers to their webpage for detailed mathematical information. They mention that the information can be found on part two of their DIY index, where they have provided six different algorithms or software programs for separating values. These algorithms can be used for number crunching raw data from flux sensors, including graphic smoothing, polynomial surface fitting, and finite element analysis.

12:09 - 13:56

The speaker digresses, stating a preference for socializing over mathematics. They reiterate the necessity of understanding these algorithms for interdimensional travel. The speaker emphasizes the importance of fixed flux capacitors and using algorithms to separate raw data into a three-dimensional model for visualizing the portal and the person entering it.

13:56 - 14:59

The speaker explains how to use filters to distinguish the person entering the portal from the portal itself, based on mass. A low-energy filter band is used for the person, while a high-frequency band is used for the portal. This separation is achieved through mathematics and algorithms.

14:59 - 16:33

The speaker describes what happens when a person enters a portal and their coordinates are replaced, causing them to disappear from the universe. They avoid further details on this topic. The speaker suggests using pre-made software programs instead of delving into complex equations, comparing it to buying a Lexus without understanding the engine.

16:33 - 17:35

The speaker summarizes the teleportation process: a person enters a portal, readings are taken and processed rapidly, a 3D rendering is created, and filters separate the person from the portal. This provides the egress coordinate, with the arrival coordinate to be discussed in the next video. The speaker concludes with encouraging words and a reminder not to take life too seriously.

17:35 - 21:17

The video concludes with an extended musical outro.