Multi-Dimensional Linguistics

A technology invention for the purpose of high volume information-cracking driven by a plurality of implementations of neural signal processing.

Pointer

It is a fundamental issue that a reliance on digital technologies to mine for realization and insight has left more efficient lifeforms less practiced in the field of innovation and realization. I hypothesize that the reason for this, is most likely, a fundamental speed limit of knowledge work due to the constraints of serialized conception processing as a result of serialized linguistics. This document is not intended to resolve the hypothesis into a proof through scientific inquiry, though that may be valuable for certain audiences. This paper is to present Multi-Dimensional Linguistics (“MDL”) as a solution for rapidly arriving at insights, realizations, innovations, inventions, and finally, a wider renaissance of bio-neural liberation from decision-tree quantization machines, and temporally-fixed electronic-neural quantization machines.

Primer

道可道 – the path pathed
非常道 – is not the path [ spoken of [ here ] ]
名可名 – the name named
非常名 – is not the name [ spoken of [ here ] ]

For the remainder of this text, language will not follow conventional guidelines. Shu-ha-re1 applies to all knowledge; knowledge being the fruit of quantization, and as the universe changes, wave-functions change. It is the change of fields of wave-function that MDL captures in more completeness. MDL, therefore retains similar characteristics of photography and film.

Bracket Notation; Syntax

Bracket notation preserves records of temporal changes in neural networks required for multi-dimensional thought. Not just thinking in other dimensions, but thinking in multi-valent dimensions around a nucleus of presence.

Guidance

Bracket notation is best timestamped for future playback; though not necessary in-situ for GT memo libraries.


Nucleus

Bracket notation writing starts in a field continues sequentially just as typical written language up unto this date.

Example 1

2016-11-06 03:00:15 – That’s it, the movement of time
2016-11-06 03:00:16 – it moves forward at a uniform, speed


Bracketing

A Bracket captures a realization perception as the nervous system observed reflected perceptions.

Example 1

2016-11-06 03:00:18 – [It cannot be uniform]
2016-11-06 03:00:15 – That’s it, the movement of time
2016-11-06 03:00:16 – it moves forward at a uniform, speed

Note that bracketing can continue a line of thought within its valence axis; the continuity remains within the brackets. This sequence within a bracket is called an axial perspective, its angle to other valences become important when deeply nesting valence brackets.

2016-11-06 03:00:18 – [It cannot be uniform]
2016-11-06 03:00:23 – [no action at a distance]
2016-11-06 03:00:15 – That’s it, the movement of time
2016-11-06 03:00:16 – it moves forward at a uniform, speed

MDL Editor: [ [ ]
The command for entering a bracket.


Valent Bracketing

Bracketing can stack up on on each other, that is, the concepts “below” integrate into a “higher” realization.

Example 1

2016-11-06 03:00:35 – [[Liberated time]]
2016-11-06 03:00:36 – [[Time itself is relative, there is no uniform time]]
2016-11-06 03:00:18 – [It cannot be uniform]
2016-11-06 03:00:23 – [no action at a distance]
2016-11-06 03:00:15 – That’s it, the movement of time
2016-11-06 03:00:16 – it moves forward at a uniform, speed

MDL Editor: [ [ ]
The command for entering a bracket within a bracket.


Exit Bracketing

Exit-bracketing is where bracketing functions cease and forward momentum resumes in a primary axis, this is designated quite simply. Be attentive during the exit bracket function in order to “pull information [ from higher valences] through [ to lower valences, in the perspective/field of the lower valence ]”.

Example 1

2016-11-06 03:00:35 – [[Liberated time]]
2016-11-06 03:00:36 – [[Time itself is relative, there is no uniform time]]
2016-11-06 03:00:18 – [It cannot be uniform]
2016-11-06 03:00:23 – [no action at a distance]
2016-11-06 03:00:15 – That’s it, the movement of time
2016-11-06 03:00:16 – it moves forward at a uniform, speed

2019-07-18 21:17:02 –    [[ superpositioned; beyond the four-way mousetrap ]]
2016-11-06 03:00:52 –    [but cannot be]
2016-11-06 03:00:51 –    subsequently, time and space, are one

MDL Editor: [ ] ]
The command for exiting a bracket; note that it will exit factored brackets until the top bracket is arrived at, which if further exiting, the brackets within will all nest to maintain balance of relative perspectives.


Hyper-Bracketing

Hyper-bracketing is the ability to bypass detail in a particular perspective. This is quite difficult to create a syntax for, but is possible through bracket notation by opening and closing a bracket without thought.

Example 1

2016-11-06 03:00:39 – [[[[Wow, this is amazing]]]]
2016-11-06 03:00:39 – [[[ – ]]]
2016-11-06 03:00:35 – [[Liberated time]]
2016-11-06 03:00:36 – [[Time itself is relative, there is no uniform time]]
2016-11-06 03:00:18 – [It cannot be uniform]
2016-11-06 03:00:23 – [no action at a distance]
2016-11-06 03:00:15 – That’s it, the movement of time
2016-11-06 03:00:16 – it moves forward at a uniform, speed

Hyper-bracketing reveals gaps in knowledge of a particular perspective.

MDL Editor: [ [ ] + [ [ ] or [ [ ] + [ ] ]

The command for hyper-bracketing.


Intra-Bracketing

Intra-bracketing is where Valence Brackets are cross-pollinating within the current nucleus or valence. It is possible to record Intra-Bracketing without evidence of influencing Valence Bracketing. Intra-bracketing may be left open for expediency (see Example 2).

Example 1

2016-11-06 03:00:39 – [[[[Wow, this is [ freeing ] amazing]]]]
2016-11-06 03:00:39 – [[[ – ]]]
2016-11-06 03:00:35 – [[Liberated time]]
2016-11-06 03:00:36 – [[Time itself is relative, there is no uniform time]]
2016-11-06 03:00:18 – [It cannot be uniform]
2016-11-06 03:00:23 – [no action at a distance]
2016-11-06 03:00:15 – That’s it, the movement of time
2016-11-06 03:00:16 – it moves forward at a uniform, speed

Example 2

Last post to Jim Alvarez‘s challenge of book covers I love [ that protect books that I love [ that allow conceptual cross-pollination [ that paints a [[ [[[ procedurally iterated-valences ]]] tesseracted ]] picture [ of a pointer [[ that takes memory [ to that which is beyond ]] [ mere conception [ for the purpose [ of liberation [ for all [ swiftly

S[<p|l>]it, Split, or Slit Bracketing

This bracket is for non-quantized bifurcation and quantized bifurcative operations.


Bra-Ket Bracketing

Bra-Ket Bracketing is where superpositioning enters MDL. This is an important aspect of MDL, and without it, further progress will not be made.

Example 1

give regards to the boatman, there is
a <rudder|oar> that once exposed,
can never be forgotten, to us.

Example 2

<emptiness|form>


Factored Bra-Ket Bracketing

Factored Bra-Ket Bracketing is where superpositioning is expanded.

Example 1

<emptiness|<form|sight|seeing>>

Bracket Notation; Experimental Syntax


Weave-Bracketing

Weaving brackets are used when joining intra-brackets.

Example 1

To use semi-conductors as an analogy, the ‘n’ below is a doping material which allows the concept ‘low’ to generate ‘burn’.

[ { low } n { burn } ]

MDL Editor: [ CTRL ] + [ [ ]
MDL Editor: [ CTRL ] + [ ] ]


Parallel Bracketing

Parallel bracketing is where multiple thoughts are operating in “threads” – since language is being processed via patterns a new language appears, this is exhibits a multiplexing behavior.

Example 1

[ [ [ [                     Bracket 3: Thought 1 ] ] ] ]
[ [ [ [                     Bracket 3: Thought 2 ] ] ] ]

[ [ [ [        [ [ [    Bracket 2: Thought 1 ] ] ]     ] ] ] ]
[ [ [ [        [ [ [    Bracket 2: Thought 2 ] ] ]     ] ] ] ]

[ [ [ [    [ [ Bracket 1: Thought 1 ] ]    ] ] ] ]
[ [ [ [    [ [ Bracket 1: Thought 2 ] ]    ] ] ] ]

MDL Editor: [ CTRL ] + [ Tab ]
The command for expanding a bracket around prior brackets.

Bracket Notation Communication

Real-time communication systems where parties can interact suffer the consequences of a language that is insufficient to convey the syntax and operation of the neural network’s internal interference patterns. This can lead to a variety of issues where in one moment, two individuals can be having a shared conversation, whereas in the next moment the two individuals may have diverging perspectives leading to confusion and possibly argumentation. If the situation evolves further, the perspectives and habitual responses to the perspectives may disintegrate leading to not only a “difference of opinion” but possible outright creation of a stereotype that both individuals are enemies as any similarity between them is indistinguishable.

Bracket Notation Discussion

Bracket Notation can be used in communication systems to signal changes in perspectives on a single subject, which may appear at first glance to be a “change of subject” but are efforts to consider the [ the [ aka: [ redacted ] ] [ wave function [ relativistic temporal ] distribution ] probabilistic flow state ] subject with a different perspective.

Vast knowledge unknown awaits in this practice as it presents an opportunity to rapidly accelerate one’s ability to influence time and space. We are “matter pushers” (like ants) which is the same as saying we are “energy pushers”, but it should also be known that we are time pushers.

The physical experiences that lead to this notation leads me to believe that time and space have an indeterminate intersection (see “infinite invariability of time”). It is known that light is known to mathematically and physically travel across great distances instantaneously from its own perspective, that all life has done the same. We essentially are beings experiencing that which . We want to know how we got here, but this question can be expanded with bracket notation to ultimately solve the question.

All questions can be solved; all problems can be reasoned more effectively this way.

Within, I present the primer for bracketing, we shall continue.

Memos

  • <non-linearly|linearly>
  • dimensions in neural networks are basically Pivoted Distribution Curves
  • to revise not only spatial patterns within the nervous system, but temporal patterns. Since the nervous system is an interference engine of sorts, this ability is equivalent to hacking the source code of awareness, cognition and intelligence.
  • A valencing bracket occurs when the nervous system [ recollection being the “snapping off” of <meaning|first touch realization> recollects a similarity between a set of events and dimensions. The bracketed thought will precede the set of events. This is equivalent to “editing” the history of memories with different perspectives. Bracketing is a special skill and requires not only precision but accuracy.The reason for recording the bracket before the sequence of events that triggered the recollection is that this recollection increases or alters the prior information’s resolution or perspective. It is important to note that the events in memory are still the same and unaltered, what changes is the perspective in which the events are witnessed.Realizations of interchangeability of indicators is prefixed with “I:”. The record here preserves the contextual frame.
  • Valence Bracketing leads to unexpected situations that improve the resolution of previously [ encoded ] symbolized (information pivoted into an interference pattern in the nervous system) information. Take religious expressions dependent on early languages, back-bracketing will lead to an increase in the available resolution of language leading to discoveries such as the beginning being [ both on and off ] indeterminate due to concepts such as Schrodinger’s Cat and Heisenberg’s Uncertainty Principle.