Life as the Explanation of the Measurement Problem

Łukaszyk, Szymon

doi:10.1088/1742-6596/2701/1/012124

Cited by 10 publications

(88 citation statements)

References 91 publications

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“…This study extends the findings of previous research [8][9][10]23] within the framework of AT [1][2][3][4][5][6][7] and emergent dimensionality [8][9][10]15,17,18,20,23]. However, our results generally apply to information theory.…”

Section: Introductionsupporting

confidence: 89%

“…The [perceivable] universe is not big enough to contain the future; it is deterministic going back in time and non-deterministic going forward in time [45]. But we know [2,[8][9][10][11][12][13][14][15][16][17][18][19] that it has evolved to the present since the Big Bang.…”

Section: Additional Resultsmentioning

confidence: 99%

“…Triangulated BB surfaces contain a balanced number of Planck area triangles, each having binary potential δφ k = −c 2 • {0, 1}, where c denotes speed of light in vacuum, as has been shown [8,10], based on the Bekenstein-Hawking entropy [29][30][31] S BB = k B N BB /4. Here k B is the Boltzmann constant and N BB := πD 2 BB /ℓ 2 P = πd 2 BB is the information capacity of the BB surface, i.e., the ⌊N BB ⌋ ∈ N Planck triangles corresponding to bits of information [8][9][10]30,32,33], and the fractional part triangle(s) having the area {N BB }ℓ 2 P = (N BB − ⌊N BB ⌋)ℓ 2 P too small to carry a single bit of information [8,9].…”

Section: Definition 2 a String Bmentioning

confidence: 99%

“…Therefore, a balanced string B k represents a BB surface comprising N 1 = ⌊N BB ⌋/2 active Planck triangles (APTs) with binary potential equal to −c 2 [9]. Theorem 1.…”

Section: Definition 2 a String Bmentioning

confidence: 99%

“…In particular, we investigate the assembly of black-body objects BBs (black holes (BHs), white dwarfs, and neutron stars) considered binary strings [8][9][10]. It is known [2,[8][9][10][11][12][13][14][15][16][17][18][19]] that information in the universe evolves toward increased structural complexity, decreasing information entropy.…”

Section: Introductionmentioning

confidence: 99%

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Assembly Theory of Binary Messages (How to Assemble a Black Hole and Use it to Assemble New Binary Information?)

Łukaszyk,

Bieniawski

2024

Preprint

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Using assembly theory, we investigate the assembly pathways of fixed-length binary strings formed by joining the individual bits present in the assembly pool and the strings that entered the pool as a result of previous joining operations. We show that the string assembly index is bounded from below and above and conjecture about the lower and upper bounds. We show that the length of an elegant binary program required to assemble a string featuring the smallest assembly index is equal to its assembly index, and conjecture that there is no binary program that has a length shorter than the length of the string featuring the largest assembly index that could assemble this string. We conjecture that a black hole surface is defined by a balanced distinct string that satisfies the upper bound of a distinct string assembly index. The results confirm that four Planck areas provide a minimum information capacity that provides a minimum thermodynamic (Bekenstein-Hawking) entropy. Knowing that the problem of determining the assembly index is at least NP-complete, we conjecture that the problem of determining the assembly index of a given binary string is NP-complete, while the problem of creating the string so that it would have a predetermined maximum assembly index is NP-hard. Therefore, once the new information is assembled by a dissipative structure or by a human, increasing the information entropy according to the second law of infodynamics, it is subject to the second law of thermodynamics, and nature seeks to optimize its assembly pathway.

show abstract

Section: Introductionsupporting

confidence: 89%

Section: Additional Resultsmentioning

confidence: 99%

Section: Definition 2 a String Bmentioning

confidence: 99%

“…Therefore, a balanced string B k represents a BB surface comprising N 1 = ⌊N BB ⌋/2 active Planck triangles (APTs) with binary potential equal to −c 2 [9]. Theorem 1.…”

Section: Definition 2 a String Bmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Assembly Theory of Binary Messages (How to Assemble a Black Hole and Use it to Assemble New Binary Information?)

Łukaszyk,

Bieniawski

2024

Preprint

View full text Add to dashboard Cite

show abstract

Assembly Theory of Binary Messages

Łukaszyk,

Bieniawski

2024

Preprint

View full text Add to dashboard Cite

Using assembly theory, we investigate the assembly pathways of binary strings (bitstrings) of length N formed by joining bits present in the assembly pool and the bitstrings that entered the pool as a result of previous joining operations. We show that the bitstring assembly index is bounded from below by the shortest addition chain for N, and we conjecture about the form of the upper bound. We define the degree of causation for the minimum assembly index and show that for certain N it has regularities that can be used to determine the length of the shortest addition chain for N. We show that a bitstring with the smallest assembly index for N can be assembled by a binary program of length equal to this index if the length of this bitstring is expressible as a product of Fibonacci numbers. The results confirm that four Planck areas provide a minimum information capacity that corresponds to a minimum thermodynamic (Bekenstein-Hawking) entropy. Knowing that the problem of determining the assembly index is at least NP-complete, we conjecture that this problem is NP-complete, while the problem of creating the bitstring so that it would have a predetermined largest assembly index is NP-hard. The proof of this conjecture would imply P ≠ NP, since every computable problem and every computable solution can be encoded as a finite bitstring.

show abstract

Assembly Theory of Binary Messages

Łukaszyk,

Bieniawski

2024

Preprint

View full text Add to dashboard Cite

Using assembly theory, we investigate the assembly pathways of binary strings (bitstrings) of length N formed by joining bits present in the assembly pool and the bitstrings that entered the pool as a result of previous joining operations. We show that the bitstring assembly index is bounded from below by the shortest addition chain for N, and we conjecture about the form of the upper bound. We define the degree of causation for the minimum assembly index and show that for certain N it has regularities that can be used to determine the length of the shortest addition chain for N. We show that a bitstring with the smallest assembly index for N can be assembled by a binary program of length equal to this index if the length of this bitstring is expressible as a product of Fibonacci numbers. Knowing that the problem of determining the assembly index is at least NP-complete, we conjecture that this problem is NP-complete, while the problem of creating the bitstring so that it would have a predetermined largest assembly index is NP-hard. The proof of this conjecture would imply P ≠ NP, since every computable problem and every computable solution can be encoded as a finite bitstring.

show abstract

Life as the Explanation of the Measurement Problem

Cited by 10 publications

References 91 publications

Assembly Theory of Binary Messages (How to Assemble a Black Hole and Use it to Assemble New Binary Information?)

Assembly Theory of Binary Messages (How to Assemble a Black Hole and Use it to Assemble New Binary Information?)

Assembly Theory of Binary Messages

Assembly Theory of Binary Messages

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