Linkage mechanisms governed by integrable deformations of discrete space curves

For two centuries Kant's first Critique has nourished various turns against transcendent metaphysics and realism. Kant was scandalized by reason's impotence in confronting infinity (or finitude) as seen in the divisibility of particles and in spatial extension and time. Therefore, he had to regard the latter as subjective and reality as imponderable. In what follows, I review various efforts to rationalize Kant's antinomies-efforts that could only flounder before the rise of Einstein's general relativity and Hawking's blackhole cosmology. Both have undercut the entire Kantian tradition by spawning highly probable theories for suppressing infinities and actually resolving these perplexities on a purely physical basis by positing curvatures of space and even of time that make them reëntrant to themselves. Heavily documented from primary sources in physics, this paper displays time’s curvature as its slowing down near very massive bodies and even freezing in a black hole from which it can reëmerge on the far side, where a new universe can open up. I argue that space curves into a double Möbius strip until it loses one dimension in exchange for another in the twin universe. It shows how 10-dimensional GUTs and the triple Universe, time/charge/parity conservation, and strange and bottom particle families and antiparticle universes, all fit together.

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Model Predictive Torque Control for Dual Three-Phase PMSMs with Simplified Deadbeat Solution and Discrete Space-Vector Modulation

IEEE Transactions on Energy Conversion ◽

10.1109/tec.2021.3052132 ◽

2021 ◽

pp. 1-1

Author(s):

Wusen Wang ◽

Chunhua Liu ◽

Senyi Liu ◽

Hang Zhao

Keyword(s):

Discrete Space ◽

Torque Control ◽

Space Vector Modulation ◽

Space Vector ◽

Three Phase ◽

Vector Modulation

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Integrable deformations in the algebra of pseudodifferential operators from a Lie algebraic perspective

Theoretical and Mathematical Physics ◽

10.1007/s11232-013-0011-7 ◽

2013 ◽

Vol 174 (1) ◽

pp. 134-153 ◽

Cited By ~ 13

Author(s):

G. F. Helminck ◽

A. G. Helminck ◽

E. A. Panasenko

Keyword(s):

Pseudodifferential Operators ◽

Integrable Deformations

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Mapping TASEP back in time

Probability Theory and Related Fields ◽

10.1007/s00440-021-01074-0 ◽

2021 ◽

Author(s):

Leonid Petrov ◽

Axel Saenz

Keyword(s):

Markov Process ◽

Continuous Time ◽

Exclusion Process ◽

Discrete Space ◽

Baxter Equation ◽

Simple Exclusion Process ◽

Open Questions ◽

Asymmetric Simple Exclusion ◽

Simple Exclusion ◽

Hammersley Process

AbstractWe obtain a new relation between the distributions $$\upmu _t$$ μ t at different times $$t\ge 0$$ t ≥ 0 of the continuous-time totally asymmetric simple exclusion process (TASEP) started from the step initial configuration. Namely, we present a continuous-time Markov process with local interactions and particle-dependent rates which maps the TASEP distributions $$\upmu _t$$ μ t backwards in time. Under the backwards process, particles jump to the left, and the dynamics can be viewed as a version of the discrete-space Hammersley process. Combined with the forward TASEP evolution, this leads to a stationary Markov dynamics preserving $$\upmu _t$$ μ t which in turn brings new identities for expectations with respect to $$\upmu _t$$ μ t . The construction of the backwards dynamics is based on Markov maps interchanging parameters of Schur processes, and is motivated by bijectivizations of the Yang–Baxter equation. We also present a number of corollaries, extensions, and open questions arising from our constructions.

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