Before looking into the calculations of the PSO, it is helpful to understand the logic behind a standard stochastic oscillator. The classic stochastic oscillator measures pricemomentumby comparing a trading instrument's current price to a price range specified in a lookback period (the number of pe...
An oscillator driven by algebraically decorrelating noise Commun Math Phys, 402 (1) (2023), pp. 231-284, 10.1007/s00220-023-04744-3 View in ScopusGoogle Scholar [26] H. Yoshioka Modeling stationary, periodic, and long memory processes by superposed jump-driven processes Chaos, Solitons Fracta...
Effects of moderate noise on a limit cycle oscillator: Counterrotation and bistability. Phys Rev Lett. 2014; 112:114101. Article PubMed Google Scholar Glass L, Winfree A. Discontinuities in phase-resetting experiments. Am J Physiol Regul Integr Comp Physiol. 1984; 246(2):R251–8. CAS ...
deterministic models, e.g., the Oyster Reef model. (ii.) The stochastic flux applies not only to steady state, but to arbitrary time intervals of the systems, which are not required to be in a steady state, e.g., the oscillator model and the phosphorelay model. (iii.) The stochastic ...
is the Einstein frequency of each oscillator. These equations conserves the energy N = n |Ψ n | 2 under the Stratonovic interpretation of the stochastic term as discussed below, at least on a fully infinite lattice or with suitable boundary conditions such as periodic. The form of Eq’...
D uf ing oscillator.[8】D uffi ng chaotic sy stem s ca n b e de sc ri bed by the follow ing equation: (f)+ 舰( ) 一 (f)+ (f) = r coswt, (4) where —x is the nonlinear restoring force,rcos(wt1 denotes the periodic driv ing f orce ,k is the dam ping ratio,r is ...
The Bloch Since the free electrons are considered to exist in a discrete energy state within a quantum harmonic oscillator, these electrons can be thought of as being in a coherent state [33]. The Bloch function that was introduced in Equation (2) can be used to define the time-dependent ...
After a while the energy from the second oscillator will go back to the first oscillator and so on. The resonant exchange becomes larger as the frequency difference ω1 − ω2 → 0. In quantum physics the analogue case is the configuration interaction between two bound states confined in ...