Title :
The Boolean averaging procedure, common to three systems in statistical mechanics, control and signal processing
Author :
Kipnis, Michael M.
Author_Institution :
Dept. of Math., Chelyabinsk State Pedagogical Univ., Russia
Abstract :
We investigate the Boolean averaging procedure (BAP) u(n) = sgn(ψ Σi=1 ∞ γiu(n-i)), where ψ∈R (γi) is a weight function (i ∈ N), (u(n)) is a two-sided sequence (n ∈ Z). It describes three systems: 1) the Hubbard model in statistical mechanics, 2) sampled-data control system, and 3) analog-to-digital converter with sigma-delta modulation and leaky integration. The periodic modes in the BAP generate so-called Hubbard configurations, in which (+1)-s is evenly distributed between (-1)-s (the phenomenon of even 2-colouring). Our new results shows that the trajectories (u(n)) become periodic for almost all ψ if the sequence (γn) is convex.
Keywords :
Boolean algebra; Hubbard model; analogue-digital conversion; delta modulation; sampled data systems; signal processing; statistical mechanics; Boolean averaging procedure; Hubbard model; analogue-digital converter; leaky integration; sampled data control system; sigma delta modulation; signal processing; statistical mechanics; Control system synthesis; Control systems; Delta-sigma modulation; Filters; Mathematical model; Mathematics; Process control; Pulse modulation; Signal processing; Stationary state;
Conference_Titel :
Physics and Control, 2003. Proceedings. 2003 International Conference
Print_ISBN :
0-7803-7939-X
DOI :
10.1109/PHYCON.2003.1236791
