1 General considerations
2 Model definition
3 Dynamical systems approach
4 Algorithm for a formulation of the mathematical model
5 Developmental systems approach
6 Synthetic mathematical model of the abstract functional
heterogeneous continuous dynamical hypersystem
7 Physical heterogeneous continuous dynamical hypersystems as
generalised physical commutation matrices
8 Physical commutation matrix dynamical components
9 Principal physical commutation matrices as physical models
10 Generalised impedance and admittance holors of physical
commutation matrices
11 Electrical homogeneous continuous dynamical systems as DC and AC
electrical commutation matrices
12 Mechanical homogenous continuous dynamical systems as mechanical
commutation matrices
13 Fluidic homogeneous continuous dynamical systems as fluidic
commutation matrices
14 Mechanical commutation matrix commutators for conventional DC
and AC magneto-mechano-dynamical electrical machines
15 Electrical commutation matrix commutators for modern DC and AC
magneto-mechano-dynamical electrical machines
16 Electrical commutation matrix keyboards for computers
17 Programmable-logic and/or generic-logic electrical commutation
matrices for digital devices
18 Nano-magneto-rheological fluido-mechanical commutation matrices
for internal combustion engines
19 Conclusion and future trends
Bogdan Fijalkowski has worked in both industry and academia and was Director of the Electrotechnics & Industrial Electronics Institute and Head of Automotive Mechatronics Institution at the Cracow University of Technology, Poland. He holds 25 patents and has published 26 books and book chapters in addition to more than 200 technical papers.
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