no code implementations • 29 Oct 2021 • Songyan Wang, Jilai Yu, Aoife Foley, Jingrui Zhang
The two types of machine transformations are based on the "energy correction" and "trajectory correction" of the inner-group machine, respectively.
no code implementations • 27 Oct 2021 • Songyan Wang, Jilai Yu, Aoife Foley, Jingrui Zhang
It is first clarified that the inner-group machine is created from the difference between the equivalent system and the original system.
no code implementations • 26 Oct 2021 • Songyan Wang, Jilai Yu, Aoife Foley, Jingrui Zhang
These strict followings bring the two advantages in the equivalent-machine based TSA: (i) the stability of the equivalent machine is characterized precisely, and (ii) the equivalent-machine trajectory variance is depicted clearly.
no code implementations • 23 Oct 2021 • Songyan Wang, Jilai Yu, Aoife Foley, Jingrui Zhang
The violations bring the two inherit defects in TSA: (i) the stability of the superimposed machine is unable to be characterized precisely, and (ii) the variance of the original system trajectory is unstable to be depicted clearly.
no code implementations • 21 Oct 2021 • Songyan Wang, Jilai Yu, Aoife Foley, Jingrui Zhang
The paper analyzes the mechanisms of the individual-machine and also its advantages in TSA.
no code implementations • 20 Oct 2021 • Songyan Wang, Jilai Yu, Aoife Foley, Jingrui Zhang
The trajectory paradigm is the reflection of the trajectory stability; the modeling paradigm is the two-machine-system modeling of the trajectory stability; and the energy paradigm is the stability evaluation of the two-machine system.