The Local Equilibrium level for a financial instrument X can be determined by a complex-analytic function E_x^t=f(A,B,C,D,E) WHERE
A:= measures the minimum probability that the instrument will be Stochastically-flexible within the next t-days.
B:= measures the class to which the financial instrument belongs. This is a number from 0 to 1.
C:= measures the...
The Local Equilibrium level for a financial instrument X can be determined by a complex-analytic function E_x^t=f(A,B,C,D,E) WHERE
A:= measures the minimum probability that the instrument will be Stochastically-flexible within the next t-days.
B:= measures the class to which the financial instrument belongs. This is a number from 0 to 1.
C:= measures the...
Equilibrium state of a financial instrument/market
All financial instrument(s) or markets have local or global equilibrium states. For example, if S(t) represents the value of a financial asset, S , at time t and the expectation, E(S(t))
, of the stochastic process, S(t), is finite then the financial instrument, S, has a global equilibrium state. There is a...
The Local Equilibrium level for a financial instrument X can be determined by a complex-analytic function E_x^t=f(A,B,C,D,E) WHERE
A:= measures the minimum probability that the instrument will be Stochastically-flexible within the next t-days.
B:= measures the class to which the financial instrument belongs. This is a number from 0 to 1.
C:= measures the...
Equilibrium state of a financial instrument/market
All financial instrument(s) or markets have local or global equilibrium states. For example, if S(t) represents the value of a financial asset, S , at time t and the expectation, E(S(t))
, of the stochastic process, S(t), is finite then the financial instrument, S, has a global equilibrium state. There is a...
Equilibrium state of a financial instrument/market
All financial instrument(s) or markets have local or global equilibrium states. For example, if S(t) represents the value of a financial asset, S , at time t and the expectation, E(S(t))
, of the stochastic process, S(t), is finite then the financial instrument, S, has a global equilibrium state. There is a...
Equilibrium state of a financial instrument/market
All financial instrument(s) or markets have local or global equilibrium states. For example, if S(t) represents the value of a financial asset, S , at time t and the expectation, E(S(t))
, of the stochastic process, S(t), is finite then the financial instrument, S, has a global equilibrium state. There is a...
Equilibrium state of a financial instrument/market
All financial instrument(s) or markets have local or global equilibrium states. For example, if S(t) represents the value of a financial asset, S , at time t and the expectation, E(S(t))
, of the stochastic process, S(t), is finite then the financial instrument, S, has a global equilibrium state. There is a...
Equilibrium state of a financial instrument/market
All financial instrument(s) or markets have local or global equilibrium states. For example, if S(t) represents the value of a financial asset, S , at time t and the expectation, E(S(t))
, of the stochastic process, S(t), is finite then the financial instrument, S, has a global equilibrium state. There is a...
Equilibrium state of a financial instrument/market
All financial instrument(s) or markets have local or global equilibrium states. For example, if S(t) represents the value of a financial asset, S , at time t and the expectation, E(S(t))
, of the stochastic process, S(t), is finite then the financial instrument, S, has a global equilibrium state. There is a...
Equilibrium state of a financial instrument/market
All financial instrument(s) or markets have local or global equilibrium states. For example, if S(t) represents the value of a financial asset, S , at time t and the expectation, E(S(t))
, of the stochastic process, S(t), is finite then the financial instrument, S, has a global equilibrium state. There is a...
