changes.mady.by.user Arthur Aslanyan (Nafta College)
Saved on Jul 04, 2023
...
WOR = \frac{\alpha_W(t) \cdot q_W^\uparrow}{\alpha_O(t) \cdot q_O^\uparrow}
ΣWOR = \frac{ \int\limits_0^t \alpha_W(t) \cdot q_W^\uparrow \, dt}{ \int\limits_0^t \alpha_O(t) \cdot q_O^\uparrow \, dt}
E[\alpha_W(t), \alpha_O(t)] = \sum_t \ \min D \big( P_{\rm mod}(t), P_{\rm hist}(t) \big)
D \big( P_1}(t), P_1(t) \big) = \big \sqrt{ (WOR_1 - WOR_2)^2 + (ΣWOR_1 - ΣWOR_2)^2 }