Alpha timeline with HVBN until intersection has a probability of p=0.8. The alternative beta timeline with multiple MVBNs, converging into possible next HVBN before intersection has a probability of p=0.2.
Beta strategies have been modulated and need to remain strictly classified.
There are two major intersection probability peaks remaining.
The previous intersection probability peak within RR2-3 intermediate period has collapsed due to incomplete intel about L1 and L0 anomaly.
The first major intersection probability peak comes shortly after the beginning of the RR3-4 intermediate period, p=0.3. Alpha timeline is partially classified P501 with gradual to fast M increase and with probability of some form of EL contact. This leads to complex interference with existing HVBN on the surface, multiple MVBNs being one triangulation alternative and time compression into the convergence point being another one. Shortly before the omega convergence point this timeline anyway converges into an antarionid RM intersection. Beta timeline comes with declassified P501 with multiple MVBNs and then with RM intersections as soon as possible.
The second major intersection probability peak comes close to omega convergence point with an antarionid RM intersection, p=0.7. Alpha and beta timelines converge into one as we limit towards the omega convergence point.