% Broader Impact
\begin{frame}{This methodology generalizes to any safety-critical hybrid system}

  \begin{center}
    \begin{tikzpicture}
      \draw[thick, fill=gray!20] (0,0) rectangle (12,6.5);
      \node[align=center, text width=10cm] at (6,3.25) {
        \textbf{FIGURE: Application Domains}\\[0.3cm]
        Center: Nuclear reactor (this work)\\[0.2cm]
        Radiating out to icons representing:\\
        - Chemical plant (batch processes)\\
        - Aircraft (flight phases)\\
        - Autonomous vehicle (driving modes)\\
        - Medical device (therapy modes)\\
        - Power grid (generation modes)\\[0.3cm]
        All connected with ``Common pattern:\\
        procedures + hybrid dynamics + safety''
      };
    \end{tikzpicture}
  \end{center}

  %SPEAKER NOTES: See comments below
%
    \textbf{Common Pattern Across Domains:}
    Written procedures exist, continuous dynamics + discrete decisions, safety is paramount, autonomy has economic benefits

    \textbf{Application Domains:}
    Chemical Process: Batch processes, safety interlocks
    Aerospace: Flight phases, emergency procedures
    Autonomous Transport: Driving modes, emergency maneuvers
    Medical Devices: Therapy modes, patient monitoring
    Power Grid: Generation modes, fault response

    \textbf{Economic Multiplier:}
    Nuclear O\&M (datacenter demand): \$21--28B annually
    Broader safety-critical infrastructure: Much larger

    \textbf{Regulatory Pathway:}
    Proving concept in nuclear (highest safety bar) establishes precedent: mathematical proof as regulatory evidence. Easier adoption in other industries.

    \textbf{Key Message:} Nuclear is the proving ground; impact extends far beyond
% (End of speaker notes)
\end{frame}