Enhance architectural design, implementation, and evaluation chapters with detailed specifications and pilot validation study

thesis/chapters/03_reproducibility.tex

@@ -31,7 +31,7 @@ Based on this analysis, I identify specific ways that software infrastructure ca
 
 \section{Connecting Reproducibility Challenges to Infrastructure Requirements}
 
-The reproducibility challenges identified above directly motivate the infrastructure requirements (R1--R6) established in Chapter~\ref{ch:background}. Inconsistent wizard behavior creates the need for enforced execution protocols (R1) that guide wizards step by step, and for automatic logging (R4) that captures any deviations that occur. Timing errors specifically motivate responsive, fine-grained real-time control (R3): a wizard working with a sluggish interface introduces latency that disrupts the interaction and confounds timing analysis. Technical fragmentation forces each lab to rebuild infrastructure as hardware changes, violating platform agnosticism (R5). Incomplete documentation reflects the need for self-documenting, code-free protocol specifications (R1, R2) that are simultaneously executable and shareable. Finally, the isolation of individual research groups motivates collaborative support (R6): allowing multiple team members to observe and review live trials enables the shared scrutiny that reproducibility requires. As Chapter~\ref{ch:background} demonstrated, no existing platform simultaneously satisfies all six requirements. Addressing this gap requires rethinking how WoZ infrastructure is designed, prioritizing reproducibility and methodological rigor as first-class design goals rather than afterthoughts.
+The reproducibility challenges identified above directly motivate the infrastructure requirements (R1--R6) established in Chapter~\ref{ch:background}. Inconsistent wizard behavior creates the need for enforced execution protocols (R1) that guide wizards step by step, and for automatic logging (R4) that captures any deviations that occur. Timing errors specifically motivate responsive, fine-grained real-time control (R3): a wizard working with a sluggish interface introduces latency that disrupts the interaction and confounds timing analysis. Technical fragmentation forces each lab to rebuild infrastructure as hardware changes, violating platform agnosticism (R5). Incomplete documentation reflects the need for self-documenting, code-free protocol specifications (R1, R2) that are simultaneously executable and shareable. Finally, the isolation of individual research groups motivates collaborative support (R6): allowing multiple team members to observe and review trials enables the shared scrutiny that reproducibility requires. As Chapter~\ref{ch:background} demonstrated, no existing platform simultaneously satisfies all six requirements. Addressing this gap requires rethinking how WoZ infrastructure is designed, prioritizing reproducibility and methodological rigor as first-class design goals rather than afterthoughts.
 
 \section{Chapter Summary}