CASE STUDIES
Institutional implementations and research outcomes demonstrating the Control Loop Framework in practice. These case studies document the development, validation, and application of the framework across academic, research, and performance contexts.
Control Loop Framework Implementation
University of Hawaiʻi at Mānoa
PhD Research & Institutional Curriculum
2020-2025
Ongoing
Over 200 lessons developed and taught at the University of Hawaiʻi at Mānoa integrated the Control Loop Framework into performance studies curriculum. The framework was implemented across multiple course contexts, from foundational sport science to advanced performance theory seminars.
Key Outcomes
- • 200+ lessons incorporating CLF methodology
- • Graduate-level curriculum integration
- • Framework validation in academic context
- • Student research projects using CLF
- • Institutional collaboration and publication
Study 001: Longitudinal Autoethnographic Investigation
Felluss Institute for Adversarial Performance
Five-Year Research Study
2020-2025
Phase 2 Active
A formal longitudinal n=1 autoethnographic study investigating opacity tolerance development in aging competitive tennis performance. The study employed two primary protocol architectures: Constraint Saturation Training and Efference Copies Training, with systematic measurement of performance, neurological adaptation, and phenomenological states.
Key Outcomes
- • 13 formally documented findings
- • Control Loop Framework validated in adversarial context
- • Attunement-Response Architecture developed
- • Efference Copies protocol established
- • Real-time competitive performance data collected
- • Rehabilitation phase protocols developed
Efference Copies Protocol Development
Felluss Institute for Adversarial Performance
Training Protocol Innovation
2021-2024
Complete
Development and refinement of the Efference Copies training protocol across five iterative stages. The protocol targets forward model calibration, perturbation recovery, error management, opacity training, and autonomic stabilization through music-driven motor training.
Key Outcomes
- • 5 protocol iterations developed and tested
- • Tempo recalibration effects documented
- • Forward model calibration measurable
- • Autonomic stabilization through drone integration
- • Protocol replicable and scalable
- • Training effects quantifiable
INSTITUTIONAL PARTNERSHIPS
University of Hawaiʻi at Mānoa — PhD institution and primary research context. Over 200 lessons incorporating the Control Loop Framework into performance studies curriculum.
NIH — Research affiliation and formal study documentation. Study 001 conducted under NIH research protocols.
Stanford University — Theater and Performance Studies collaboration. Ongoing research partnership and theoretical development.
Lund University — MSCA fellowship and international research partnership. Study 002 extension and international methodology dissemination.
RESEARCH PARTNERSHIP INQUIRY
Institutions interested in implementing the Control Loop Framework, replicating the research methodology, or developing case studies of their own should contact Scott Felluss directly.
Include details about your institution, research interests, and specific implementation objectives. Response within 48 hours.