Sir-Lord Wiafe | Computational Systems Engineer

Computational Systems Engineer

SIR
LORD
WIAFE

I build frameworks that decode how complex systems evolve over time — from brain networks to any domain where history shapes the present. Agentic AI. Dynamic systems. Operator theory. Signal processing. State estimation.

26+

Publications

60+

Citations

Frameworks Built

View Research About Me

PhD Candidate · TReNDS Center · Georgia State University · Atlanta, GA

AGENTIC AI DYNAMIC SYSTEMS SIGNAL PROCESSING CONTROL THEORY STATE ESTIMATION OPERATOR THEORY

Real-Time System Dynamics

Visualizing time-varying interactions across a complex network — the core of every framework I build.

Agentic AI · Autonomous Systems Dynamic Time Warping · Warp Quantification Inertial State-Space Model · Functional Inertia DyCoM · Operator Framework Complex-Valued Phase Synchrony · Directional Coupling Kalman Filtering · State Estimation Communication Theory · Signal Processing Agentic AI · Autonomous Systems Dynamic Time Warping · Warp Quantification Inertial State-Space Model · Functional Inertia DyCoM · Operator Framework Complex-Valued Phase Synchrony · Directional Coupling Kalman Filtering · State Estimation Communication Theory · Signal Processing

⟁

Agentic AI

Building autonomous, goal-directed AI systems that perceive, reason, and act across complex environments

⊞

Operator Frameworks

Composing signal processing operations into unified, domain-agnostic architectures

∿

Dynamic Analysis

Time-varying systems, state-space modeling, and temporal alignment algorithms

⊛

State Estimation

Kalman filtering, inertial constraints, and history-dependent state evolution

⊗

Phase & Amplitude

Complex-valued synchrony, directional coupling detection, wavelet analysis

◈

Systems Engineering

Backend development, algorithm design, ML pipelines, and software architecture

Beyond The Brain

My Methods,
Any Domain

Every framework I've built is intentionally representation-agnostic. The math doesn't care if the signals come from brains, markets, or machines.

From: Functional Inertia (ISSM)

State-Space Modeling

→ APPLIES TO:

Robotics Trajectory Financial Markets Autonomous Vehicles IoT Sensor Networks Climate Systems

From: DyCoM Framework

Operator Decomposition

→ APPLIES TO:

Audio Processing Radar / Sonar Network Traffic ECG / EEG Analysis Multi-agent Systems

From: Warp Elasticity / DTW

Temporal Alignment

→ APPLIES TO:

Speech Recognition Gesture Detection Time-Series Prediction Manufacturing QA Video Understanding

From: Complex-Valued Phase Synchrony

Directional Coupling

→ APPLIES TO:

Power Grid Stability Oscillator Networks Communications Coupled Oscillators

From: Timescale-Aligned Amplitude Balance / DTW

Signal Balance Mapping

→ APPLIES TO:

Battery Management Thermal Systems Resource Allocation Smart Grids

From: Communication Theory + FC

Signal Complementarity

→ APPLIES TO:

Sensor Fusion Multi-modal Systems Wireless Networks Fault Detection

Latest Work · 2026

Functional Inertia Reveals History-Dependent Organization

The brain does not process the present in isolation. I formalized this as functional inertia — a quantifiable, representation-agnostic constraint describing how accumulated history resists ongoing reorganization in any dynamical system. The framework operates coherently at three scales simultaneously: dynamical regimes, system-level magnitude, and circuit-level distribution.

See All Papers →

KEY CONTRIBUTIONS

Inertial State-Space Model (ISSM) — formalizes accumulated history as a latent state variable

Three recurrent dynamical regimes: Locked, Stabilizing, Shifting

Same constraint → opposite clinical signatures depending on system context

NIH R01MH123610 · NSF #2112455 2026

Technical Toolkit

Built to
Engineer.

Electrical engineering roots. Computer science PhD. Software development experience. The full stack of a systems engineer.

Full Skill Profile →

Agentic AI Dynamic Systems Python · MATLAB Signal Processing State-Space Models Kalman Filtering Machine Learning Temporal Alignment Control Theory Operator Theory Backend (Node/SQL) Neuroimaging (fMRI)