Tools for designing optimal flip angle schemes for hyperpolarized carbon-13 magnetic resonance spectroscopy.

The Flip Angle Design Toolbox provides a framework for specifying a linear differential equation model

dx/dt = A x(t) + B u(t)

to describe magnetization dynamics and tools for maximum likelihood and least-squares estimation of unknown model parameters. Toolbox also provides routines to generate optimal flip angle schemes for design objectives including:

• maximizing signal-to-noise ratio
• and providing minimum-variance estimates of model parameters.

The MATLAB script DEMO.m provides a demonstration of the toolbox's capabilities. The main functionalities are:

• a class linear_exchange_model for specifying a model of the magnetization dynamics
• a function generate_data for computing simulated observation trajectories generated by the model
• a function optimal_flip_angle_design for computing optimal flip angle schemes
• a function parameter_estimation for computing maximum likelihood or least-squares estimates of unknown model parameters.

This toolbox requires that the following MATLAB toolboxes are installed:

• Optimization Toolbox
• Symbolic Math Toolbox