wiki:PostBetaToDo

Post Beta To Do Items for RFPulse

  • Finish Root Reflection tranformation
  • Add a Gradient Refocusing % option (see notes from 4/26/11)
  • Implement additional transformations at UI, DB, and at math and logic level. Probably will still need to do Optimal Control and Root Reflection. Jerry's suggested order for other transformations:
    • REMAPPING
    • OPTIMAL_CONTROL
    • New Pulse types: Sinc Gaussian and Gaussian
  • then...
    • SAMPLE_EFFECTS
    • PULSE_CONCATENATION
  • Note: When implementing 'concatenate pulses': copy over the "imported" pulses, and FREEZE them, and keep for provenance.
  • Continue to Update RFPulse wiki to be more USER friendly (see simulation).
  • Add more science tests (regression tests).
  • Add more unit tests (decide on a unit testing framework).
  • Add in additional analytic pulse types (Sinc-Guassian Gaussian) and the Random pulse.
  • Implement the Import or 3rd party pulses from Varian, Siemens, and Matpulse. See notes on 3rd party Importation.
  • Finish coding for other Bandwidth_Conventions.
  • Add new algorithm to rescaling, i.e. maximum phase shift from average (see note in resacale.py). Also, return flag as to what kind of rotation was performed (total or net).
  • Talk to Jerry about how to calculate corrections (fudges) in min_max_setup.py dynamically and not statically (and implement).
  • Implement dwell_time on interpolation page, and allow users to reduce number of points.
  • Reconsider if we want to allow a user to recover a saved (to db) set to machine settings after repopulating from a new template. e.g. Siemens (saved), etc., and hitting run, but before saving.
  • Add import/export of results to these formats: e.g. Bruker, Philips, GE.
  • Import RF pulse(s), or pulse_project results, into an editor for designing a pulse sequence. Probably will be done in Simulation.
  • Save UI settings, for plotting, for each tab in every pulse project (perhaps to the database).
  • (BJS) Write wiki doc on use of Transformation Base class
  • (DCT) Add scientific integrity (fidelity) tests to pulse_funcs code.
  • (KY) See if possible to make interopolation work within root reflection.
  • (KY) Write wiki doc on use of Pulse_functs as generic python code for use outside of Vespa
  • Have interpolation be more full-features. Allow users to specify # of points, fractional scaling factors, or new dwell_time.
  • Implement iterative solution of Hyperbolic-secant so get the exact bandwidth not an approximate bandwidth.
Last modified 8 years ago Last modified on May 20, 2011, 1:23:39 PM