Man pages for pmbrophy/SummitR
Provides a set of tools for peak fitting
| fit_gaussian_nlm | Fit a Gaussian Peak Using Non-Linear Least Squares |
| fit_gaussian_optim | Fit a Gaussian Peak Using quasi-Newtonian optomization method... |
| fit_nGaussian_ga | Fit N-Gaussian Peaks Using genetic algorithm |
| fit_nGaussian_optim | Fit N-Gaussian Peaks Using quasi-Newtonian optomization... |
| func_arbGaussian | Calculate Normal Distribution or Gaussian Peak |
| func_biGaussian | Calculate a Bi-Gaussian Probability Density or Peak |
| func_expGaussian | Calculate an Exponentially Modified Gaussian Probability... |
| func_fraserSuzuki | Calculate Fraser-Suzuki Peak Model |
| func_gaussian | Calculate Normal Distribution or Gaussian Peak |
| func_logNormal | Calculate Log-Normal Distribution or Log-Gaussian Peak |
| func_lorentzian | Calculate Cauchy (Lorentz) probability density function or a... |
| func_pseudoVoigt | Calculate Pseudo-Voigt Using Numerical Approximation |
| leftShift_greater | Check X-left side neighbors are greater |
| leftShift_less | Check X-left side neighbors are less |
| localMax | Calculate local maximum within a local neighborhood |
| localMin | Calculate local minimum within a local neighborhood |
| multi_biGaussian | Calculate Bi-Gaussian Distribution(s) or Bi-Gaussian Peak(s) |
| multi_expGaussian | Calculate Exponentially Modified Gaussian Probability... |
| multi_fraserSuzuki | Calculate Fraser-Suzuki Peak Models |
| multi_gaussian | Calculate Normal Distribution(s) or Gaussian Peak(s) |
| multi_logNormal | Calculate Log-Normal Distribution(s) or Peak(s) |
| multi_lorentzian | Calculate Cauchy (Lorentz) probability density function(s) or... |
| multiPeak_sum | Formatting/housekeeping function for PeakFunctions output |
| multi_pseudoVoigt | Calculate Pseudo-Voigt Using Numerical Approximation |
| rightShift_greater | Check X-right side neighbors are greater |
| rightShift_less | Check X-right side neighbors are less |
