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A Python framework for Probabilistic Acoustic Sediment Mapping. See project website here for more details

Contributing & Credits

Software Developer: Dr. Daniel Buscombe, Northern Arizona University, Flagstaff, AZ 86011, Now at Marda Science, LLC.

Example backscatter data (.tiff files) originate from data collected by R2Sonic and distributed for use as part of the R2Sonic 2017 Multispectral Backscatter competition.

Bed observation data from Patricia Bay are digitized from data presented in: B.~Biffard. Seabed remote sensing by single-beam echosounder: models, methods and applications. Doctoral dissertation, University of Victoria, Canada, 2011.

Bed observation data from Portsmouth (NEWBEX) are digitized from data presented in: T.~Weber, L.~and Ward. Observations of backscatter from sand and gravel seafloors between 170 and 250 kHz. Journal of the Acoustical Society of America, vol.~138, no.~4, pp.~2169 - 2180, 2015.

CRF subfunctions using the pydensecrf wrapper

Setup

Installing in a conda virtual env (recommended)

PriSM is designed for use with Python 3

conda env create --file env/prism.yml
conda activate prism

Running the test

Then run the test ::

python -c "import prism; prism.test.dotest()"

win6

win7

Using the GUI

run the GUI ::

python -c "import prism; prism.gui_funcs.gui()"

win8

or alternatively from within the python console like so:

win9

More info

Download the user manual

Using prism within python scripts

A full worked example using the NEWBEX data set


def run_prism():

   #==================================================================================
   ##GMM parameters
   covariance = 'full'
   tol = 1e-2

   ##CRF parameters
   theta = 300
   mu = 100
   n_iter = 15

   # general settings
   gridres = 1  # grid size in m
   buff = 10 # buffer distance on each bed observation
   prob_thres = 0.1 #probability threshold
   chambolle = 0.0  #chambolle filter
   test_size = 0.5

   ## update this with the full file path
   bs100 = 'newbex_mosaic_100.tiff'
   bs200 = 'newbex_mosaic_200.tiff'
   bs400 = 'newbex_mosaic_400.tiff'
   refs_file = 'newbex_bed.shp'

   prefix = 'newbex'


   #======== READ
   #==================================================================================
   input = [bs100, bs200, bs400]
   img, bs = read_geotiff(input, gridres, chambolle)

   bed = read_shpfile(refs_file, bs)
   Lc = get_sparse_labels(bs, bed, buff)

   if np.ndim(img)>2:
      mask = img[:,:,0]==0
   else:
      mask = img==0

   #======== GMM
   #==================================================================================
   g = fit_GMM(img, Lc, test_size, covariance, tol)
   y_pred_gmm, y_prob_gmm, y_gmm_prob_per_class = apply_GMM(g, img, prob_thres)

   #======== CRF
   #==================================================================================
   y_pred_crf, y_prob_crf, y_crf_prob_per_class = apply_CRF(img, Lc, bed['labels'], n_iter, prob_thres, theta, mu)

   #======== PLOT
   #==================================================================================
   cmap = plt.get_cmap('tab20b',len(bed['labels'])-1).colors

   cmap1 = []
   cmap1.append('gray')
   for k in cmap:
      cmap1.append(colors.rgb2hex(k))

   plot_dists_per_sed(Lc, img, bed, cmap1, prefix)

   plot_gmm(mask, y_pred_gmm, y_prob_gmm, bs, bed, cmap, prefix)
   plot_crf(mask, y_pred_crf, y_prob_crf, bs, bed, cmap, prefix)

   plot_gmm_image(mask, y_pred_gmm, y_prob_gmm, bs, bed, cmap, prefix)
   plot_crf_image(mask, y_pred_crf, y_prob_crf, bs, bed, cmap, prefix)

   plot_gmm_crf(mask, y_pred_gmm, y_prob_gmm, y_pred_crf, y_prob_crf, bs, bed, cmap, prefix)
   plot_gmm_crf_images(mask, y_pred_gmm, y_prob_gmm, y_pred_crf, y_prob_crf, bs, bed, cmap, prefix)
   plot_bs_maps(img, bed, bs, cmap, prefix)

   plot_confmatCRF(y_pred_crf, Lc, bed, prefix)
   plot_confmatGMM(y_pred_gmm, Lc, bed, prefix)

   #======== EXPORT
   #==================================================================================
   export_bed_data(bed, prefix)
   export_gmm_gtiff(mask, y_pred_gmm.copy(), y_prob_gmm.copy(), bs, prefix)
   export_crf_gtiff(mask, y_pred_crf.copy(), y_prob_crf.copy(), bs, prefix)

if __name__ == '__main__':
   run_prism()

Version History

v. 0.1. 2/26/2018. Initial public release 11/16/21 minor upgrade / test - still works!

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Probabilistic Acoustic Sediment Mapping toolbox

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