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rfX = np.loadtxt(training_path+'/rfX.txt') |
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rfY = np.loadtxt(training_path+'/rfY.txt') |
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rfZ = np.loadtxt(training_path+'/rfZ.txt') |
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rtX = np.loadtxt(training_path+'/rtX.txt') |
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rtY = np.loadtxt(training_path+'/rtY.txt') |
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rtZ = np.loadtxt(training_path+'/rtZ.txt') |
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lfX = np.loadtxt(training_path+'/lfX.txt') |
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lfY = np.loadtxt(training_path+'/lfY.txt') |
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lfZ = np.loadtxt(training_path+'/lfZ.txt') |
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ltX = np.loadtxt(training_path+'/ltX.txt') |
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ltY = np.loadtxt(training_path+'/ltY.txt') |
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ltZ = np.loadtxt(training_path+'/ltZ.txt') |
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dlen = min(np.size(lfZ),np.size(rfZ)) |
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gX = np.loadtxt(training_path+'/gX.txt') |
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gY = np.loadtxt(training_path+'/gY.txt') |
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gZ = np.loadtxt(training_path+'/gZ.txt') |
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accX = np.loadtxt(training_path+'/accX.txt') |
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accY = np.loadtxt(training_path+'/accY.txt') |
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accZ = np.loadtxt(training_path+'/accZ.txt') |
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dlen = min(dlen,np.size(accZ)) |
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dcX = np.loadtxt(training_path+'/comvX.txt') |
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dcY = np.loadtxt(training_path+'/comvY.txt') |
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dcZ = np.loadtxt(training_path+'/comvZ.txt') |
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dlen = min(dlen,np.size(dcZ)) |
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|
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if(self.gem2): |
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lvX = np.loadtxt(training_path+'/lvX.txt') |
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lvY = np.loadtxt(training_path+'/lvY.txt') |
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lvZ = np.loadtxt(training_path+'/lvZ.txt') |
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dlen = min(dlen,np.size(lvZ)) |
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rvX = np.loadtxt(training_path+'/rvX.txt') |
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rvY = np.loadtxt(training_path+'/rvY.txt') |
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rvZ = np.loadtxt(training_path+'/rvZ.txt') |
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dlen = min(dlen,np.size(rvZ)) |
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lwX = np.loadtxt(training_path+'/lwX.txt') |
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lwY = np.loadtxt(training_path+'/lwY.txt') |
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lwZ = np.loadtxt(training_path+'/lwZ.txt') |
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rwX = np.loadtxt(training_path+'/rwX.txt') |
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rwY = np.loadtxt(training_path+'/rwY.txt') |
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rwZ = np.loadtxt(training_path+'/rwZ.txt') |
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#laccX = np.loadtxt(training_path+'/laccX.txt') |
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#laccY = np.loadtxt(training_path+'/laccY.txt') |
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#laccZ = np.loadtxt(training_path+'/laccZ.txt') |
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#dlen = min(dlen,np.size(laccZ)) |
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#raccX = np.loadtxt(training_path+'/raccX.txt') |
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#raccY = np.loadtxt(training_path+'/raccY.txt') |
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#raccZ = np.loadtxt(training_path+'/raccZ.txt') |
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#dlen = min(dlen,np.size(raccZ)) |
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baccX_LL = np.loadtxt(training_path+'/baccX_LL.txt') |
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baccY_LL = np.loadtxt(training_path+'/baccY_LL.txt') |
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baccZ_LL = np.loadtxt(training_path+'/baccZ_LL.txt') |
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baccX_RL = np.loadtxt(training_path+'/baccX_RL.txt') |
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baccY_RL = np.loadtxt(training_path+'/baccY_RL.txt') |
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baccZ_RL = np.loadtxt(training_path+'/baccZ_RL.txt') |
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baccX = np.loadtxt(training_path+'/baccX.txt') |
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baccY = np.loadtxt(training_path+'/baccY.txt') |
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baccZ = np.loadtxt(training_path+'/baccZ.txt') |
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|
|
bgX_LL = np.loadtxt(training_path+'/bgX_LL.txt') |
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bgY_LL = np.loadtxt(training_path+'/bgY_LL.txt') |
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bgZ_LL = np.loadtxt(training_path+'/bgZ_LL.txt') |
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bgX_RL = np.loadtxt(training_path+'/bgX_RL.txt') |
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bgY_RL = np.loadtxt(training_path+'/bgY_RL.txt') |
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bgZ_RL = np.loadtxt(training_path+'/bgZ_RL.txt') |
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bgX = np.loadtxt(training_path+'/bgX.txt') |
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bgY = np.loadtxt(training_path+'/bgY.txt') |
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bgZ = np.loadtxt(training_path+'/bgZ.txt') |
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dlen = min(dlen,min(np.size(bgZ_LL),np.size(baccZ_RL))) |
Hi @mrsp, first of all thank you for developing gem2. I was trying to train the framework with a custom dataset.
In order to organize data in the same format of the example provided in the repo I was wondering the exact meaning of the file names stored in https://github.com/mrsp/gem2/tree/main/GEM2_nao_training and loaded by the following function
gem2/src/gem2_tools.py
Lines 102 to 169 in af30917
cc @paolo-viceconte