POLITECHNIKA WARSZAWSKA

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A1. Description of the simulation program A1.5. Design example using ANN-LAB software As the example, how to use this program to simulate the ANN optimal mode current controller (see section 4.4), the algorithm divided in few steps is presented as follows. A1.5.1. General information about the ANN model: A1.5.1.1. Limitations There are some limitations in the ANN structure: max number of neurons 40 max number of weights 300 max number of inputs 10 max number of outputs 10 A1.5.1.2. ANN structure (file: int.DATA) Weights description is: w xyz, where x denoted No. of layer, y denoted No. of input connection, z denoted No. of output connection x y z are numbers 0 9 A1.5.1.3. Data scaling: There are adjustable gain factors on ANN inputs: kr0 - kr9 191
A1. Description of the simulation program A1.5.2. Off-line trained ANN design procedure for using as PWM Current Controller The simulation algorithm consists of the following steps: A1.5.2.1. Creating a training file: nnf000.asc ⎝ Run opt.exe with data file opt.cfg for 3 (or more) values of speed (steady state), ⎝ Store the simulation results as files nnf001.asc, nnf002.asc, nnf003.asc (by stetting flag_f to 1, and variable npl to 1,2,3 respectively) ⎝ Create a sum file under DOS: nnf001.asc+nnf002.asc+nnf003.asc, and change the name of the resulting file to: nnf000.asc A1.5.2.2. Training ANN ⎝ Execute opt.exe with data file nn3w.cfg for different: - learning factors eta, - forgetting factors mu. Usually training time is about 10 s ⎝ Save data (F) and create numerical data (N) file weights.dat ⎝ Edit file weights.dat and change the regulation time (tb start and te final time) which is much shorter compare to training time A1.5.2.3. Running ANN as PWM Current Controller ⎝ Go to file: om3.cfg (or om3a.cfg) and write in the numerical data (3 row) the name of the new created in point 2 file weights.dat with ANN weights. ⎝ Run opt.exe with data file om3.cfg Observe the performance factors: PSE and PR. If PSE is lower as 0.75 reaped the procedure and go to point 1. 192
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POLITECHNIKA WARSZAWSKA WARSAW UNIV
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Contents 1. Introduction 4 2. Mathe
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1. Introduction 1. INTRODUCTION The
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1. Introduction In the author’s o
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2. Mathematical description of indu
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3. Basics of Artificial Neural Netw
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4. ANN based Current Controllers (C
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4. ANN based Current Controllers 4.
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4. ANN based Current Controllers Ta
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4. ANN based Current Controllers Th
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4. ANN based Current Controllers As
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4. ANN based Current Controllers Fi
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4. ANN based Current Controllers a)
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4. ANN based Current Controllers an
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4. ANN based Current Controllers Th
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5. Speed estimation of induction mo
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5.3.1.2. Improved method based on t
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Therefore, the discrete model of st
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6. ANN sensorless Field Oriented Co
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Page 171 and 172: References REFERENCES Books and Ove
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Page 175 and 176: References [66] A. Tripathi and P.
Page 177 and 178: References [97] J. W. Kolar, H. Ert
Page 179 and 180: References [129] M. P. Kazmierkowsk
Page 181 and 182: A1. Description of the simulation p
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Page 195 and 196: A2. Laboratory setup A2. Laboratory
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Page 199 and 200: A2. Laboratory setup Offset calibra
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Page 203 and 204: A3. Motor parameters A3. MOTOR PARA
Page 205 and 206: A4. Notation - u s - stator voltage
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POLITECHNIKA WARSZAWSKA

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