Modeling of a roller-compaction process using neural networks and genetic algorithms.
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A. Sakr | M. Turkoğlu | I. Aydın | M. Murray
[1] E. Shotton,et al. The effect of waxes, hydrolysed gelatin and moisture on the compression characteristics of paracetamol and phenacetin , 1976, The Journal of pharmacy and pharmacology.
[2] M. H. Rubinstein,et al. Multiple Compression and Plasto‐elastic Behaviour of Paracetamol and Microcrystalline Cellulose Mixtures , 1988, The Journal of pharmacy and pharmacology.
[3] T. Nagai,et al. Novel computer optimization methodology for pharmaceutical formulations investigated by using sustained-release granules of indomethacin. , 1989, Chemical & pharmaceutical bulletin.
[4] T. Baykara,et al. COMPARING THE COMPRESSIBILITY OF LUDIPRESS WITH THE OTHER DIRECT TABLETING AGENTS BY USING ACETAMINOPHEN AS AN ACTIVE INGREDIENT , 1991 .
[5] K. Leiviskä,et al. The advantages by the use of neural networks in modelling the fluidized bed granulation process , 1994 .
[6] A. Sakr,et al. Artificial neural network analysis of a direct compression tabletting study , 1995 .