RaoB.K.N. (1996) Handbook of Condition Monitoring, Elsevier Advanced Technology, Oxford.
2.
KonigW.LanghammerK.SchemmelH.U. (1972) Correlation Between Cutting Force Components and Tool Wear, Annals of the CIRP, 21 (1), 19–20.
3.
TaramanK.SwandoR.YamauchiW. (1974) Relations Between Tool Forces and Flank Wear, SME Technical Paper, MR74–704.
4.
WangZ.LawrenzW.RaoB.K.N.HopeT. (1996) Feature-Filtered Fuzzy Clustering for Condition monitoring of Tool Wear, Journal of Intelligent Manufacturing, 7, 13–22.
5.
MatsushimaK.BertokP.SataT. (1982) In-Process Detection of Tool Breakage by Monitoring the Spindle Motor Current of a Machine Tool, Measurement & Control for Batch Manufacturing, 145–153.
6.
MichelettiG.F.KonigW.VictorH.R. (1976) In-Process Toll Wear Sensors for Cutting Operations, Annals of the CIRP, 25 (2), 483–493.
7.
WellerE.J.SchrierH.M.WeichbrodtB. (1969) What Sounds Can Be Expected From a Worn Tool, Transactions of the ASME, Journal of Engineering for Industry, Series B, 91 (3), 525–534.
8.
JavedM.A.HopeA.D.LittlefairG.AdradiD.SmithG.T.RaoB.K.N. (1996) On-Line Tool Condition Monitoring using Artificial Neural Networks, Journal of Insight, 38 (5), 351–354.
9.
IwataK.MoriwakiT. (1977) An Application of Acoustic Emission Measurement to In-Process Sensing of Tool Wear, Annals of the CIRP, Vol. 25 No. 1, 21–26.
10.
Kannatey-AsibuE.Jr.DornfieldD.A. (1982) A Study of Tool Wear using Statistical Analysis of Metal Cutting Acoustic Emission, Wear, vol. 76, No. 2, 247–261.
11.
BlumT.SuzukiI.InasakiI. (1988) Development of a Condition Monitoring System for Cutting Tools Using an Acoustic Emission Sensor, Bulletin of the Japanese Society of Precision Engineering, Vol. 22, No. 4, 301–308.
12.
ChatfieldC. (1988) Problem Solving: A Statistician's Guide, Chapman & Hall, London.
13.
ChouQ.PangS. (1992) Modern Metal Cutting Technology, The Publisher of Mechanical Industry, Beijing.
14.
PapazafiriouT.ElbestawiM.A. (1988) Development of a Wear Related Feature for Toll Condition Monitoring in Milling, Proceedings of the USA/Japan Symposium on Flexible Autom. Crossing Bridges, published by ASME, 1009–1016.
15.
BeauchampK.G. (1984) Applications of Walsh and Related Functions, Academic Press, London.
16.
MonostoriL. (1988) New Trends in Machine Tool Monitoring and Diagnostics, Robotics and Computer-Integrated Manufacturing, Vol. 4, No. 3/4, 457–464.
17.
ZengL.WangH.P. (1991) Machine Fault Classification: A Fuzzy set Approach, Journal of Advanced Manufacturing Technology6, 83–94.
18.
PoularikasA.D. (1996) The Transforms and Applications Handbook, CRC Press.
19.
HermanG.HorvathL.MonostoriL. (1982) Real-Time Monitoring of Machine Tools via Walsh-Hadmard Transform, IEEE International Conference on Acoustics, Speech & Signal Processing, 343–346.
20.
DinsteinI.SilberbergT. (1981) Average Walsh Power Spectrum for Periodic Signals, IEEE Transactions on Electromagnetic CompatibilityEMC-23, No. 4407–412.
21.
MonostoriL. (1987) Learning Procedure in Machine Tool Monitoring, Computers in Industry, 7, 53–64.
