Definition
“Monitoring” makes the conditions of processes, tools, machines and machine components, and workpieces visible, processible, analyzable, and describable by means of characteristic values obtained during the running process. Monitoring possesses the detection of the functioning or deviation of actual values from the planned values over a certain period of time. Thus, it enables the distinction concerning proper conditions or faulty condition. Monitoring allows to obtain the input-output causalities of processes. It provides the basis for adaptive control by adjusting process input parameters. A monitoring system comprises elements for data acquisition, signal (pre)processing, data assessment, and decision making. The monitoring strategy is the applied method for signal acquisition and assessment, in which the monitoring algorithm defines structure rules of the monitoring strategy.
Theory and Application
Theory...
This is a preview of subscription content, log in via an institution to check access.
References
Achichea S, Balazinski M, Baron L, Jemielniak K (2002) Tool wear monitoring using genetically-generated fuzzy knowledge bases. Eng Appl Artif Intell 15:303–314
Albrecht A, Park S, Altintas Y, Pritschow G (2005) High frequency bandwidth cutting force measurement in milling using capacitance displacement sensors. Int J Mach Tools Manuf 45:993–1008
Al-Habaibeh A, Gindy N (2000) A new approach for systematic design of condition monitoring systems for milling processes. J Mater Process Technol 107:243–251
Altintas Y (1992) Prediction of cutting forces and tool breakage in milling from feed drive current measurement. J Eng Ind 114(4):386–392
Auchet S, Chevrier P, Lacour M, Lipinski P (2004) A new method of cutting force measurement based on command voltages of active electro-magnetic bearings. Int J Mach Tools Manuf 44:1441–1449
Axinte D, Gindy N (2004) Assessment of the effectiveness of a spindle power signal for tool condition monitoring in machining processes. Int J Prod Res 42(13):2679–2691
Balazinski M, Jemielniak K (1998) Tool conditions monitoring using fuzzy decision support system. In: V. CIRP international conference on monitoring and automatic supervision in manufacturing, Miedzeszyn near Warsaw, 20–21 Aug, pp 115–122
Byrne G, O’Donnell GE (2007) An integrated force sensor solution for process monitoring of drilling operations. CIRP Ann Manuf Technol 56(1):89–92
Byrne G, Dornfeld D, Inasaki I, Ketteler G, König W, Teti R (1995) Tool condition monitoring – the status of research and industrial application. CIRP Ann Manuf Technol 44(2):541–567
Byrne G, Dornfeld D, Denkena B (2004) Advancing cutting technology. CIRP Ann Manuf Technol 52(2):483–507
Caralon TA, Kidd SR, Hand DP, Wilcox SJ, Wilkinson P, Barton JS, Jones JDC, Reuben RL (1997) Acoustic emission monitoring of tool wear during the face milling of steels and aluminium alloys using a fibre optic sensor (parts 1 + 2). Proceedings of the institution of mechanical engineers, part b. J Eng Manuf 211(4):299–309, 311–319
Davies MA, Ueda T, M’Saoubi R, Mullany B, Cooke AL (2007) On the measurement of temperature in material removal processes. CIRP Ann Manuf Technol 56(2):581–604
Dimla DE (2000) Sensor signals for tool-wear monitoring in metal cutting: a review of methods. Int J Mach Tools Manuf 40:1073–1098
Dornfeld D, Lee DE (2008) Precision manufacturing. Springer, New York
Dornfeld D, Min S, Takeuchi Y (2006) Recent advances in mechanical micromachining. CIRP Ann Manuf Technol 55(2):745–768
Hundt W, Leuenberger D, Rehsteiner F, Gygax P (1994) An approach to monitoring of the grinding process using acoustic emission (AE) technique. CIRP Ann Manuf Technol 43(1):295–298
Inasaki I (1998) Application of acoustic emission sensor for monitoring machining processes. Ultrason Int 36(1–5):273–281
Jemielniak K (2001) Some aspects of acoustic emission signal pre-processing. J Mater Process Technol 109:242–247
Jemielniak K, Arrazola PJ (2008) Application of AE and cutting force signals in tool condition monitoring in micro-milling. CIRP J Manuf Sci Technol 1:97–102
Karpuschewski B (2001) Sensoren zur Prozeßüberwachung beim Spanen. Habilitationsschrift [Sensors for monitoring of material removal processes, habilitation thesis]. Fortschritt-Berichte VDI, Reihe 2, Nr. 581, Berichte aus dem Institut für Fertigungstechnik und Spanende Werkzeugmaschinen, Universität Hannover. VDI-Verlag, Düsseldorf
Karpuschewski B, Wehmeier M, Inasaki I (2000) Grinding monitoring system based on power and AE sensing. CIRP Ann Manuf Technol 49(1):235–240
Klocke F, Rehse M (1997) Intelligent tools through integrated micro systems. Prod Eng Res Dev 4(2):65–68
Kuljanic E, Sortino M, Totis G (2009) Development of an intelligent multi-sensor chatter detection in milling. Mech Syst Signal Process 23(5):1704–1718
Kunpeng Z, Wong YS, Hong GS (2009) Wavelet analysis of sensor signals for tool condition monitoring – a review and some new results. Int J Mach Tools Manuf 49:537–553
Kurada S, Bradley C (1997) A review of machine vision sensors for TCM. Comput Ind 34:55–72
Kwak JS (2006) Application of wavelet transform technique to detect tool failure in turning. Int J Adv Manuf Technol 28:1078–1083
Lange D (2004) Systems and strategies for control-system-integrated process and machine condition monitoring. In: CIRP international conference on high performance cutting, Aachen
Li X, Dong S, Yuan Z (1999) Discrete wavelet transform for tool breakage monitoring. Int J Mach Tools Manuf 39:1935–1944
Micheletti DF, König W, Victor HR (1976) In process tool wear sensor for cutting operations. CIRP Ann Manuf Technol 25(2):483–496
Möhring HC, Litwinski KM, Gümmer O (2010) Process monitoring with sensory machine tool components. CIRP Ann Manuf Technol 59(1):383–386
Pritschow G, Bretschneider J, Fritz S (1999) Reconstruction of process forces within digital servodrive systems. Prod Eng Res Dev 6(1):73–78
Shinno H, Hashizume H (1997) In-process monitoring method for machining environment based on simultaneous multiphenomena sensing. CIRP Ann Manuf Technol 46(1):53–56
Sick B (2002) On-line and indirect tool wear monitoring in turning with artificial neural networks: a review of more than a decade of research. Mech Syst Signal Process 16(4):487–546
Teti R (1995) A review of tool condition monitoring literature database. CIRP Ann Manuf Technol 44(2):659–666
Teti R, Kumara SRT (1997) Intelligent computing methods for manufacturing systems. CIRP Ann Manuf Technol 46(2):629–652
Teti R, Jawahir IS, Jemielniak K, Segreto T, Chen S, Kossakowska J (2006) Chip form monitoring through advanced processing of cutting force sensor signals. CIRP Ann Manuf Technol 55(1):75–80
Teti R, Jemielniak K, O’Donnell G, Dornfeld D (2010) Advanced monitoring of machining operations. CIRP Ann Manuf Technol 59(2):717–739
Tlusty J, Andrews GC (1983) A critical review of sensors for unmanned machining. CIRP Ann Manuf Technol 32(2):563–572
Tönshoff HK, Inasaki I (eds) (2001) Sensors applications. vol 1: sensors in manufacturing. Wiley-VCH, Weinheim
Tönshoff HK, Wulfsberg JP, Kals HJ, König W, van Luttervelt CA (1988) Development and trends in monitoring and control of machining process. CIRP Ann Manuf Technol 37(2):611–622
Author information
Authors and Affiliations
Corresponding author
Section Editor information
Rights and permissions
Copyright information
© 2018 CIRP
About this entry
Cite this entry
Möhring, HC. (2018). Monitoring. In: CIRP Encyclopedia of Production Engineering. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-35950-7_6410-4
Download citation
DOI: https://doi.org/10.1007/978-3-642-35950-7_6410-4
Received:
Accepted:
Published:
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-35950-7
Online ISBN: 978-3-642-35950-7
eBook Packages: Springer Reference EngineeringReference Module Computer Science and Engineering
