Real Time Monitoring of the CNC Process in a Production Environment- the Data Collection & Analysis Phase

Jonathan Downey; Denis O'Sullivan; Miroslaw Nejmen; Sebastian Bombinski; Paul O'Leary; Ramesh Raghavendra; Krzysztof Jemielniak

doi:10.1016/j.procir.2015.12.008

Real Time Monitoring of the CNC Process in a Production Environment- the Data Collection & Analysis Phase

Jonathan Downey, Denis O'Sullivan, Miroslaw Nejmen, Sebastian Bombinski, Paul O'Leary, Ramesh Raghavendra, Krzysztof Jemielniak

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

41 Citations (Scopus)

Abstract

For many years there has been considerable research from both an academic and industrial perspective into the monitoring and control of CNC machining processes, and progress has been well documented. It is widely acknowledged within the CIRP community that collection of information into the performance of material cutting processes is a worthwhile research topic, and this is mirrored in the work of the Scientific Technical Committee-Cutting (STC-C) and other Scientific Technical Committees. This work has been continued by the consortium engaged in the REALISM project, an EU-FP7 funded project which is investigating the use of sensor fusion in a real time production environment, to monitor CNC tool wear through the use of three sensor technologies- Force, Acoustic Emission and Vibration. However, the real work of the project consortium will be in the analysis and interpretation of the data from the collated fusion of the deployed sensors- and the intelligent interrogation of this sensor information. The sensor deployment strategy of this project was outlined in a presentation, poster and paper presented at the 2014 CIRP ICME conference and this current paper provides an update on the ongoing work. An overview is provided in this paper of the challenges that have been overcome as part of the REALISM project, and a brief overview of the initial verification trials that were undertaken on the deployment of the sensors. Further results will also be presented that show promising initial sensor data, which shows conditions leading to Catastrophic Tool Failure (CTF).

Original language	English
Title of host publication	Procedia CIRP
Publisher	Elsevier
Pages	920-926
Number of pages	7
Volume	41
DOIs	https://doi.org/10.1016/j.procir.2015.12.008
Publication status	Published - 2016
Event	48th CIRP International Conference on Manufacturing Systems, CIRP CMS 2015 - Ischia, Italy Duration: 24 Jun 2015 → 26 Jun 2015

Publication series

Name	Procedia CIRP
Publisher	Elsevier BV
ISSN (Print)	2212-8271

Conference

Conference	48th CIRP International Conference on Manufacturing Systems, CIRP CMS 2015
Country/Territory	Italy
City	Ischia
Period	24/06/2015 → 26/06/2015

Keywords

Catastrophic tool failure
Machining
Process control
Tool wear monitoring

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10.1016/j.procir.2015.12.008

Cite this

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title = "Real Time Monitoring of the CNC Process in a Production Environment- the Data Collection & Analysis Phase",

abstract = "For many years there has been considerable research from both an academic and industrial perspective into the monitoring and control of CNC machining processes, and progress has been well documented. It is widely acknowledged within the CIRP community that collection of information into the performance of material cutting processes is a worthwhile research topic, and this is mirrored in the work of the Scientific Technical Committee-Cutting (STC-C) and other Scientific Technical Committees. This work has been continued by the consortium engaged in the REALISM project, an EU-FP7 funded project which is investigating the use of sensor fusion in a real time production environment, to monitor CNC tool wear through the use of three sensor technologies- Force, Acoustic Emission and Vibration. However, the real work of the project consortium will be in the analysis and interpretation of the data from the collated fusion of the deployed sensors- and the intelligent interrogation of this sensor information. The sensor deployment strategy of this project was outlined in a presentation, poster and paper presented at the 2014 CIRP ICME conference and this current paper provides an update on the ongoing work. An overview is provided in this paper of the challenges that have been overcome as part of the REALISM project, and a brief overview of the initial verification trials that were undertaken on the deployment of the sensors. Further results will also be presented that show promising initial sensor data, which shows conditions leading to Catastrophic Tool Failure (CTF).",

keywords = "Catastrophic tool failure, Machining, Process control, Tool wear monitoring",

author = "Jonathan Downey and Denis O'Sullivan and Miroslaw Nejmen and Sebastian Bombinski and Paul O'Leary and Ramesh Raghavendra and Krzysztof Jemielniak",

note = "Publisher Copyright: {\textcopyright} 2016 The Authors.; 48th CIRP International Conference on Manufacturing Systems, CIRP CMS 2015 ; Conference date: 24-06-2015 Through 26-06-2015",

year = "2016",

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Downey, J, O'Sullivan, D, Nejmen, M, Bombinski, S, O'Leary, P , Raghavendra, R & Jemielniak, K 2016, Real Time Monitoring of the CNC Process in a Production Environment- the Data Collection & Analysis Phase. in Procedia CIRP. vol. 41, Procedia CIRP, Elsevier, pp. 920-926, 48th CIRP International Conference on Manufacturing Systems, CIRP CMS 2015, Ischia, Italy, 24/06/2015. https://doi.org/10.1016/j.procir.2015.12.008

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AU - Downey, Jonathan

AU - O'Sullivan, Denis

AU - Nejmen, Miroslaw

AU - Bombinski, Sebastian

AU - O'Leary, Paul

AU - Raghavendra, Ramesh

AU - Jemielniak, Krzysztof

PY - 2016

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N2 - For many years there has been considerable research from both an academic and industrial perspective into the monitoring and control of CNC machining processes, and progress has been well documented. It is widely acknowledged within the CIRP community that collection of information into the performance of material cutting processes is a worthwhile research topic, and this is mirrored in the work of the Scientific Technical Committee-Cutting (STC-C) and other Scientific Technical Committees. This work has been continued by the consortium engaged in the REALISM project, an EU-FP7 funded project which is investigating the use of sensor fusion in a real time production environment, to monitor CNC tool wear through the use of three sensor technologies- Force, Acoustic Emission and Vibration. However, the real work of the project consortium will be in the analysis and interpretation of the data from the collated fusion of the deployed sensors- and the intelligent interrogation of this sensor information. The sensor deployment strategy of this project was outlined in a presentation, poster and paper presented at the 2014 CIRP ICME conference and this current paper provides an update on the ongoing work. An overview is provided in this paper of the challenges that have been overcome as part of the REALISM project, and a brief overview of the initial verification trials that were undertaken on the deployment of the sensors. Further results will also be presented that show promising initial sensor data, which shows conditions leading to Catastrophic Tool Failure (CTF).

AB - For many years there has been considerable research from both an academic and industrial perspective into the monitoring and control of CNC machining processes, and progress has been well documented. It is widely acknowledged within the CIRP community that collection of information into the performance of material cutting processes is a worthwhile research topic, and this is mirrored in the work of the Scientific Technical Committee-Cutting (STC-C) and other Scientific Technical Committees. This work has been continued by the consortium engaged in the REALISM project, an EU-FP7 funded project which is investigating the use of sensor fusion in a real time production environment, to monitor CNC tool wear through the use of three sensor technologies- Force, Acoustic Emission and Vibration. However, the real work of the project consortium will be in the analysis and interpretation of the data from the collated fusion of the deployed sensors- and the intelligent interrogation of this sensor information. The sensor deployment strategy of this project was outlined in a presentation, poster and paper presented at the 2014 CIRP ICME conference and this current paper provides an update on the ongoing work. An overview is provided in this paper of the challenges that have been overcome as part of the REALISM project, and a brief overview of the initial verification trials that were undertaken on the deployment of the sensors. Further results will also be presented that show promising initial sensor data, which shows conditions leading to Catastrophic Tool Failure (CTF).

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KW - Process control

KW - Tool wear monitoring

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Y2 - 24 June 2015 through 26 June 2015

ER -

Real Time Monitoring of the CNC Process in a Production Environment- the Data Collection & Analysis Phase

Abstract

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Keywords

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