Cutting Edge Localisation in an Edge Profile Milling Head

Laura Fernandez Robles; George Azzopardi; Enrique Alegre; Nicolai Petkov

doi:10.1007/978-3-319-23117-4_29

Cutting Edge Localisation in an Edge Profile Milling Head

Laura Fernandez Robles, George Azzopardi, Enrique Alegre, Nicolai Petkov

Intelligent Systems

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

14 Citations (Scopus)

24 Downloads (Pure)

Abstract

Wear evaluation of cutting tools is a key issue for prolonging their lifetime and ensuring high quality of products. In this paper, we present a method for the effective localisation of cutting edges of inserts in digital images of an edge profile milling head. We introduce a new image data set of 144 images of an edge milling head that contains 30 inserts. We use a circular Hough transform to detect the screws that fasten the inserts. In a cropped area around a detected screw, we use Canny’s edge detection algorithm and Standard Hough Transform to localise line segments that characterise insert edges. We use this information and the geometry of the insert to identify which of these line segments is the cutting edge. The output of our algorithm is a set of quadrilateral regions around the identified cutting edges. These regions can then be used as input to other algorithms for the quality assessment of the cutting edges. Our results show that the proposed method is very effective for the localisation of the cutting edges of inserts in an edge profile milling machine.

Original language	English
Title of host publication	Computer Analysis of Images and Patterns
Subtitle of host publication	16th International Conference, CAIP 2015, Valletta, Malta, September 2-4, 2015, Proceedings, Part II
Editors	G. Azzopardi, N. Petkov
Publisher	Springer
Pages	336-347
Number of pages	12
ISBN (Electronic)	978-3-319-23117-4
ISBN (Print)	978-3-319-23116-7
DOIs	https://doi.org/10.1007/978-3-319-23117-4_29
Publication status	Published - 26-Aug-2015

Publication series

Name	Lecture notes in computer science
Publisher	Springer
Volume	9257

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10.1007/978-3-319-23117-4_29

Cutting Edge Localisation in an Edge Profile Milling HeadFinal publisher's version, 6.6 MBLicence: Taverne

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Fernandez Robles, L., Azzopardi, G., Alegre, E., & Petkov, N. (2015). Cutting Edge Localisation in an Edge Profile Milling Head. In G. Azzopardi, & N. Petkov (Eds.), Computer Analysis of Images and Patterns: 16th International Conference, CAIP 2015, Valletta, Malta, September 2-4, 2015, Proceedings, Part II (pp. 336-347). (Lecture notes in computer science; Vol. 9257). Springer. https://doi.org/10.1007/978-3-319-23117-4_29

Fernandez Robles, Laura ; Azzopardi, George ; Alegre, Enrique et al. / Cutting Edge Localisation in an Edge Profile Milling Head. Computer Analysis of Images and Patterns: 16th International Conference, CAIP 2015, Valletta, Malta, September 2-4, 2015, Proceedings, Part II. editor / G. Azzopardi ; N. Petkov. Springer, 2015. pp. 336-347 (Lecture notes in computer science).

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title = "Cutting Edge Localisation in an Edge Profile Milling Head",

abstract = "Wear evaluation of cutting tools is a key issue for prolonging their lifetime and ensuring high quality of products. In this paper, we present a method for the effective localisation of cutting edges of inserts in digital images of an edge profile milling head. We introduce a new image data set of 144 images of an edge milling head that contains 30 inserts. We use a circular Hough transform to detect the screws that fasten the inserts. In a cropped area around a detected screw, we use Canny{\textquoteright}s edge detection algorithm and Standard Hough Transform to localise line segments that characterise insert edges. We use this information and the geometry of the insert to identify which of these line segments is the cutting edge. The output of our algorithm is a set of quadrilateral regions around the identified cutting edges. These regions can then be used as input to other algorithms for the quality assessment of the cutting edges. Our results show that the proposed method is very effective for the localisation of the cutting edges of inserts in an edge profile milling machine.",

author = "{Fernandez Robles}, Laura and George Azzopardi and Enrique Alegre and Nicolai Petkov",

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Fernandez Robles, L, Azzopardi, G, Alegre, E & Petkov, N 2015, Cutting Edge Localisation in an Edge Profile Milling Head. in G Azzopardi & N Petkov (eds), Computer Analysis of Images and Patterns: 16th International Conference, CAIP 2015, Valletta, Malta, September 2-4, 2015, Proceedings, Part II. Lecture notes in computer science, vol. 9257, Springer, pp. 336-347. https://doi.org/10.1007/978-3-319-23117-4_29

Cutting Edge Localisation in an Edge Profile Milling Head. / Fernandez Robles, Laura; Azzopardi, George; Alegre, Enrique et al.
Computer Analysis of Images and Patterns: 16th International Conference, CAIP 2015, Valletta, Malta, September 2-4, 2015, Proceedings, Part II. ed. / G. Azzopardi; N. Petkov. Springer, 2015. p. 336-347 (Lecture notes in computer science; Vol. 9257).

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

TY - GEN

T1 - Cutting Edge Localisation in an Edge Profile Milling Head

AU - Fernandez Robles, Laura

AU - Azzopardi, George

AU - Alegre, Enrique

AU - Petkov, Nicolai

PY - 2015/8/26

Y1 - 2015/8/26

N2 - Wear evaluation of cutting tools is a key issue for prolonging their lifetime and ensuring high quality of products. In this paper, we present a method for the effective localisation of cutting edges of inserts in digital images of an edge profile milling head. We introduce a new image data set of 144 images of an edge milling head that contains 30 inserts. We use a circular Hough transform to detect the screws that fasten the inserts. In a cropped area around a detected screw, we use Canny’s edge detection algorithm and Standard Hough Transform to localise line segments that characterise insert edges. We use this information and the geometry of the insert to identify which of these line segments is the cutting edge. The output of our algorithm is a set of quadrilateral regions around the identified cutting edges. These regions can then be used as input to other algorithms for the quality assessment of the cutting edges. Our results show that the proposed method is very effective for the localisation of the cutting edges of inserts in an edge profile milling machine.

AB - Wear evaluation of cutting tools is a key issue for prolonging their lifetime and ensuring high quality of products. In this paper, we present a method for the effective localisation of cutting edges of inserts in digital images of an edge profile milling head. We introduce a new image data set of 144 images of an edge milling head that contains 30 inserts. We use a circular Hough transform to detect the screws that fasten the inserts. In a cropped area around a detected screw, we use Canny’s edge detection algorithm and Standard Hough Transform to localise line segments that characterise insert edges. We use this information and the geometry of the insert to identify which of these line segments is the cutting edge. The output of our algorithm is a set of quadrilateral regions around the identified cutting edges. These regions can then be used as input to other algorithms for the quality assessment of the cutting edges. Our results show that the proposed method is very effective for the localisation of the cutting edges of inserts in an edge profile milling machine.

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Fernandez Robles L, Azzopardi G, Alegre E, Petkov N. Cutting Edge Localisation in an Edge Profile Milling Head. In Azzopardi G, Petkov N, editors, Computer Analysis of Images and Patterns: 16th International Conference, CAIP 2015, Valletta, Malta, September 2-4, 2015, Proceedings, Part II. Springer. 2015. p. 336-347. (Lecture notes in computer science). doi: 10.1007/978-3-319-23117-4_29

Cutting Edge Localisation in an Edge Profile Milling Head

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