Lopresti, D.P., Wilfong, G.T.: Comparing Semi-Structured Documents via Graph Probing. IEEE Transactions on Pattern Analysis and Machine Intelligence 27(10), 1568–1579 (2005) Lacoste, C., Descombes, X., Zerubia, J.: Point processes for unsupervised line network extraction in remote sensing. Naval Research Logistics Quarterly 2, 83–97 (1955) Kuhn, H.W.: The Hungarian method for the assignment problem. Computer Vision, Graphics, and Image Processing 44(1), 87–116 (1988) Illingworth, J., Kittler, J.: A survey of the hough transform. Helms, S., Betts, A.V.G.: The desert ’kites’ of the badiyat esh-sham and north arabia. ![]() IEEE Transactions on Pattern Analysis and Machine Intelligence 32(4), 722–732 (2010) Von Gioi, R., Jakubowicz, J., Morel, J.M., Randall, G.: Lsd: A fast line segment detector with a false detection control. Gao, X., Xiao, B., Tao, D., Li., X.: A survey of graph edit distance. International Journal of Pattern Recognition and Artificial Intelligence 28(01), 1450001 (2014) Paléorient 21(1), 35–63 (1995)įoggia, P., Percannella, G., Vento, M.: Graph matching and learning in pattern recognition in the last 10 years. Échallier, J.C., Braemer, F.: Nature and function of ’desert kites’: new datta and hypothesis. 2014–2020 (September 2009)ĭesolneux, A., Moisan, L., Morel, J.M.: Meaningful alignments. In: 2009 IEEE 12th International Conference on Computer Vision, pp. Pattern Recognition 44, 1057–1067 (2011)Ĭhung, Y.C., Han, T., He, Z.: Building recognition using sketch-based representations and spectral graph matching. Michel Dagorn said: “The Aeroplane, or indeed kite systems in general, may not be suitable for every fisherman, but they are certainly an excellent option worth consideration in many fisheries and we would always be pleased to offer advice.Bunke, H., Riesen, K.: Recent advances in graph-based pattern recognition with applications in document analysis. The system can be used for bottom, semi-pelagic and pelagic trawls, and an additional advantage is that the Aeroplane is flexible and can easily be stored on the net drum. This in turn, produces obvious fuel savings without compromising the effectiveness of the trawl in any way. However, by using the 1.5m Aeroplane instead, the drag is reduced to only 32kgs - or half that of the floats. But for 35 floats there is a drag of around 64kg when towing at three knots. Positioned in the middle of the headline, sea trials have shown that Morgère’s standard Aeroplane (1.50m) does exactly the same job as 35 floats (200mm) at a towing speed of 3.5 knots, or 45 floats at four knots. It works very well and fishermen using it have found that it maintains an excellent shape and overall integrity of the net.” ![]() “When the trawl is pulled through the sea, the water pressure flowing through the Aeroplane system provides lift, thus opening the trawl. The flexible kite, which is made from canvas and coated with tough PVC, is shaped like vents with a larger opening on the front side, which are then arranged in a series along the small meshes of the headline. Michel Dagorn said: “At Morgère we have patented our own kite system called Aeroplane, which is currently used by a number of fishermen in fishing areas south of Iceland and around Norway. Kite systems use hydrofoil type arrangements to provide the lift, rather than traditional floats. Michel Dagorn, director of Morgère, says the key benefit is the reduction in drag, which in turn boosts fuel consumption.
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