The MIIS Eprints Archive: No conditions. Results ordered -Date Deposited.
http://www.maths-in-industry.org/miis/
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Fri, 09 Dec 2016 09:37:22 +0000Fri, 09 Dec 2016 09:37:22 +0000en Front Matter and Problem Statements
http://www.maths-in-industry.org/miis/695/
Margenov, S. and Velikova, E. and Revalski, J. (2014) Front Matter and Problem Statements. [Study Group Report] Optimal Cutting Problem
http://www.maths-in-industry.org/miis/692/
Avdzhieva, A. and Balabanov, T. and Evtimov, G and Kirova, D. and Kostadinov, H. and Tsachev, T. and Zhelezova, S. and Zlateva, N. (2014) Optimal Cutting Problem. [Study Group Report] The 2D/3D Best-Fit Problem
http://www.maths-in-industry.org/miis/689/
Bodurov, V and Dimov, D. and Evtimov, G and Georgiev, I. and Harizanov, S and Nikolov, G and Pirinski, V (2014) The 2D/3D Best-Fit Problem. [Study Group Report] Optimisation of bulk carrier loading and discharge
http://www.maths-in-industry.org/miis/685/
Cimpeanu, R. and Devine, M. and Donohue, J. and Hocking, G. and Holohan, N. and McCarthy, S. and van Wijk, S. (2013) Optimisation of bulk carrier loading and discharge. [Study Group Report] Detecting Geometric Faults from Measured Data
http://www.maths-in-industry.org/miis/659/
Gower, A.L. (2012) Detecting Geometric Faults from Measured Data. [Study Group Report] Dowty Turbine Vibration Problem
http://www.maths-in-industry.org/miis/658/
Fitt, A.D. and P., D.F. and R., T.G. and McC., G. and Parks, P.C. and W., P. (1990) Dowty Turbine Vibration Problem. [Study Group Report] Annular Breakthrough
http://www.maths-in-industry.org/miis/656/
King, J.R. and Lacey, A.A. and D., J.N. and S., D.A. and W., P. (1990) Annular Breakthrough. [Study Group Report] Electric arc problem
http://www.maths-in-industry.org/miis/651/
Breward, C.J.W. and Chapman, S.J. and Lacey, A.A. and Ockendon, J.R. (1990) Electric arc problem. [Study Group Report] Electro-painting
http://www.maths-in-industry.org/miis/650/
Hinch, E. J. and Howison, S.D. and Lacey, A.A. (1990) Electro-painting. [Study Group Report] Oscillation mark formation in continuous casting
http://www.maths-in-industry.org/miis/644/
King, J. and Lacey, A.A. and Lister, J. and Schwendeman, D. and Tew, R. and Wilmott, P. (1991) Oscillation mark formation in continuous casting. [Study Group Report] SCANtechnology: Feature Recognition for Automated Sculpture Reproduction
http://www.maths-in-industry.org/miis/628/
Greene, G. and Greene, R. and Markvorsen, S. and Nielson, H. B. and Rogen, P. and Sinclair, R. and Unstrup, M. (1998) SCANtechnology: Feature Recognition for Automated Sculpture Reproduction. [Study Group Report] Danfoss: Scroll Optimization
http://www.maths-in-industry.org/miis/624/
Gravesen, J. and Henriksen, C. and Howell, P. (1998) Danfoss: Scroll Optimization. [Study Group Report] LEGO: Automated Model Construction
http://www.maths-in-industry.org/miis/623/
Gower, R. and Heydtmann, A. and Petersen, H. (1998) LEGO: Automated Model Construction. [Study Group Report] Automated Defect Detection: Computational Methods to Detect Flaws in Industrial Parts
http://www.maths-in-industry.org/miis/620/
Brummitt, C. and Foisy, C. and Halliwell, G. and Higley, M. and Kotil, S. and Kramer, P.R. and Longla, M. and Reyna, M. (2010) Automated Defect Detection: Computational Methods to Detect Flaws in Industrial Parts. [Study Group Report] Fuel Cell Assembly Process Flow for High Productivity
http://www.maths-in-industry.org/miis/612/
Diakite, I. and DiLorenzo, T. and Edwards, D.A. and Emerick, B. and Fang, R. and Jing, F. and Li, L. and Miller, J. and Panaggio, M. and Peace, A. and Raymond, R. and Sun, Y. and Wolff, E. and Zumbrum, M. (2012) Fuel Cell Assembly Process Flow for High Productivity. [Study Group Report] High speed video capture for mobile phone cameras
http://www.maths-in-industry.org/miis/603/
Burke, M. and Burns, S. and Cook, S.P. and Dellar, P.J. and Dewynne, J. and Hickey, C. and Hjorth, P.G. and Lee, W.T. and Melnik, A. and Moroney, K. and Murphy, E. and O'Callaghan, R. and Vynnycky, M. (2012) High speed video capture for mobile phone cameras. [Study Group Report] Dynamical Models of Extreme Rolling of Vessels in Head Waves
http://www.maths-in-industry.org/miis/592/
Archer, C and van Daalen, E and Dobbersch ̈tz, S (2009) Dynamical Models of Extreme Rolling of Vessels in Head Waves. [Study Group Report] Statistical Modelling of Pre-Impact Velocities in Car Crashes
http://www.maths-in-industry.org/miis/591/
Kager, W and Kryven, I and Myerscough, K (2011) Statistical Modelling of Pre-Impact Velocities in Car Crashes. [Study Group Report] Analysis of a Model for Ship Maneuvering
http://www.maths-in-industry.org/miis/589/
Apri, M and Banagaay, N and van den Berg, J (2011) Analysis of a Model for Ship Maneuvering. [Study Group Report] Modeling Compressible Non-Newtonian Chicken Flow
http://www.maths-in-industry.org/miis/585/
Matveichuk, O and Rosen Esquivel, P and Heidari, H and Muntean, A (2010) Modeling Compressible Non-Newtonian Chicken Flow. [Study Group Report] Efficient Si-melting (PLEASE EMAIL david.allwright@industrialmaths.net FOR A COPY)
http://www.maths-in-industry.org/miis/579/
A., Crosby and N., Deacon and J., Dewynne and A., Lacey and W., Lee and J., Ockendon and R., Whittaker (2011) Efficient Si-melting (PLEASE EMAIL david.allwright@industrialmaths.net FOR A COPY). [Study Group Report] Scheduling a future air transport system
http://www.maths-in-industry.org/miis/574/
Patel, R. (2011) Scheduling a future air transport system. [Study Group Report] Interfacial Behaviour in Tunnel Engineering
http://www.maths-in-industry.org/miis/573/
Bohun, C. S. (2008) Interfacial Behaviour in Tunnel Engineering. [Study Group Report] Oxford Study Groups with Industry (1968-1988) - 6 reports
http://www.maths-in-industry.org/miis/566/
Ockendon, J.R. (1968) Oxford Study Groups with Industry (1968-1988) - 6 reports. [Study Group Report] Rolling mill performance
http://www.maths-in-industry.org/miis/457/
Hoog, F. (1992) Rolling mill performance. [Study Group Report]