Last Updated:26 February, 2014 
 
Research Summary Principal research interests; computational models of spatiotemporal processes in physical, biological and related systems; statistical modelling applications in the natural and medical sciences. Professional Bodies: Fellowships/Memberships /Qualifications  see C.V.search Interests Research Background The emergence of scientific computing (or computational science) (see e.g. http://www.scientificcomputing.com/ as a viable third arm to theory and experiment in scientific investigation, has led to exploitation of common techniques for a range of complex systems. Statistical science, in particular the statistics of spatial and temporal data, is also an area which has generated considerable interest in the applied statistics community over the last ten years. These two perspectives have influenced the majority of the research, which is firmly sited in applications across the natural sciences, particularly in physics, but also in biology and chemistry and interdisciplinary areas, such as biostatistics/epidemiology. This has resulted in a number of journal and other publications, given in part below. As well as basic research projects, other work has reflected social and industrial questions. Some examples include: (i) modelling of ISDN transmissions; (ii) reliability analysis for manufacturing and related systems; (iii) the mathematical and statistical modelling of transmission dynamics of HIV and its progression to AIDS in Ireland, (joint funding for initial work with Maths. colleagues, reflecting the first attempt to model the disease in Ireland), together with the first publication on Irish survival data in the journal AIDS (1997) and (iv) computational models in manufacturing and transportation. Much of the basic research investigates correlations in data which are "close" in terms of space and/or time. This provides the foundation for successful modelling of many scientific and other phenomena through computational, statistical and analytical techniques. In particular, spatial and dynamical evolution of complex systems can be explored through computational models, which define basic elements and interactions in detail. Initial interest in the area grew from early work on aspects of spatial statistics, arising in the context of a lattice of locations. Percolation models arise from a consideration of regular lattices of all possible spatial structures, where sites, (or bonds), of the lattice may be supposed connected or not and the medium connected according to a given set of values and their assigned probabilities. Of interest is the spatial dependence and associated statistical behaviour of connected clusters. Time series provide a parallel in time to this type of data set, generated through connectivity or correlation relations. Dynamic modelling additionally permits realistic representation of very varied spatial patterns, which evolve through time. Recently, the approach has been widely used to investigate whether dynamical systems exhibit selforganised criticality, (SOC), or natural tuning, where relaxation of the system about the critical state creates spatial and temporal selfsimilarities, giving rise e.g. to fractal objects and 1/f noise. Small perturbations may then provoke minor or truly catastrophic events, such as avalanches, stock market crashes, forest fires, earthquakes or disease epidemics! Support for research on these topics has been obtained from a number of sources over the years, including guest research fellowships. Last sabbatical (1996/97) promoted work on selforganised criticality (SOC) in dissipative cellular systems and further investigations on evolution of random twodimensional cellular structures or "froths", which incorporate additional spatial dependencies. Most recent publications can be found in list below. Last Updated:01 October, 2001
Consultancy/R&D inputs Examples  see C.V. Advisor on several inhouse patent applications for major company. Research Visits See C.V. Grants/Proposals See C.V. Reviewing Experience Reviewer for papers and Proceedings of VECPAR, (Vector and Parallel Processing), since 1996 Referee for papers to World AIDS Congress, (1998), (2000) and (2002) Referee for IASTED (International Association of Science and Technology or Development) Applied Simulation and Modelling conference, (2000) Statistical assessor for Irish Journal of Psychological Medicine (1989) and subsequently. Proceedings Editor of Scientific Computing in Europe (1996), DCU pilot conference. Editor of working papers/conf. papers for Integrating Information and Communications Technology into the Curriculum (1998) PostGraduate Supervision (in last 10 years) C. Comiskey (1991)"Mathematical Models for the Transmission Dynamics of HIV and its Progression to AIDS in Ireland." Ph.D. R. McCabe (1992) auxiliary "Global Data Flow Analysis of Syntax Tree Intermediate Code" M.Sc. A. McCarren (1994) "Modelling Piezospectroscopic Data" Ph.D. J. Walsh (1994) "Reliability Analysis of Offshore Production Systems." M.Sc. M. Hayes (1994) "Modelling of ISDN Basic Rate Transmission in Voicegrade Telephone Lines." M.Sc. M. Dunne (1995) "A Modified Mathematical Model for HIV Transmission, AIDS and Intervention Strategies in Ireland." M.Sc. Y. Feng (1997) "Computer Modelling of Complex Systems with Applications in Physical and Related Areas." Ph.D. A. A. Hammad (1998) "Cellular Automata Models for Traffic Flow in Urban Networks." Ph.D. T. Karayiannis (1999) "A Simulation Approach to Modelling Quality and Reliability Features of Plant Processes" M.Sc. F. Forrestal (1999) "Monthly Passenger Movement Series 19461995" M.Sc. R. Mannion (2000) "Cellular Automata and Monte Carlo Models of HIV Infection." M.Sc. + a number of taught Masters dissertation in the School of CA http://www.compapp.dcu.ie Currently supervising projects on: "Computational Aspects of Modelling Froth Networks; Problems, Pictures and Properties." M.Sc. "Biocomputation; Models for Immunosuppressive Disorders" M.Sc. "Computational Models of Traffic Flow w.r.t Heterogeneous Units in Urban Geometries." Ph.D. + "Computer Aided Learning  Design and Technology." M.Sc. + new projects currently being launched in biosystems modelling, (HIV, EBV  seeking funding under national programme for research in thirdlevel institutions as part of National Institute for Cellular Biotechnology bid), and econophysics. Internal and External Examiner to Ph.D. level in Statistical Modelling and Scientific Computing. Publications List Publications over a period of years in a number of international journals. Refereed abstracts. External technical reports. Grey Literature  Working papers etc.  not included, General/popular articles  not included. Refereed Publications:
Book Chapters/Proceedings Intros. Ruskin H.J and Duarte J.A.M.S. (1998), Lecture Notes in Computer Science 1573, 623 Refereed Abstracts (Conference proceedings etc.) Teaching and general articles are asterisked. Articles for general/popular pubs.  not included i Ruskin H.J and Cherry R. (1977), United States Office of Naval Research Report ONRL c1777  full paper * ii Fuller J.H., Ruskin H.J., Jarrett R.J. and Keen H. (1975), Clin. Sci. Mol. Med., 55, 13P. iii Fuller J.H. and Ruskin H.J. (1980), Clin Sci. 59, 29P. iv Keen H., Ruskin H.J, Jarrett R.J. Sept. (1981) Diabetologia. v Ruskin H.J, Cadilhe A.M.R. and Carvalho J.A.G.S.M. (1990), Proc. Fisica ’90, Portugal. vi Ruskin H.J and Cadilhe A.M.R. (1992). Proc. Fisica ’92, Portugal. vii McCarren A.L. and Ruskin H.J (1994) Proc. Fisica ’94, Portugal. viii Feng Y. and Ruskin H.J (1996) Abs. of 5^{th} Intl. Conf. On Numerical Grid Generation in Computational Fluid Dynamics and Related Fields, Miss., U.S.A. ix Feng Y. and Ruskin H.J (1996) Proc. SCE96, Scientific Computing in Europe, Dublin, Ireland. x Hammad A., O’hEigeartaigh M. and Ruskin H.J (1997), Abs. 15^{th} IMACS World Congress, Berlin, Germany. xi Collins W. J. and Ruskin H.J (1998), Proc. 3rd European Conference on Integrating ICT in the Curriculum, (ITC 98), p. 259  full paper* xii Sherlock A.M. and Ruskin H.J. (1998) Proc. 3rd European Conference on Integrating ICT in the Curriculum, (ITC 98), p. 577  full paper* xiii Forrestal F., Keogh G. and Ruskin H.J. CASI (Conference for Applied Statistics in Ireland), (1999) May 20th23rd, Athlone, Ireland xiv Mannion R., Ruskin H.J. and Pandey R. (1999) Interdiscip. Conf. On Theory in Immunology, Bielefeld, Germany, Oct. 16th19th 1999 xv Mannion R., Ruskin H.J. and Pandey R.B. (2000) Abs. American Physical Society meeting, Minneapolis, USA. xvi Ruskin H.J. and Feng Y. (2000) VECPAR 2000 Conf. Proceedings, Part II, p. 455  full paper xvii Hammad A., Ruskin H.J., O'hEigeartaigh M. (2000) IMACS 16th World Congress Abstracts, p. 509 xviii Pandey R.B., Ruskin H.J. and Mannion R. (2001) American Physical Society meeting, Seattle, Washington, USA. xix Wang R. and Ruskin H.J . (2001) Europhys. Conf. on Computational Physics, Aachen, Germany Reports for limited External Circulation Collaborative work on transmission dynamics for statistics of and survival with HIV  AIDS in Ireland.
