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LEVIN KUHLMANN 677 Beacon Street, Boston, MA 02215, U.S.A. Ph: + 1 (617) 353-6180, E-mail: [email protected] OBJECTIVE: Work in academia, or industry, in a role where I can either develop my understanding of the brain, or use my understanding of the brain and artificial intelligence and apply it to real world problems. EDUCATION: Ph.D. Candidate, Department of Cognitive and Neural Systems, Boston University Boston, U.S.A., 2001-present. B.Sc. Honours, Department of Otolaryngology, University of Melbourne, Australia, 1999-2000. Exchange student, Neuroscience, University of California, at Los Angeles, U.S.A., 1998. B.Sc., Physiology, University of New South Wales, Sydney, Australia, 1996-1997, 1999. SKILLS: C, C++, CADENCE, LaTeX, LINUX, Maple, MATLAB, MS-DOS, MS Excel, MS Windows XP, Open CV, Open GL, UNIX. LANGUAGES: Conversive German. UNDERGRADUATE COURSES (chronological order): Higher Mathematics; Physics; Chemistry; Evolutionary and Functional Biology; Molecules, Cells and Genes; Introductory Anatomy; Physiology; Biochemistry; Molecular Biology; Histology; Quantum Physics and Relativity; Electromagnetism; Thermal Physics; Biophysics; Real Analysis; Vector Analysis; Complex Analysis; Differential Equations; Educational Psychology; Neuroanatomy; Molecular and Developmental Neuroscience; Brain Mapping; Introduction to Computer Science; Behavioural and Cognitive Neuroscience; Jesus of Nazareth in Historical Research; Electronics; Systems and Signals; Probability; Game theory; Neurophysiology; Neural Networks; Logic and Computability; Information theory and Coding; Personal Financial Planning. GRADUATE COURSES (chronological order): Cell Physiology and Biophysics; Neuroanatomy; Topics in Dynamics (Chaos); Principles and Methods of Cognitive and Neural Modeling I; Principles and Methods of Cognitive and Neural Modeling II; Neural and Computational Models of Vision; Neural and Computational Models of Adaptive Movement and Planning Control; Neural and Computational Models of Recognition, Memory and Attention; Neural and Computational Models of Speech Perception and Production; Neural and Computational Models of Conditioning, Reinforcement, Motivation and Rhythm; Introduction to Computational Neuroscience; VLSI Principles and Applications; Differential Geometry; Visual Perception; Computer Vision; Digital Image Processing and Communications; Introduction to Computer Graphics; Topics in Computational Neuroscience and Vision; Vision, Robotics and Planning; Teaching College for Cognitive and Neural Systems. TEACHING EXPERIENCE: Department of Cognitive and Neural Systems, Boston University, Boston, U.S.A., 1/2003-5/2003. Tutor for the ‘Neural and Computational Models of Vision’ class Graded class assignments and provided advice and explanations of class material to students, typically in a one-to-one manner. Department of Information Systems, University of Melbourne, Melbourne, Australia, 6/2001. Grader for the ‘Tools of Analysis’ class Graded the final exam for this first year mathematics class. RESEARCH EXPERIENCE: Department of Cognitive and Neural Systems, Boston University, Boston, U.S.A., 6/2002-present. Computational Neuroscience Ph.D. Candidate Dissertation topic: Neural modeling of shape from texture. Supervisors: Prof. Stephen Grossberg and Prof. Ennio Mingolla. Shape from texture refers to the perception of 3D shape one experiences when one monocularly views a textured surface. Essentially, light rays reflected from the 3D surface are projected onto the 2D retina of the observer. The texture on the 3D surface is thus projected onto the 2D retina, but it is distorted by the projection. This distortion of the texture can be used as a cue for 3D shape. The aim of the dissertation is to develop a neural model of how visuo-cortical areas interact to convert a textured 2D image (i.e. the retinal image of the projected surface) into a neural representation of 3D shape. The dissertation is expected to be complete by September 2005. Department of Otolaryngology, University of Melbourne, Melbourne, Australia, 1/2001-8/2001. Computational Neuroscience Ph.D. Candidate Supervisor: Dr. Anthony N. Burkitt. Began modeling learning in networks of Cochlear Nucleus neurons which play a role in the temporal processing of auditory signals. Was given an Australian Post-Graduate Award Scholarship, but switched to the Ph.D. program in the Department of Cognitive and Neural Systems at Boston University starting 9/2001. Department of Otolaryngology, University of Melbourne, Melbourne, Australia, 7/2000-12/2000. Research Assistant Supervisor: Dr. Anthony N. Burkitt and Dr. David Grayden. Processed speech signals to track formants (i.e. the fundamental frequencies found in speech). Department of Otolaryngology, University of Melbourne, Melbourne, Australia, 7/1999-6/2000. Computational Neuroscience Honours Student Honors thesis title: Temporal Coding in the Leaky Integrate-and-Fire Neuron Model and the Auditory Pathway. Supervisor: Dr. Anthony N. Burkitt. Studied single neuron modeling of Cochlear Nucleus neurons which play a role in the temporal processing of auditory signals. The model provided an analytical and numerical solution of how the temporal processing efficacy of these neurons was affected by the phase of incoming Auditory Nerve fiber Action Potentials (spikes). In particular, when Auditory Nerve fiber spikes are generated by the travelling wave of the Basilar Membrane. School of Physiology, University of New South Wales, Sydney, Australia, 3/1999-6/1999. Research Assistant Supervisors: Dr. David Mahns and Prof. Mark Rowe. Assisted in Somatosensory Neurophysiology experiments involving recordings of cerebro-cortical responses to single joint receptor stimulation in cats. Department of Neuroscience, University of California, at Los Angeles, U.S.A., 2/1998-10/1998. Volunteer Assistant Supervisors: Dr. Mark Bodner and Prof. Joaquin Fuster. Designed a Neural Network to model the activity of neurons in the cerebral cortex associated with a shortterm active memory task. Department of Orthopedics, University of California, at Los Angeles, U.S.A., 6/1998-9/1998 Reseach Assistant Supervisors: Elizabeth Yi and Dr. Karen Lyons. Genotyped mice, from a group of mice containing various BMP receptor and BMP ligand knockouts. This involved DNA extraction, southern blotting and use of radioactive labelling via hybridisation. Department of Physiology, University of New South Wales, Sydney, Australia, 1/1997-12/1997. Research Assistant Supervisors: Prof. Peter H. Barry and Dr. Andrew Moorhouse. Measured electrical conductivity and junction potentials of solutions of EGTA (a calcium chelator) at various levels of Ph. ADDITIONAL EXPERIENCE: The Sharper Image, Melbourne, Australia, 12/1999-12/2000. Sales Assistant Worked as a salesperson on the floor of a novelty store. Conversed with customers and described the products on offer, handled the cash register and cleaned and restocked the store. University Cooperative Housing Association, Los Angeles, U.S.A., 4/1998-12/1998. ‘Members’ Committee’ member Helped solve problems or disputes with, and/or between, residents of a student-run dormitory housing environment. Was in charge of Elections/General Meetings. Stood as Chair. Was also in charge of work deficiency and acted as Vice-Chair. PUBLICATIONS: Kuhlmann, L., Burkitt, A. N., Paolini, A., & Clark, G. M. (2002). Summation of Spatiotemporal Input Patterns in Leaky Integrate-and-Fire Neurons: Application to Neurons in the Cochlear Nucleus Receiving Converging Auditory Nerve Fiber Input. Journal of Computational Neuroscience, 12(1): 55-73. Keramidas, A., Kuhlmann, L., Moorhouse, A. J., & Barry, P. H. (1999). Measurement of the limiting equivalent conductivities and mobilities of the most prevalent ionic species of EGTA (EGTA2- and EGTA3-) for use in electrophysiological experiments. Journal of Neuroscience Methods, 89: 41-47. CONFERENCE PROCEEDINGS: Mingolla, E., Kuhlmann, L., & Grossberg, S. (2004). A laminar cortical model of shape-fromtexture: spatial-scale filtering, cooperative-competitive grouping, and surface filling-in [Abstract]. Journal of Vision, 4(8), 472a. (poster) Kuhlmann, L., Burkitt, A. N., & Clark, G. M. (2001). Peak-splitting in the response of the leaky integrate-and-fire neuron model to low-frequency periodic inputs [Article]. Proceedings of the IEEE Engineering in Medicine and Biology Society (EMBS) Conference, pp. 13-16. Monash University, Australia. (talk) Kuhlmann, L., Burkitt, A. N., & Clark, G. M. (2001). The relationship between the output synchrony of cochlear nucleus neurons and the site of stimulation in the cochlea [Abstract]. Proceeedings of the Australian Neuroscience Society, 12, 216. (poster) Kuhlmann, L., Burkitt, A. N., & Clark, G. M. (2000). The effects of action potential propagation delay times and an absolute refractory period upon the synchronization index in the integrate-andfire neuron model and a comparison with neurons in the auditory pathway [Abstract]. Proceeedings of the Australian Neuroscience Society, 11, 145. (poster) PRIZES AND AWARDS: Boston University Cognitive and Neural Systems Doctoral Fellowship, 2001-2005. Australian Post-Graduate Award, 2001. First Class Honours, University of Melbourne B.Sc. Honours Thesis, 2000. University of New South Wales Student Exchange Scholarship, 1998. AFFILIATIONS: Australian and German citizen Hold Australian and German passports, Member of the Vision Sciences Society 2004-2005, New South Wales Basketball Club member 1996-1997 and 1999, Hills Zone Representative Basketball 1995 and Varsity Basketball 1993-1995, Lifetime member of the Youth Hostel Association. INTERESTS: The meaning of life, Science, Philosophy, Religion, Economics, Neuroscience, Psychology, Computer Science, Neural Networks, Electronics, Physics, Astronomy, Mathematics, Basketball, Music, Social issues and (the scientific study of) Consciousness. REFEREES: (alphabetical order) Anthony N. Burkitt, Ph.D. (Honours Thesis Advisor) Senior Research Fellow The Bionic Ear Institute 384-388 Albert Street East Melbourne VIC 3002 Australia TEL: + 61 3 9667 7529 FAX: + 61 3 9667 7518 Email: [email protected] Stephen Grossberg, Ph.D. (Ph.D. Thesis Advisor) Wang Professor of Cognitive and Neural Systems Professor of Mathematics, Psychology and Biomedical Engineering Department of Cognitive and Neural Systems Boston University 677 Beacon Street Boston MA 02215 U.S.A. TEL: + 1 617 353 9481 FAX: + 1 617 353 7755 Email: [email protected] Ennio Mingolla, Ph.D. (Ph.D. Thesis Advisor) Professor of Cognitive and Neural Systems and Psychology Department of Cognitive and Neural Systems Boston University 677 Beacon Street Boston MA 02215 U.S.A. TEL: + 1 617 353 9485 FAX: + 1 617 353 7755 Email: [email protected]