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N. Daniel Kumar

Graduate Student Department of Computer Science 341 Frederick P. Brooks, Jr. Building University of North Carolina at Chapel Hill Chapel Hill, NC 27599-3175 ndkumar[at]cs.unc.edu Office: (919) 962-1726 GVoice: (828) 675-8627

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I am a grad student studying computer science/physics at UNC.

In the summer of 2013, I am returning to Google in Mountain View, CA. From fall 2013, I will be studying at the Institute of Astronomy, Cambridge.

I live in FB341.

Dear students of Trinity School of Durham and Chapel Hill: Congratulations! You may collect your prize from Miss Urdzik.

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Current Coursework

Fall 2012, UNC-CH

• MATH 548: Combinatorics
• MATH 653: Introductory Analysis
• PHYS 341: Thermal Physics
• PHYS 521: Applications of Quantum Mechanics
• PHYS 543: Nuclear and Particle Physics
• PHYS 721: Quantum Mechanics I

Spring 2013, UNC-CH

• ASTR 701: Stellar Atmospheres and Interiors
• ASTR 703: Galactic Dynamics and Interstellar Medium
• MATH 681: Introductory Topology*
• PHYS 312: Electromagnetism II*
• PHYS 722: Quantum Mechanics II

*audit

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Teaching

At St Thomas More Academy in Raleigh, NC (Jan 2011-May 2012):

Algebra I
Algebra II
Pre-Calculus
Programming with Alice
Computer Design
Math/Science Seminar

At UNC (Jan 2010-Dec 2010):

Taught:
COMP 590-078: Introduction to Quantum Computer Science, Spring 2010.

TAed:
COMP 590-096: Artificial Intelligence (Instructor: Lana Lazebnik), Fall 2010.

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Industry

• In summer 2012, I interned with the Video Inventory Analytics team at Google in Mountain View, CA.
• During the academic year 2011-12, I interned with Lockheed Martin's Virtual World Labs in Cary, NC.
• In summer 2011, I interned with the NAS Performance Engineering Team at EMC in RTP, NC.

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Previous Research

In the summer of 2010, I visited Prof Michele Mosca, Prof Norbert Lütkenhaus, and others at the Institute for Quantum Computing, University of Waterloo.

In the academic years 2008-10, I was a research assistant in the computer security group at UNC, working with Prof Fabian Monrose and Prof Michael Reiter.

As an undergraduate/MSc student, I had interests in astrophysics, and did some work with Prof Daniel Reichart at UNC.

• 'practical' quantum key distribution
• scheduling for active network measurements
• machine learning for large sky survey science
• modeling of gamma-ray bursts

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Conference Paper

1. Towards optimized probe scheduling for active measurement studies, N. D. Kumar, F. Monrose, and M. K. Reiter. In Proceedings of the 6th International Conference on Internet Monitoring and Protection (ICIMP), 26-31, March 2011. (Best Paper Award)

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Publications

1. Machine learning techniques for astrophysical modelling and photometric redshift estimation of quasars in optical sky surveys, N. D. Kumar (2008). Master's dissertation, Oxford University Computing Laboratory, Oxford, UK, 116 pp; arXiv:0811.0520v2 [astro-ph].
2. A photometric redshift of z = 6.39 ± 0.12 for GRB 050904, J. B. Haislip, M. C. Nysewander, D. E. Reichart et al. 2006, Nature, 440, 181-183.

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Poster

1. Key generation across an untrusted entanglement-free quantum key distribution network, N. D. Kumar. Submitted to the 1st Annual Conference on Quantum Cryptography (QCRYPT), ETH Zürich, September 2011.

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Seminars/Talks Given

1. Towards a real-world use case for quantum key distribution
   • Institute for Quantum Computing, University of Waterloo, 27 September 2011.
2. Quantum cryptography and one-time pads in the presence of trust: Is the quantum mechanic's briefcase bigger than the trusted courier's?
   • Laboratory for Theoretical and Quantum Informatics, Université de Montréal, 4 August 2011.

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Professional Service

• Program Committee
  • ICIMP 2012-13: 7th-8th International Conference on Internet Monitoring and Protection
• External Reviewer
  • ACM CoNEXT 2011: 7th International Conference on Emerging Networking Experiments and Technologies
  • AQIS 2010: 10th Asian Conference on Quantum Information Science