Rubin_bibliography

MARK A. RUBIN
Bibliography
I. MachineLearning, Image Processing,ComputerVision
1. Rubin,M.A. (2016). TrainingrestrictedBoltzmannmachinesusingcontrastive divergence:A pedagogical review.In
preparation.
2. Rubin,M.A. (2016). Deeplearning:The motivationandthe math.Tobe presented, FISDataScience
Technical SeminarSeries.
3. Rubin, M.A., Fried, D. G., Waugh, F. R., Call, B. R., Reichert, C. W., Anderson,R. W., O’Brien, K., Wirch, A.,
Knowlton, R. C., Heinrichs, R. M. (2010). Detection of self-propelled semi-submersibles by airborne laserradar. ISR
Systems andTechnology Workshop, Lexington, MA and MSSActive E-O Systemsconference, Orlando,Florida.
4. Torralba, A. Murphy, K. P., Freeman, W. T. and Rubin, M. A. (2003). Context-based vision system for place and object
recognition, In Ninth International Conference on Computer Vision (ICCV 2003), Nice,France, 273-280.
CITATIONS: 760 as of 2/2/16 (Google Scholar).
5. Granger, E., Rubin, M. A., Grossberg, S. and Lavoie, P. (2001). Radar ESM with a what-and-where fusion neural
network. In D. J. Miller et al., eds., Neural Networks for Signal Processing XI: Proceedings of the 2001 IEEE Workshop,
IEEE: New York, 539-548.
6. Granger, E., Rubin, M. A., Grossberg, S. and Lavoie, P. (2001). A what-and-where fusion neural network for recognition
and trackingof multiple radaremitters. NeuralNetworks 3, 325-344.
7. Pollen, D. P., Przybyszewski, A. W., Rubin, M. A. and Foote, W. (2001). Spatial receptive field organization of
macaque V4 neurons. Cerebral Cortex 12, 601-616.
CITATIONS: 50 as of 8/28/13, including13 since 2009 (Google Scholar).
8. Roth, B. and Rubin, M.A. (2000). An application of neural network technology to nuclear battle planning. Journalof
Radiation Effects.
9. Granger, E., Rubin, M. A., Grossberg, S. and Lavoie, P. (2000). Classification of incomplete data using the fuzzy
ARTMAP neural network. In Proceedings of the International Joint Conference on NeuralNetworks VI, 35-40.
CITATIONS: 36 as of 8/28/13, including4since 2009 (Google Scholar).
10. Rubin, M. A. (1999). Rotation before recognition: orientation-invariant identification of visual textures with the
ARTEX 2 neural network. BostonUniversity Technical ReportCAS/CNS-98-016.
11. Granger, E., Grossberg, S., Lavoie, P. and Rubin, M. A. (1999). Comparison of classifiers for radar emitter type
identification. In C.H. Dagli etal., eds., IntelligentEngineering SystemsThrough Artificial NeuralNetworks 9, 3-11.
AWARD: Novel SmartEngineering SystemsDesigns, First Runner Up, ANNIE ’99.
12. Rubin, M. A. (1999). A familiarity-based bound on the expected error rate for classification with the fuzzy
ARTMAP neuralnetwork. Boston UniversityTechnical ReportCAS/CNS-98-006.
13. Rubin, M. A. and Baloch, A. (1999). Demonstration of an ARTEX implementation for recognition of visual textures
(abstract). In Proceedings of the Third International Conference on Cognitive and Neural Systems, Boston University,
May 26-29, 1999.
14. Granger, E., Grossberg, S., Rubin, M. A. and Streilein, W. W. (1999). Familiarity discrimination of radar pulses. In
M. S. Kearns et al., eds., Advances in Neural Information Processing Systems 11 , Cambridge, MA: MIT Press, 875-
881.
CITATIONS:17 as of 8/28/13.
I. MachineLearning, Image Processing,Computer Vision
II. AppliedQuantumMechanics and Optics
III. Foundations of Quantum Mechanics
IV. High-EnergyTheory

15. Pollen, D. A., Przybyszewski, A. W., Foote, W. and Rubin, M. A. (1999). Neurons in macaque V4 respond strongly to
stimulus discontinuities (abstract). In Proceedings of the Third International Conference on Cognitive and Neural
Systems, Boston University, May 26-29, 1999.
16. Pollen, D. A., Przybyszewski, A. W., Foote, W. and Rubin, M. A. (1999). A class of neurons in macaque V4 with
homogeneous inputs (abstract). Investigations in Opthalmology and VisualScience 40, S776
17. Rubin, M. A., Cohen, M. A., Luciano, J. S. and Samsom, J. A. (1998). Outcome prediction for unipolar depression. In
C. H. Dagli etal., eds., IntelligentEngineering Systems Through Artificial NeuralNetworks 8, 631-636.
18. Rubin, M. A., Cohen, M. A., Luciano, J. S., and Samsom, J. A. (1998). Can we predict the outcome of treatment for
depression? (abstract) In Proceedings of the Second International Conference on Cognitive and Neural Systems, Boston
University, May 27-30, 1998, 31.
19. Przybyszewski, A. W. and Rubin, M. A. (1998). Gating input to visual cortex by feedback to LGN. In Proceedings of
the Workshop on IntelligentInformation SystemsVII , Malbork, Poland, June1998, 136-145.
20. Carpenter, G. A, Rubin, M. A. and Streilein, W. W. (1997). Threshold determination for ARTMAP-FD familiarity
discrimination. In C. H. Dagli et al., eds., Intelligent Engineering Systems Through Artificial Neural Networks 7, 23-
28.
21. Carpenter, G. A., Rubin, M. A. and Streilein, W. W. (1997). ARTMAP-FD: Familiarity discrimination of range profiles
(abstract). In Proceedings of Vision, Recognition, Action: Neural Models of Mind and Machine, Boston, May 1997, p.
91.
CITATIONS:20 as of 8/28/13, including3since 2009 (Google Scholar).
22. Carpenter, G. A, Rubin, M. A. and Streilein, W. W. (1997). ARTMAP-FD: Familiarity discrimination applied to radar
target recognition. In ICNN ’97: Proceedings of the IEEE International Conference on Neural Networks, Houston, June
1997,III, 1459-1464.
23. Grossberg, S., Rubin, M. A. and Streilein, W. W. (1996). Buffered reset leads to improved compression in fuzzy
ARTMAP classification of radar range profiles. In C. H. Dagli et al., eds., Intelligent Engineering Systems Through
Artificial NeuralNetworks 6, 419-424.
24. Rubin, M. A. (1995). Application of fuzzy ARTMAP and ART-EMAP to automatic target recognition using radar range
profiles. NeuralNetworks 8, 1109-1116.
25. Rubin, M. A. (1995). Issues in automatic target recognition from radar range profiles using fuzzy ARTMAP. In World
Conference on Neural Networks—Washington, DC: 1995 International Neural Network Society Annual Meeting, July 17-
21, 199, I, 197-202.
26. Rubin, M. A. (1994). Fuzzy ARTMAP automatic target recognition from single and multiple wavelength radar range
profiles. In ICNN ’94: Proceedings of the IEEE International Conference on Neural Networks, Orlando, June 1994,III,
1613-1618.
27. Rubin, M. A. (1994). Automatic target recognition from radar range profiles using fuzzy ARTMAP. In World
Conference on Neural Networks—San Diego: 1994 International Neural Network Society Annual Meeting, June 5-9,
III, 291-298.
28. Rubin, M. A. (1993). Biased unsupervised pattern classification. Naval Air Warfare CenterChinaLake preprint.
29. Rubin, M. A. (1993). Recognition mechanism forsaturating sigmoid neural networks. Naval Air Warfare CenterChina
Lake preprint.
30. Rubin, M. A. (1993). Encapsulated objects for neural networksimulation. Naval AirWarfareCenter ChinaLake preprint.
Abstract in ICANN ’93: Proceedings of theInternationalConference on Artificial NeuralNetworks, Amsterdam, The
Netherlands, 13-16 September 1993, eds.S. Gielen andB. Kappen, 1088.
II. Applied Quantum Mechanics and Optics
31. Rubin,M.A. and Cortese, J.A. (2013). Stabilizer formalism, magic states and simulation of quantum computers.
Unpublished.
32. Rubin, M.A and Heinrichs, R. M. (2010). Simulation of three-dimensional scanning optical synthetic aperture
radar imagery with LaPS.MSS Active E-O Systemsconference, LasVegas, Nevada.

33. Rubin, M. A. and Kaushik, S., (2009) Signal-to-noise ratio in squeezed-light laserradar, Applied Optics 48, 4597-
4609.
34. Rubin, M. A. and Kaushik, S. (2008). Laserradar and quantum statesof light, Coherent Optical Technologies and
Applications(COTA) conference, Boston, Massachusetts.
35. Rubin, M. A. and Kaushik, S.(2007). Quantum statesand coherent laserradar, Coherent Laser RadarConference
(CLRC), Snowmass, Colorado.
36. Rubin, M. A. and Kaushik, S.(2007). Loss-induced limits to phase measurement precision with maximally entangled
states, Physical Review A 75 053805.
37. Rubin, M. A. and Kaushik, S.(2007). Squeezingthe local oscillator doesnotimprove signal-to-noise ratio in heterodyne
laser radar, Optics Letters 32, 1369-1371.
38. Rubin, M.A., Kaushik, S. andFried, D.(2006). CanEPR correlations enhance radartargetdetection? Unpublished.
39. Rubin, M. A. (2001). A quantumsearch algorithmforaspecified number of targets.arXiv.org: quant-ph/0104028.
40. Fanchiotti, S. andRubin, M. A. (1991). Finite elementSchrödinger picture quantumtheory: Error bounds andadaptive
refinement (abstract). In Bulletin of theAmerican Physical Society 36, 1802,program of Physics Computing’91: 3d
International Conference onComputationalPhysics,San Jose, California.
41. Fanchiotti, S. andRubin,M. A. (1991). Error estimates, errorbounds, andadaptive refinement in finite element
quantumtheory. Physical Review D 43, 3524-3533.
III. Foundations of Quantum Mechanics
42. Rubin, M. A. (2011). Observers andlocality in Everett quantumfieldtheory. Foundations of Physics 41 1236-1262.
43. Rubin, M. A. (2009). Explanation, evolutionandsubjective probability in Everettquantummechanics with positive
preclusion. arXiv:0912.4239. Underrevision.
44. Rubin, M. A. (2006). Spatial degrees of freedom in Everett quantum mechanics.Foundations of Physics 36, 1115-
1159.
45. Rubin, M. A. (2005). There is no basis ambiguity in Everett quantummechanics.Foundations of Physics Letters 17,
323-341.
46. Rubin, M.A. (2002). Relative frequencyandprobability inthe Everettinterpretationof Heisenberg-picture quantum
mechanics. Foundationsof Physics 33, 379-405.
47. Rubin, M. A. (2002). Locality in the Everett interpretation of quantumfieldtheory. Foundations of Physics 32, 1495-
1523.
48. Rubin, M. A. (2001). Locality in the Everett interpretation of Heisenberg-picture quantummechanics. Foundations
of Physics Letters 14, 301-322
IV. High-EnergyTheory
49. Ordón˜ez, C. R., Rubin, M. A. and Zwanziger, D. (1989). Modular invariance and stochastic quantization. Physical
Review D 40, 4056-4072.
50. Ordón˜ez, C. R., Rey, S. J., Rubin, M. A. and Zucchini, R. (1989). Sewing relations and duality for BRST off-shell string
tadpole amplitudes. PhysicalReview D 40, 1987-1992.
51. Ordón˜ez, C. R. andRubin, M. A. (1989). Stringquantizationviadual Peierls brack- ets. Physics Letters B 216, 117-122.
52. Giannakis, I., Ordón˜ez, C. R., Rubin, M. A. and Zucchini, R. (1989). Propagator, sewing rules, and vacuum
amplitude for the Polyakov point particle with ghosts. International Journal of Theoretical_Physics_28, 3-25.
53. Ordón˜ez, C.R., Rubin,M. A. andZucchini,R. (1989). Pathintegral with ghosts for the bosonic stringpropagator.
Journalof Physics A 22, 3399-3415.
54. Ordón˜ez, C. R., Rubin, M. A. and Zucchini, R. (1988). Polyakov path integrals with ghosts: Closed strings and one-
loop amplitudes.Physics LettersB 215, 103-110.
CITATIONS:11 as of 8/28/13 (Google Scholar).

55. Ordón˜ez, C. R., Rubin, M. A. and Zucchini, R. (1987). A Polyakov path integral with ghosts. In K. T. Mahanthappa
and P. G. O. Freund, eds., Superstrings: Proceedings of theNATO Advanced Research Workshop on Superstrings, Boulder,
Colorado, 187-197
56. Das, S. R., Ordón˜ez, C.R. and Rubin, M.A. (1987). Dual Peierlsbracketsforstrings. Physics Letters B 195, 139-148.
57. Gleiser, M., Jetzer, P. andRubin, M. A. (1987). Vacuumenergy of M4 ⊗ SM ⊗SN in even dimensions. Physical
Review D 36, 2429-2439.
58. Das, S. R. and Rubin, M. A. (1986). BRST ghosts as worldsheet parameters ingauge-invariant stringfield
theory. Physics Letters B 181, 81-86.
59. Das, S. R. and Rubin, M. A. (1986)._Worldsheetreparameterizations and the Tomonaga-Schwinger-Dirac formalism
forstringtheory. Progressof Theoretical Physics. Supplement 86, 143-158.
60. Das, S. R. and Rubin, M. A. (1986). A Tomonaga-Schwinger-Dirac formulation for string theories. Physics Letters B
169, 182-186.
61. Rubin, M. A. (1986). Path integral measures for two-dimensional fermion theories. Journalof Physics A 19, 2105-
2114.
62. Das, S. R. and Rubin, M. A. (1986). Reparameterizations and gauge and general-coordinate transformation in
string field theory. In L. Clavelli and A. Halprin, eds., Proceedings of the Lewes Superstring Workshop 1985 , World
Scientific Press,170-190.
63. Rubin, M. A. (1986). Kaluza-Klein cosmology: Techniques for quantum computations. In E.W. Kolb et al., eds.,
Inner Space/OuterSpace, University of ChicagoPress, 583-588.
64. Ordón˜ez, C. R. and Rubin, M. A. (1985). Graviton dominance in quantum Kaluza- Klein theory. Nuclear Physics B
260, 456-496.
65. Ordón˜ez, C. R. and Rubin, M. A. (1985). Symmetric-tensor eigenspectrum of the Laplacian on n-spheres. Journalof
Mathematical Physics 26, 65-67.
CITATIONS: 52 as of 8/28/13, including 11 since 2009 (Google Scholar).
66. Gilbert, G., McClain, B. and Rubin, M. A. (1984). Dynamical quantum effects inKaluza-Kleintheories.Physics
Letters B 142, 28-34.
CITATIONS:27 as of 8/28/13 (Google Scholar).
67. Ordón˜ez, C. R. and Rubin, M. A. (1984). Eigenvalues and degeneracies for n-dimensional tensor spherical
harmonics. Journalof Mathematical Physics 25, 2888-2894.
CITATIONS:87 as of 8/28/13, including21since 2009.
68. Roth, B. D. B. andRubin, M. A. (1983). Fermions andstability in five-dimensionalKaluza-Kleintheory. Physics Letters
B 127, 55-60.
69. Rubin, M. A. and Roth, B. D. B. (1983). Temperature effects in five-dimensionalKaluza-Kleintheory. NuclearPhysics
B 226, 444-454.
REPRINTED: T. Appelquistet al., eds., Modern Kaluza-Klein Theories, (1987) Benjamin, 364-374.
70. Nepomechie, R. I., Rubin, M. A. andHosotani,Y.(1981). A newformulationof the stringaction. Physics Letters B 105,
457-461.
71. Freund, P. G. O. and Rubin, M. A. (1980). Dynamicsof dimensional reduction. Physics Letters B 97, 233-235.
REPRINTED: T. Appelquist et al, eds., Modern Kaluza-Klein Theories,(1987) Benjamin, 210-212.
REPRINTED: A. Salam and E.Sezgin, eds., Supergravities in Diverse Dimensions,(1989) North Holland/World Scientific,
1310-1.

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