24,128 research outputs found
Differentially Private Regression for Discrete-Time Survival Analysis
In survival analysis, regression models are used to understand the effects of
explanatory variables (e.g., age, sex, weight, etc.) to the survival
probability. However, for sensitive survival data such as medical data, there
are serious concerns about the privacy of individuals in the data set when
medical data is used to fit the regression models. The closest work addressing
such privacy concerns is the work on Cox regression which linearly projects the
original data to a lower dimensional space. However, the weakness of this
approach is that there is no formal privacy guarantee for such projection. In
this work, we aim to propose solutions for the regression problem in survival
analysis with the protection of differential privacy which is a golden standard
of privacy protection in data privacy research. To this end, we extend the
Output Perturbation and Objective Perturbation approaches which are originally
proposed to protect differential privacy for the Empirical Risk Minimization
(ERM) problems. In addition, we also propose a novel sampling approach based on
the Markov Chain Monte Carlo (MCMC) method to practically guarantee
differential privacy with better accuracy. We show that our proposed approaches
achieve good accuracy as compared to the non-private results while guaranteeing
differential privacy for individuals in the private data set.Comment: 19 pages, CIKM1
UNIVERSITY-INDUSTRY RELATIONSHIPS AND THE DESIGN OF BIOTECHNOLOGY RESEARCH
The central objective of the present paper is to examine how university bioscientists select their research agendas, with special attention to biotechnology firms' influence on those agendas. Among other issues, we will assess UIRs' potential effects on the private appropriability of the characteristics of bioengineered crop and animal varieties, and on the basicness and breadth of a scientist's research. Factors that potentially would affect scientists' research agenda include the university's size, reputation, resources, culture, and total government funding; the scientist's academic position and communication network; and the market power, cultures, and specialties of the biotech firms with which the university has research relationships. An electronic survey of academic life scientists, concentrating on their research objectives, funding sources, collaborators, contracts, and budgets, will form much of the data for testing these models.Research and Development/Tech Change/Emerging Technologies, O31, O32, O33,
Landau Level Degeneracy in Twisted Bilayer Graphene: Role of Symmetry Breaking
The degeneracy of Landau levels flanking charge neutrality in twisted bilayer
graphene is known to change from eight-fold to four-fold when the twist angle
is reduced to values near the magic angle of . This
degeneracy lifting has been reproduced in experiments by multiple groups, and
is known to occur even in devices which do not harbor the correlated insulators
and superconductors. We propose symmetry breaking as an explanation of
such robust degeneracy lifting, and support our proposal by numerical results
on the Landau level spectrum in near-magic-angle twisted bilayer graphene.
Motivated by recent experiments, we further consider the effect of
symmetry breaking on the Landau levels.Comment: 12 pages, 10 figure
Fermion Pairing across a Dipolar Interaction Induced Resonance
It is known from the solution of the two-body problem that an anisotropic
dipolar interaction can give rise to s-wave scattering resonances, which are
named as dipolar interaction induced resonaces (DIIR). In this letter, we study
zero-temperature many-body physics of a two-component Fermi gas across a DIIR.
In the low-density regime, it is very striking that the resulting pairing order
parameter is a nearly isotropic singlet pairing and the physics can be well
described by an s-wave resonant interaction potential with finite range
corrections, despite of the anisotropic nature of dipolar interaction. The
pairing energy is as strong as a unitary Fermi gas nearby a magnetic Feshbach
resonance. In the high density regime, the anisotropic effect plays an
important role. We find phase transitions from singlet pairing to a state with
mixed singlet and triplet pairing, and then from mixed pairing to pure triplet
pairing. The state with mixed pairing spontaneously breaks the time-reversal
symmetry.Comment: 4.5 pages, 4 figures, figures updated, minor changes in tex
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