36,000 research outputs found
Marketing to the Base of the Pyramid: A Corporate Responsibility Approach with Case Inspired Strategies
The economic and political outcomes of market globalization continue to be complex. As international corporations engage developing markets, they increasingly find consumers who lack market sophistication, meaningful purchasing options and economic leverage. Such conditions are ripe for the exploitation of these market segments but also can be mitigated by enlightened managers willing to thoughtfully consider their ethical and professional obligations to vulnerable consumers. This paper builds on a normative ethical framework, labeled the integrative justice model (IJM) for impoverished markets that was introduced in the marketing and public policy literature. Specifically, the paper will extend the normative ethics of the IJM by proposing logically reasoned decision principles for managers, particularly in MNC subsidiaries, that might better shape ethical business strategy when targeting impoverished segments. Additionally, numerous case examples are given to illustrate how a number of these decision principles are already being applied by companies around the world. Such an approach can serve as a counterweight to the difficulty of crafting global regulations for market development
Optimal Single-Choice Prophet Inequalities from Samples
We study the single-choice Prophet Inequality problem when the gambler is
given access to samples. We show that the optimal competitive ratio of
can be achieved with a single sample from each distribution. When the
distributions are identical, we show that for any constant ,
samples from the distribution suffice to achieve the optimal competitive
ratio () within , resolving an open problem of
Correa, D\"utting, Fischer, and Schewior.Comment: Appears in Innovations in Theoretical Computer Science (ITCS) 202
Recovering from Biased Data: Can Fairness Constraints Improve Accuracy?
Multiple fairness constraints have been proposed in the literature, motivated by a range of concerns about how demographic groups might be treated unfairly by machine learning classifiers. In this work we consider a different motivation; learning from biased training data. We posit several ways in which training data may be biased, including having a more noisy or negatively biased labeling process on members of a disadvantaged group, or a decreased prevalence of positive or negative examples from the disadvantaged group, or both. Given such biased training data, Empirical Risk Minimization (ERM) may produce a classifier that not only is biased but also has suboptimal accuracy on the true data distribution. We examine the ability of fairness-constrained ERM to correct this problem. In particular, we find that the Equal Opportunity fairness constraint [Hardt et al., 2016] combined with ERM will provably recover the Bayes optimal classifier under a range of bias models. We also consider other recovery methods including re-weighting the training data, Equalized Odds, and Demographic Parity, and Calibration. These theoretical results provide additional motivation for considering fairness interventions even if an actor cares primarily about accuracy
Robots and us: towards an economics of the ‘Good Life’
(Expected) adverse effects of the ‘ICT Revolution’ on work and opportunities for
individuals to use and develop their capacities give a new impetus to the debate on the
societal implications of technology and raise questions regarding the ‘responsibility’ of
research and innovation (RRI) and the possibility of achieving ‘inclusive and sustainable
society’. However, missing in this debate is an examination of a possible conflict
between the quest for ‘inclusive and sustainable society’ and conventional economic
principles guiding capital allocation (including the funding of research and innovation).
We propose that such conflict can be resolved by re-examining the nature and purpose
of capital, and by recognising mainstream economics’ utilitarian foundations as an
unduly restrictive subset of a wider Aristotelian understanding of choice
Distributed Constrained Recursive Nonlinear Least-Squares Estimation: Algorithms and Asymptotics
This paper focuses on the problem of recursive nonlinear least squares
parameter estimation in multi-agent networks, in which the individual agents
observe sequentially over time an independent and identically distributed
(i.i.d.) time-series consisting of a nonlinear function of the true but unknown
parameter corrupted by noise. A distributed recursive estimator of the
\emph{consensus} + \emph{innovations} type, namely , is
proposed, in which the agents update their parameter estimates at each
observation sampling epoch in a collaborative way by simultaneously processing
the latest locally sensed information~(\emph{innovations}) and the parameter
estimates from other agents~(\emph{consensus}) in the local neighborhood
conforming to a pre-specified inter-agent communication topology. Under rather
weak conditions on the connectivity of the inter-agent communication and a
\emph{global observability} criterion, it is shown that at every network agent,
the proposed algorithm leads to consistent parameter estimates. Furthermore,
under standard smoothness assumptions on the local observation functions, the
distributed estimator is shown to yield order-optimal convergence rates, i.e.,
as far as the order of pathwise convergence is concerned, the local parameter
estimates at each agent are as good as the optimal centralized nonlinear least
squares estimator which would require access to all the observations across all
the agents at all times. In order to benchmark the performance of the proposed
distributed estimator with that of the centralized nonlinear
least squares estimator, the asymptotic normality of the estimate sequence is
established and the asymptotic covariance of the distributed estimator is
evaluated. Finally, simulation results are presented which illustrate and
verify the analytical findings.Comment: 28 pages. Initial Submission: Feb. 2016, Revised: July 2016,
Accepted: September 2016, To appear in IEEE Transactions on Signal and
Information Processing over Networks: Special Issue on Inference and Learning
over Network
Private Learning Implies Online Learning: An Efficient Reduction
We study the relationship between the notions of differentially private
learning and online learning in games. Several recent works have shown that
differentially private learning implies online learning, but an open problem of
Neel, Roth, and Wu \cite{NeelAaronRoth2018} asks whether this implication is
{\it efficient}. Specifically, does an efficient differentially private learner
imply an efficient online learner? In this paper we resolve this open question
in the context of pure differential privacy. We derive an efficient black-box
reduction from differentially private learning to online learning from expert
advice
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