Distributed Online Learning Algorithm With Differential Privacy Strategy for Convex Nondecomposable Global Objectives

In this paper, we deal with a general distributed constrained online learning problem with privacy over time-varying networks, where a class of nondecomposable objective functions are considered. Under this setting, each node only controls a part of the global decision variable, and the goal of all nodes is to collaboratively minimize the global objective over a time horizon $T$ while guarantees the security of the transmitted information. For such problems, we first design a novel generic algorithm framework, named as DPSDA, of differentially private distributed online learning using the Laplace mechanism and the stochastic variants of dual averaging method. Then, we propose two algorithms, named as DPSDA-C and DPSDA-PS, under this framework. Theoretical results show that both algorithms attain an expected regret upper bound in $\mathcal{O}( \sqrt{T} )$ when the objective function is convex, which matches the best utility achievable by cutting-edge algorithms. Finally, numerical experiment results on both real-world and randomly generated datasets verify the effectiveness of our algorithms.

Towards Standard Criteria for human evaluation of Chatbots: A Survey

Human evaluation is becoming a necessity to test the performance of Chatbots. However, off-the-shelf settings suffer the severe reliability and replication issues partly because of the extremely high diversity of criteria. It is high time to come up with standard criteria and exact definitions. To this end, we conduct a through investigation of 105 papers involving human evaluation for Chatbots. Deriving from this, we propose five standard criteria along with precise definitions.