Biblio

Filters: Author is Wu, Fei  [Clear All Filters]
2017-04-24
Wu, Fei, Yang, Yang, Zhang, Ouyang, Srinivasan, Kannan, Shroff, Ness B..  2016.  Anonymous-query Based Rate Control for Wireless Multicast: Approaching Optimality with Constant Feedback. Proceedings of the 17th ACM International Symposium on Mobile Ad Hoc Networking and Computing. :191–200.

For a multicast group of n receivers, existing techniques either achieve high throughput at the cost of prohibitively large (e.g., O(n)) feedback overhead, or achieve low feedback overhead but without either optimal or near-optimal throughput guarantees. Simultaneously achieving good throughput guarantees and low feedback overhead has been an open problem and could be the key reason why wireless multicast has not been successfully deployed in practice. In this paper, we develop a novel anonymous-query based rate control, which approaches the optimal throughput with a constant feedback overhead independent of the number of receivers. In addition to our theoretical results, through implementation on a software-defined ratio platform, we show that the anonymous-query based algorithm achieves low-overhead and robustness in practice.

2017-06-05
Jing, Xiao-Yuan, Qi, Fumin, Wu, Fei, Xu, Baowen.  2016.  Missing Data Imputation Based on Low-rank Recovery and Semi-supervised Regression for Software Effort Estimation. Proceedings of the 38th International Conference on Software Engineering. :607–618.

Software effort estimation (SEE) is a crucial step in software development. Effort data missing usually occurs in real-world data collection. Focusing on the missing data problem, existing SEE methods employ the deletion, ignoring, or imputation strategy to address the problem, where the imputation strategy was found to be more helpful for improving the estimation performance. Current imputation methods in SEE use classical imputation techniques for missing data imputation, yet these imputation techniques have their respective disadvantages and might not be appropriate for effort data. In this paper, we aim to provide an effective solution for the effort data missing problem. Incompletion includes the drive factor missing case and effort label missing case. We introduce the low-rank recovery technique for addressing the drive factor missing case. And we employ the semi-supervised regression technique to perform imputation in the case of effort label missing. We then propose a novel effort data imputation approach, named low-rank recovery and semi-supervised regression imputation (LRSRI). Experiments on 7 widely used software effort datasets indicate that: (1) the proposed approach can obtain better effort data imputation effects than other methods; (2) the imputed data using our approach can apply to multiple estimators well.