Biblio

Filters: Author is Shao, Ming  [Clear All Filters]
2018-02-06
Robinson, Joseph P., Shao, Ming, Zhao, Handong, Wu, Yue, Gillis, Timothy, Fu, Yun.  2017.  Recognizing Families In the Wild (RFIW): Data Challenge Workshop in Conjunction with ACM MM 2017. Proceedings of the 2017 Workshop on Recognizing Families In the Wild. :5–12.

Recognizing Families In the Wild (RFIW) is a large-scale, multi-track automatic kinship recognition evaluation, supporting both kinship verification and family classification on scales much larger than ever before. It was organized as a Data Challenge Workshop hosted in conjunction with ACM Multimedia 2017. This was achieved with the largest image collection that supports kin-based vision tasks. In the end, we use this manuscript to summarize evaluation protocols, progress made and some technical background and performance ratings of the algorithms used, and a discussion on promising directions for both research and engineers to be taken next in this line of work.

2017-09-15
Robinson, Joseph P., Shao, Ming, Wu, Yue, Fu, Yun.  2016.  Families in the Wild (FIW): Large-Scale Kinship Image Database and Benchmarks. Proceedings of the 2016 ACM on Multimedia Conference. :242–246.

We present the largest kinship recognition dataset to date, Families in the Wild (FIW). Motivated by the lack of a single, unified dataset for kinship recognition, we aim to provide a dataset that captivates the interest of the research community. With only a small team, we were able to collect, organize, and label over 10,000 family photos of 1,000 families with our annotation tool designed to mark complex hierarchical relationships and local label information in a quick and efficient manner. We include several benchmarks for two image-based tasks, kinship verification and family recognition. For this, we incorporate several visual features and metric learning methods as baselines. Also, we demonstrate that a pre-trained Convolutional Neural Network (CNN) as an off-the-shelf feature extractor outperforms the other feature types. Then, results were further boosted by fine-tuning two deep CNNs on FIW data: (1) for kinship verification, a triplet loss function was learned on top of the network of pre-train weights; (2) for family recognition, a family-specific softmax classifier was added to the network.