397,212 research outputs found
PLURALISM ABOUT TRUTH IN EARLY CHINESE PHILOSOPHY: A REFLECTION ON WANG CHONGS APPROACH
The debate concerning truth in Classical Chinese philosophy has for the most part avoided the possibility that pluralist theories of truth were part of the classical philosophical framework. I argue that the Eastern Han philosopher Wang Chong (c. 25-100 CE) can be profitably read as endorsing a kind of pluralism about truth grounded in the concept of shi 實, or actuality . In my exploration of this view, I explain how it offers a different account of the truth of moral and non-moral statements, while still retaining the univocality of the concept of truth (that is, that the concept amounts to more than the expression of a disjunction of various truth properties), by connecting shi with normative and descriptive facts about how humans appraise statements. In addition to providing insight into pluralist views of truth in early China, the unique pluralist view implicit in Wang\u27 work can help solve problems with contemporary pluralist theories of truth
Shape Generation using Spatially Partitioned Point Clouds
We propose a method to generate 3D shapes using point clouds. Given a
point-cloud representation of a 3D shape, our method builds a kd-tree to
spatially partition the points. This orders them consistently across all
shapes, resulting in reasonably good correspondences across all shapes. We then
use PCA analysis to derive a linear shape basis across the spatially
partitioned points, and optimize the point ordering by iteratively minimizing
the PCA reconstruction error. Even with the spatial sorting, the point clouds
are inherently noisy and the resulting distribution over the shape coefficients
can be highly multi-modal. We propose to use the expressive power of neural
networks to learn a distribution over the shape coefficients in a
generative-adversarial framework. Compared to 3D shape generative models
trained on voxel-representations, our point-based method is considerably more
light-weight and scalable, with little loss of quality. It also outperforms
simpler linear factor models such as Probabilistic PCA, both qualitatively and
quantitatively, on a number of categories from the ShapeNet dataset.
Furthermore, our method can easily incorporate other point attributes such as
normal and color information, an additional advantage over voxel-based
representations.Comment: To appear at BMVC 201
Highly Efficient Regression for Scalable Person Re-Identification
Existing person re-identification models are poor for scaling up to large
data required in real-world applications due to: (1) Complexity: They employ
complex models for optimal performance resulting in high computational cost for
training at a large scale; (2) Inadaptability: Once trained, they are
unsuitable for incremental update to incorporate any new data available. This
work proposes a truly scalable solution to re-id by addressing both problems.
Specifically, a Highly Efficient Regression (HER) model is formulated by
embedding the Fisher's criterion to a ridge regression model for very fast
re-id model learning with scalable memory/storage usage. Importantly, this new
HER model supports faster than real-time incremental model updates therefore
making real-time active learning feasible in re-id with human-in-the-loop.
Extensive experiments show that such a simple and fast model not only
outperforms notably the state-of-the-art re-id methods, but also is more
scalable to large data with additional benefits to active learning for reducing
human labelling effort in re-id deployment
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