Ishan Deshpande scite author profile

Generative Adversarial Nets (GANs) are very successful at modeling distributions from given samples, even in the high-dimensional case. However, their formulation is also known to be hard to optimize and often not stable. While this is particularly true for early GAN formulations, there has been significant empirically motivated and theoretically founded progress to improve stability, for instance, by using the Wasserstein distance rather than the Jenson-Shannon divergence. Here, we consider an alternative formulation for generative modeling based on random projections which, in its simplest form, results in a single objective rather than a saddle-point formulation. By augmenting this approach with a discriminator we improve its accuracy. We found our approach to be significantly more stable compared to even the improved Wasserstein GAN. Further, unlike the traditional GAN loss, the loss formulated in our method is a good measure of the actual distance between the distributions and, for the first time for GAN training, we are able to show estimates for the same.

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Max-Sliced Wasserstein Distance and Its Use for GANs

Deshpande

Sun

et al. 2019

104

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Generative adversarial nets (GANs) and variational auto-encoders have significantly improved our distribution modeling capabilities, showing promise for dataset augmentation, image-to-image translation and feature learning. However, to model high-dimensional distributions, sequential training and stacked architectures are common, increasing the number of tunable hyper-parameters as well as the training time. Nonetheless, the sample complexity of the distance metrics remains one of the factors affecting GAN training. We first show that the recently proposed sliced Wasserstein distance has compelling sample complexity properties when compared to the Wasserstein distance. To further improve the sliced Wasserstein distance we then analyze its 'projection complexity' and develop the max-sliced Wasserstein distance which enjoys compelling sample complexity while reducing projection complexity, albeit necessitating a max estimation. We finally illustrate that the proposed distance trains GANs on high-dimensional images up to a resolution of 256x256 easily.

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A quantitative study of focus shift in Marathi

Rao¹,

Mixdorff²,

Deshpande³

et al. 2016

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We study the effect of focus shift on prosodic features for Marathi, a major Indian language. In our analysis, we consider different focus locations and different focus widths. We report observations of fundamental frequency, intensity, and syllabic durations of constituent words of the utterance. F0 is studied via the accent commands of the Fujisaki model. We contrast statements containing narrowly focused content words with broad focused statements. Contexts for narrowly focused items are either contrastive or non-contrastive. Our results show that narrow focus is marked by longer duration of the focused word, and a larger accent command in the focused word. Post-focal effects are observed for duration, intensity and F0. No differences were found between contrastive and non-contrastive focus.

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Ishan Deshpande

Generative Modeling Using the Sliced Wasserstein Distance

Max-Sliced Wasserstein Distance and Its Use for GANs

A quantitative study of focus shift in Marathi

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