Rahul Vigneswaran scite author profile

Telemedicine is rapidly developing branch of modern science being a hybrid of medicine & ICT. Mobile real time robotic system is preferred for telerounding compared to that of fixed type which is better choice for teleconsultation. Our new intelligent robotic system is specific for orthopaedic surgeon and economical for developing countries with additional monitoring features. Roboscope (Viewing robot) is preferred for non-interventional medical robots compared to Roboop (Operational robot) which are mainly responsible for telesurgery and other interventional procedures.

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A Deeper Look at the Hessian Eigenspectrum of Deep Neural Networks and its Applications to Regularization

Sankar¹,

Khasbage²,

Vigneswaran³

et al. 2020

Preprint

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Loss landscape analysis is extremely useful for a deeper understanding of the generalization ability of deep neural network models. In this work, we propose a layerwise loss landscape analysis where the loss surface at every layer is studied independently and also on how each correlates to the overall loss surface. We study the layerwise loss landscape by studying the eigenspectra of the Hessian at each layer. In particular, our results show that the layerwise Hessian geometry is largely similar to the entire Hessian. We also report an interesting phenomenon where the Hessian eigenspectrum of middle layers of the deep neural network are observed to most similar to the overall Hessian eigenspectrum. We also show that the maximum eigenvalue and the trace of the Hessian (both full network and layerwise) reduce as training of the network progresses. We leverage on these observations to propose a new regularizer based on the trace of the layerwise Hessian. Penalizing the trace of the Hessian at every layer indirectly forces Stochastic Gradient Descent to converge to flatter minima, which are shown to have better generalization performance. In particular, we show that such a layerwise regularizer can be leveraged to penalize the middlemost layers alone, which yields promising results. Our empirical studies on well-known deep nets across datasets support the claims of this work.

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Rahul Vigneswaran

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A Deeper Look at the Hessian Eigenspectrum of Deep Neural Networks and its Applications to Regularization

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