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Most Influential CVPR 2016 Paper · 2026-03 edition

Rethinking The Inception Architecture For Computer Vision

Christian Szegedy; Vincent Vanhoucke; Sergey Ioffe; Jon Shlens; Zbigniew Wojna

Venue
IEEE Conference on Computer Vision and Pattern Recognition (CVPR) 2016
Recognition
Most Influential CVPR 2016 Paper (Rank No. 3)
Edition
2026-03
Impact factor
10
Certificate ID
d0445ea1aa2b6965

Abstract

Convolutional networks are at the core of most state-of-the-art computer vision solutions for a wide variety of tasks. Since 2014 very deep convolutional networks started to become mainstream, yielding substantial gains in various benchmarks. Although increased model size and computational cost tend to translate to immediate quality gains for most tasks (as long as enough labeled data is provided for training), computational efficiency and low parameter count are still enabling factors for various use cases such as mobile vision and big-data scenarios. Here we are exploring ways to scale up networks in ways that aim at utilizing the added computation as efficiently as possible. We benchmark our methods on the ILSVRC 2012 classification challenge validation set and demonstrate substantial gains over the state of the art via to carefully factorized convolutions and aggressive regularization: 21.2% top-1 and 5.6% top-5 error for single frame evaluation using a network with a computational cost of 5 billion multiply-adds per inference and with using less than 25 million parameters.

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