Bradley Gram-Hansen scite author profile

Bradley Gram-Hansen

5Publications

47Citation Statements Received

70Citation Statements Given

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Affiliations

University of Oxford

Publications

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Mapping Informal Settlements in Developing Countries using Machine Learning and Low Resolution Multi-spectral Data

Gram-Hansen

Helber

Varatharajan

et al. 2019

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Informal settlements are home to the most socially and economically vulnerable people on the planet. In order to deliver effective economic and social aid, non-government organizations (NGOs), such as the United Nations Children's Fund (UNICEF), require detailed maps of the locations of informal settlements. However, data regarding informal and formal settlements is primarily unavailable and if available is often incomplete. This is due, in part, to the cost and complexity of gathering data on a large scale. To address these challenges, we, in this work, provide three contributions. 1) A brand new machine learning data-set, purposely developed for informal settlement detection. 2) We show that it is possible to detect informal settlements using freely available low-resolution (LR) data, in contrast to previous studies that use very-high resolution (VHR) * Both authors contributed equally to this research. satellite and aerial imagery, something that is cost-prohibitive for NGOs. 3) We demonstrate two effective classification schemes on our curated data set, one that is cost-efficient for NGOs and another that is cost-prohibitive for NGOs, but has additional utility. We integrate these schemes into a semi-automated pipeline that converts either a LR or VHR satellite image into a binary map that encodes the locations of informal settlements.

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Efficient Probabilistic Inference in the Quest for Physics Beyond the Standard Model

Baydin¹,

Heinrich²,

Bhimji³

et al. 2018

Preprint

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Etalumis

Baydin

Shao

Bhimji

et al. 2019

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Probabilistic programming languages (PPLs) are receiving widespread attention for performing Bayesian inference in complex generative models. However, applications to science remain limited because of the impracticability of rewriting complex scientific simulators in a PPL, the computational cost of inference, and the lack of scalable implementations. To address these, we present a novel PPL framework that couples directly to existing scientific simulators through a cross-platform probabilistic execution protocol and provides Markov chain Monte Carlo (MCMC) and deep-learning-based inference compilation (IC) engines for tractable inference. To guide IC inference, we perform distributed training of a dynamic 3DCNN-LSTM architecture with a PyTorch-MPI-based framework on 1,024 32-core CPU nodes of the Cori supercomputer with a global minibatch size of 128k: achieving a performance of 450 Tflop/s through enhancements to PyTorch. We demonstrate a Large Hadron Collider (LHC) use-case with the C++ Sherpa simulator and achieve the largest-scale posterior inference in a Turing-complete PPL.

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Hamiltonian Monte Carlo for Probabilistic Programs with Discontinuities

Gram-Hansen¹,

Zhou²,

Kohn³

et al. 2018

Preprint

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Hijacking Malaria Simulators with Probabilistic Programming

Gram-Hansen¹,

Witt²,

Rainforth³

et al. 2019

Preprint

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