A robotics framework combines VLMs and kernel regression for online learning from embodiment-specific disturbances to enable better adaptation in unstructured environments.
Distributed Gaussian Processes
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abstract
To scale Gaussian processes (GPs) to large data sets we introduce the robust Bayesian Committee Machine (rBCM), a practical and scalable product-of-experts model for large-scale distributed GP regression. Unlike state-of-the-art sparse GP approximations, the rBCM is conceptually simple and does not rely on inducing or variational parameters. The key idea is to recursively distribute computations to independent computational units and, subsequently, recombine them to form an overall result. Efficient closed-form inference allows for straightforward parallelisation and distributed computations with a small memory footprint. The rBCM is independent of the computational graph and can be used on heterogeneous computing infrastructures, ranging from laptops to clusters. With sufficient computing resources our distributed GP model can handle arbitrarily large data sets.
fields
cs.RO 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Don't Fool Me Twice: Adapting to Adversity in the Wild with Experience-Driven Reasoning
A robotics framework combines VLMs and kernel regression for online learning from embodiment-specific disturbances to enable better adaptation in unstructured environments.