Riku Murai scite author profile

Riku Murai

5Publications

38Citation Statements Received

76Citation Statements Given

How they've been cited

How they cite others

172

Affiliations

Imperial College London

Publications

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A Robot Web for Distributed Many-Device Localisation

Murai¹,

Ortiz²,

Saeedi³

et al. 2022

Preprint

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We show that a distributed network of robots or other devices which make measurements of each other can collaborate to globally localise via efficient ad-hoc peer to peer communication. Our Robot Web solution is based on Gaussian Belief Propagation on the fundamental non-linear factor graph describing the probabilistic structure of all of the observations robots make internally or of each other, and is flexible for any type of robot, motion or sensor. We define a simple and efficient communication protocol which can be implemented by the publishing and reading of web pages or other asynchronous communication technologies. We show in simulations with up to 1000 robots interacting in arbitrary patterns that our solution convergently achieves global accuracy as accurate as a centralised non-linear factor graph solver while operating with high distributed efficiency of computation and communication. Via the use of robust factors in GBP, our method is tolerant to a high percentage of faults in sensor measurements or dropped communication packets.

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AnalogNet: Convolutional Neural Network Inference on Analog Focal Plane Sensor Processors

Wong¹,

Guillard²,

Murai³

et al. 2020

Preprint

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We present a high-speed, energy-efficient Convolutional Neural Network (CNN) architecture utilising the capabilities of a unique class of devices known as analog Focal Plane Sensor Processors (FPSP), in which the sensor and the processor are embedded together on the same silicon chip.Unlike traditional vision systems, where the sensor array sends collected data to a separate processor for processing, FPSPs allow data to be processed on the imaging device itself. This unique architecture enables ultra-fast image processing and high energy efficiency, at the expense of limited processing resources and approximate computations.In this work, we show how to convert standard CNNs to FPSP code, and demonstrate a method of training networks to increase their robustness to analog computation errors. Our proposed architecture 1 , coined AnalogNet, reaches a testing accuracy of 96.9% on the MNIST handwritten digits recognition task, at a speed of 2260 FPS, for a cost of 0.7 mJ per frame.

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PathBench: A Benchmarking Platform for Classical and Learned Path Planning Algorithms

Toma

Hsueh

Jaafar

et al. 2021

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BIT-VO: Visual Odometry at 300 FPS using Binary Features from the Focal Plane

Murai

Saeedi

2020

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Systematic comparison of path planning algorithms using PathBench

et al. 2022

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Riku Murai

A Robot Web for Distributed Many-Device Localisation

AnalogNet: Convolutional Neural Network Inference on Analog Focal Plane Sensor Processors

PathBench: A Benchmarking Platform for Classical and Learned Path Planning Algorithms

BIT-VO: Visual Odometry at 300 FPS using Binary Features from the Focal Plane

Systematic comparison of path planning algorithms using PathBench

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