Arun Mahadev scite author profile

Consider a swarm of particles controlled by global inputs. This paper presents algorithms for shaping such swarms in 2D using boundary walls. The range of configurations created by conforming a swarm to a boundary wall is limited. We describe the set of stable configurations of a swarm in two canonical workspaces, a circle and a square. To increase the diversity of configurations, we add boundary interaction to our model. We provide algorithms using friction with walls to place two robots at arbitrary locations in a rectangular workspace. Next, we extend this algorithm to place n agents at desired locations. We conclude with efficient techniques to control the covariance of a swarm not possible without wallfriction. Simulations and hardware implementations with 100 robots validate these results.These methods may have particular relevance for current micro-and nano-robots controlled by global inputs.

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Collecting a swarm in a grid environment using shared, global inputs

Mahadev

Krupke

Reinhardt

et al. 2016

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Abstract-This paper investigates efficient techniques to collect and concentrate an under-actuated particle swarm despite obstacles. Concentrating a swarm of particles is of critical importance in health-care for targeted drug delivery, where micro-scale particles must be steered to a goal location. Individual particles must be small in order to navigate through micro-vasculature, but decreasing size brings new challenges. Individual particles are too small to contain on-board power or computation and are instead controlled by a global input, such as an applied fluidic flow or electric field.To make progress, this paper considers a swarm of robots initialized in a grid world in which each position is either free-space or obstacle. This paper provides algorithms that collect all the robots to one position and compares these algorithms on the basis of efficiency and implementation time.

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Mapping and coverage with a particle swarm controlled by uniform inputs

Mahadev

Krupke

Fekete

et al. 2017

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Collecting a Swarm in a Grid Environment Using Shared, Global Inputs

Mahadev¹,

Krupke²,

Reinhardt³

et al. 2017

Preprint

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Arun Mahadev

Investigating the survivability of drone swarms with flocking and swarming flight patterns using Virtual Reality

Algorithms for shaping a particle swarm with a shared input by exploiting non-slip wall contacts

Collecting a swarm in a grid environment using shared, global inputs

Mapping and coverage with a particle swarm controlled by uniform inputs

Collecting a Swarm in a Grid Environment Using Shared, Global Inputs

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