Samitha W. Ekanayake scite author profile

Samitha W. Ekanayake

5Publications

55Citation Statements Received

110Citation Statements Given

How they've been cited

How they cite others

126

110

Affiliations

Deakin University, Data61

Publications

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Formations of Robotic Swarm: An Artificial Force Based Approach

Ekanayake

Pathirana

2010

International Journal of Advanced Robotic Systems

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Cooperative control of multiple mobile robots is an attractive and challenging problem which has drawn considerable attention in the recent past. This paper introduces a scalable decentralized control algorithm to navigate a group of mobile robots (swarm) into a predefined shape in 2D space. The proposed architecture uses artificial forces to control mobile agents into the shape and spread them inside the shape while avoiding intermember collisions. The theoretical analysis of the swarm behavior describes the motion of the complete swarm and individual members in relevant situations. We use computer simulated case studies to verify the theoretical assertions and to demonstrate the robustness of the swarm under external disturbances such as death of agents, change of shape etc. Also the performance of the proposed distributed swarm control architecture was investigated in the presence of realistic implementation issues such as localization errors, communication range limitations, boundedness of forces etc.

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Fusion Based 3D Tracking of Mobile Transmitters via Robust Set-Valued State Estimation with RSS Measurements

2011

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BioKin: an ambulatory platform for gait kinematic and feature assessment

Ekanayake

Morris

Forrester

et al. 2015

Healthcare Technology Letters

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A platform to move gait analysis, which is normally restricted to a clinical environment in a well-equipped gait laboratory, into an ambulatory system, potentially in non-clinical settings is introduced. This novel system can provide functional measurements to guide therapeutic interventions for people requiring rehabilitation with limited access to such gait laboratories. BioKin system consists of three layers: a low-cost wearable wireless motion capture sensor, data collection and storage engine, and the motion analysis and visualisation platform. Moreover, a novel limb orientation estimation algorithm is implemented in the motion analysis platform. The performance of the orientation estimation algorithm is validated against the orientation results from a commercial optical motion analysis system and an instrumented treadmill. The study results demonstrate a root-mean-square error less than 4° and a correlation coefficient more than 0.95 when compared with the industry standard system. These results indicate that the proposed motion analysis platform is a potential addition to existing gait laboratories in order to facilitate gait analysis in remote locations.

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An adaptive complementary filter for inertial sensor based data fusion to track upper body motion

Karunarathne

Ekanayake

Pathirana

2014

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Artificial Formation Forces for Stable Aggregation of Multi-Agent System

Ekanayake

Pathirana

2006

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