Vikash Ramharuk scite author profile

Vikash Ramharuk

2Publications

4Citation Statements Received

54Citation Statements Given

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University of South Africa

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Development of a Survivable Cloud Multi-Robot Framework for Heterogeneous Environments

Osunmakinde

Ramharuk

2014

International Journal of Advanced Robotic Systems

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Cloud robotics is a paradigm that allows for robots to offload computationally intensive and data storage requirements into the cloud by providing a secure and customizable environment. The challenge for cloud robotics is the inherent problem of cloud disconnection. A major assumption made in the development of the current cloud robotics frameworks is that the connection between the cloud and the robot is always available. However, for multi-robots working in heterogeneous environments, the connection between the cloud and the robots cannot always be guaranteed. This work serves to assist with the challenge of disconnection in cloud robotics by proposing a survivable cloud multi-robotics (SCMR) framework for heterogeneous environments. The SCMR framework leverages the combination of a virtual ad hoc network formed by robot-to-robot communication and a physical cloud infrastructure formed by robot-tocloud communications. The quality of service (QoS) on the SCMR framework was tested and validated by determining the optimal energy utilization and time of response (ToR) on drivability analysis with and without cloud connection. The design trade-off, including the result, is between the computation energy for the robot execution and the offloading energy for the cloud execution.

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Cloud Robotics

Ramharuk

Osunmakinde

2014

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The emergence of cloud computing has transformed the potential of robotics by enabling multi-robotic teams to fulfil complex tasks in the cloud. This paradigm is known as "cloud robotics" and relieves robots from hardware and software limitations as large amounts of available resources and parallel computing capabilities are available in the cloud. A major challenge however, currently faced in cloud robotics is the inherent problem of cloud disconnection which would result in a robot not being able to fulfil certain tasks. This work serves to assist with the challenge of disconnection in cloud robotics by proposing a survivable cloud multi-robotics (SCMR) framework for heterogeneous environments. The SCMR framework leverages the combination of a virtual ad hoc network formed by the robot-to-robot communication and a physical cloud infrastructure formed by the robot-to-cloud communications. The Quality of Service (QoS) on the SCMR framework is tested and validated by determining the optimal energy utilization and Time of Response (ToR) on drivability analysis with and without cloud connection. The experimental results demonstrate that the proposed framework is feasible for current multi-robotic applications and shows the survivability aspect of the framework in instances of cloud disconnection.

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Vikash Ramharuk

Development of a Survivable Cloud Multi-Robot Framework for Heterogeneous Environments

Cloud Robotics

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