An AntiWindup Approach to power controller switching in an ambient healthcare network

Michael J. Walsh; John Barton; Brendan O'Flynn; Martin J. Hayes; Cian O'Mathuna; Seyed Mohammad Mahdi Alavi

doi:10.4018/jaci.2011040103

An AntiWindup Approach to power controller switching in an ambient healthcare network

Michael J. Walsh, John Barton, Brendan O'Flynn, Martin J. Hayes, Cian O'Mathuna, Seyed Mohammad Mahdi Alavi

Research output: Contribution to journal › Article › peer-review

Abstract

This paper proposes a methodology for improved power controller switching in mobile Body Area Networks operating within the ambient healthcare environment. The work extends Anti-windup and Bumpless transfer results to provide a solution to the ambulatory networking problem that ensures sufficient biometric data can always be regenerated at the base station. The solution thereby guarantees satisfactory quality of service for healthcare providers. Compensation is provided for the nonlinear hardware constraints that are a typical feature of the type of network under consideration and graceful performance degradation in the face of hardware output power saturation is demonstrated, thus conserving network energy in an optimal fashion.

Original language	English
Pages (from-to)	35-55
Number of pages	21
Journal	International Journal of Ambient Computing and Intelligence
Volume	3
Issue number	2
DOIs	https://doi.org/10.4018/jaci.2011040103
Publication status	Published - Apr 2011

Keywords

Anti-windup
Bumpless transfer
Hardware constraints
Power controller switching
Wireless networks

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10.4018/jaci.2011040103

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AU - Alavi, Seyed Mohammad Mahdi

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AB - This paper proposes a methodology for improved power controller switching in mobile Body Area Networks operating within the ambient healthcare environment. The work extends Anti-windup and Bumpless transfer results to provide a solution to the ambulatory networking problem that ensures sufficient biometric data can always be regenerated at the base station. The solution thereby guarantees satisfactory quality of service for healthcare providers. Compensation is provided for the nonlinear hardware constraints that are a typical feature of the type of network under consideration and graceful performance degradation in the face of hardware output power saturation is demonstrated, thus conserving network energy in an optimal fashion.

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An AntiWindup Approach to power controller switching in an ambient healthcare network

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Keywords

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