Emerging and future HealthCare policies are fueling up an application-driven shift toward long-Term monitoring of biosignals by means of embedded ultra-low power Wireless Body Sensor Networks (WBSNs). In order to break out, these applications needed the emergence of new technologies to allow the development of extremely power-efficient bio-sensing nodes. The PHIDIAS project aims at unlocking the development of ultra-low power bio-sensing WBSNs by tackling multiple and interlocking technological breakthroughs: (i) the development of new signal processing models and methods based on the recently proposed Compressive Sampling paradigm, which allows the design of energy-minimal computational architectures and analog front-ends, (ii) the efficient hardware implementation of components, both analog and digital, building upon an innovative ultra-low-power signal processing front-end, (iii) the evaluation of the global power reduction using a system wide integration of hardware and software components focused on compressed-sensingbased bio-signals analysis. PHIDIAS brought together a mixed consortium of academic and industrial research partners representing pan-European excellence in different fields impacting the energy-Aware optimization of WBSNs, including experts in signal processing and digital/analog IC design. In this way, PHIDIAS pioneered a unique holistic approach, ensuring that key breakthroughs worked out in a cooperative way toward the global objective of the project.

Bortolotti, D., Bartolini, A., Benini, L., Rajesh Pamula, V., Van Helleputte, N., Van Hoof, C., et al. (2016). PHIDIAS: Ultra-low-power holistic design for smart bio-signals computing platforms. Association for Computing Machinery, Inc [10.1145/2903150.2903469].

PHIDIAS: Ultra-low-power holistic design for smart bio-signals computing platforms

BORTOLOTTI, DANIELE;BARTOLINI, ANDREA;BENINI, LUCA;
2016

Abstract

Emerging and future HealthCare policies are fueling up an application-driven shift toward long-Term monitoring of biosignals by means of embedded ultra-low power Wireless Body Sensor Networks (WBSNs). In order to break out, these applications needed the emergence of new technologies to allow the development of extremely power-efficient bio-sensing nodes. The PHIDIAS project aims at unlocking the development of ultra-low power bio-sensing WBSNs by tackling multiple and interlocking technological breakthroughs: (i) the development of new signal processing models and methods based on the recently proposed Compressive Sampling paradigm, which allows the design of energy-minimal computational architectures and analog front-ends, (ii) the efficient hardware implementation of components, both analog and digital, building upon an innovative ultra-low-power signal processing front-end, (iii) the evaluation of the global power reduction using a system wide integration of hardware and software components focused on compressed-sensingbased bio-signals analysis. PHIDIAS brought together a mixed consortium of academic and industrial research partners representing pan-European excellence in different fields impacting the energy-Aware optimization of WBSNs, including experts in signal processing and digital/analog IC design. In this way, PHIDIAS pioneered a unique holistic approach, ensuring that key breakthroughs worked out in a cooperative way toward the global objective of the project.
2016
2016 ACM International Conference on Computing Frontiers - Proceedings
309
314
Bortolotti, D., Bartolini, A., Benini, L., Rajesh Pamula, V., Van Helleputte, N., Van Hoof, C., et al. (2016). PHIDIAS: Ultra-low-power holistic design for smart bio-signals computing platforms. Association for Computing Machinery, Inc [10.1145/2903150.2903469].
Bortolotti, D.; Bartolini, A.; Benini, L.; Rajesh Pamula, V.; Van Helleputte, N.; Van Hoof, C.; Verhelst, M.; Gemmeke, T.; Braojos Lopez, R.; Ansaloni...espandi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/588255
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