Paper Info
Title
Orchestrated application quality and energy storage management in solar-powered embedded systems
Abstract
While energy harvesting technology is a promising solution toward achieving self-sustainable low power systems, the efficient energy storage for these energy harvesting systems is still a challenge because of high self-leakage (e.g., supercapacitors) and limited life cycles (e.g., batteries). In this work, we propose an adaptive quality-aware energy management middleware framework for energy harvesting embedded systems. Our hybrid energy storage model takes into consideration the battery life cycle, supercapacitor self-leakage, and power loss in the harvesting circuit. The framework has an offline planning phase and a runtime adaptation phase. By incorporating abstract models for battery state of health (SoH) and supercapacitor self-leakage, the offline stage determines the budget for charging and discharging distribution of each storage component and accordingly adapts the application quality of service (QoS). The runtime adaptation phase dynamically adjusts the charging and discharging distribution to the dynamic changes in energy harvesting profile. In comparison with related work, our proposed framework is able to capture the lifetime and characteristics of the energy storage components more accurately during adaptation and hence, resulting in a more sustainable system with realistic QoS.
Year
DOI
Venue
2015
10.1109/ISQED.2015.7085430
ISQED
Keywords
Field
DocType
qos,embedded systems,quality of service,middleware,supercapacitors,energy harvesting,system on chip
Middleware,Energy storage,Energy management,System on a chip,Efficient energy use,Computer science,Electric power system,Energy harvesting,Electronic engineering,Battery (electricity),Embedded system
Conference
ISSN
Citations 
PageRank 
1948-3287
1
0.37
References 
Authors
11
5
Name
Order
Citations
PageRank
Nga Dang1203.52
Hossein Tajik2132.26
Nikil Dutt34960421.49
Nalini Venkatasubramanian41426137.46
Eli Bozorgzadeh56111.30