Dual-stage power management algorithms for energy harvesting sensors

IEEE Transactions on Wireless Communications

Volumn 11, Issue 4, 2012, Pages 1434-1445

  Reddy, Srinivas ^a   Murthy, Chandra R ^b  

^a TEXAS INSTRUMENTS   (India)

^b INDIAN INSTITUTE OF SCIENCE   (India)

Author keywords

Energy harvesting sensors; power management; truncated channel inversion; utility maximization

Indexed keywords

COMMUNICATION PARAMETERS; DUAL STAGE; ENERGY EFFICIENT; FADING PROCESS; OPTIMALITY; PERFORMANCE BENEFITS; POWER CONSTRAINTS; POWER MANAGEMENT ALGORITHMS; POWER MANAGEMENTS; POWER-LOSSES; RETRANSMISSION STRATEGIES; SOLAR IRRADIANCES; STAGE ALGORITHM; STORAGE CAPACITY; TIME-SCALES; TRANSMISSION SCHEMES; TRUNCATED CHANNEL INVERSIONS; UTILITY MAXIMIZATIONS;

COMMUNICATION; ENERGY EFFICIENCY; ENERGY HARVESTING; ENERGY MANAGEMENT; FADING CHANNELS; OPTIMIZATION; SENSORS;

ALGORITHMS;

EID: 84860196658     PISSN: 15361276     EISSN: None     Source Type: Journal    
DOI: 10.1109/TWC.2012.032812.110623     Document Type: Article

References (34)

1. S. Reddy and C. R. Murthy, "Profile-based load scheduling in wireless energy harvesting sensors for data rate maximization", in Proc. 2010 IEEE Int. Conf. Commun., pp. 1-5.
2. S. Roundy, D. Steingart, L. Frechette, P. Wright, and J. Rabaey, "Power sources for wireless sensor networks", in Wireless Sensor Netw. Springer, 2004, pp. 1-17.
3. J. A. Paradiso and T. Starner, "Energy scavenging for mobile and wireless electronics", IEEE Pervasive Comput., vol. 4, no. 1, pp. 18-27, Jan. 2005.
4. S. W. Arms, C. P. Townsend, D. L. Churchill, J. H. Galbreath, and S. W. Mundell, "Power management for energy harvesting wireless sensors", in Smart Structures and Materials 2005: Smart Electronics, MEMS, BioMEMS, and Nanotechnology, V. K. Varadan, editor, vol. 5763, no. 1. SPIE, 2005, pp. 267-275. Available: http://link.aip.org/link/?PSI/5763/267/1
5. J. Hsu, S. Zahedi, A. Kansal, M. Srivastava, and V. Raghunathan, "Adaptive duty cycling for energy harvesting systems", in Proc. 2006 International Symp. Low Power Electron. Design, pp. 180-185.
6. C. Vigorito, D. Ganesan, and A. Barto, "Adaptive control of duty cycling in energy-harvesting wireless sensor networks", in Proc. 2007 IEEE Conf. Sensor, Mesh Ad Hoc Commun. Netw., pp. 21-30.
7. P. Castiglione, O. Simeone, E. Erkip, and T. Zemen, "Energy management policies for energy-neutral source-channel coding", Arxiv preprint arXiv:1103.4787, 2011.
8. O. Ozel, K. Tutuncuoglu, J. Yang, S. Ulukus, and A. Yener, "Transmission with energy harvesting nodes in fading wireless channels: optimal policies", IEEE J. Sel. Areas Commun., vol. 29, no. 8, pp. 1732-1743, Sep. 2011.
9. V. Joseph, V. Sharma, and U. Mukherji, "Optimal sleep-wake policies for an energy harvesting sensor node", in Proc. 2009 IEEE Int. Conf. Commun., pp. 1-6.
10. C. K. Ho and R. Zhang, "Optimal energy allocation for wireless communications powered by energy harvesters", in Proc. 2010 IEEE Symp. Inf. Theory, pp. 2368-2372.
11. J. Lei, R. Yates, and L. Greenstein, "A generic model for optimizing single-hop transmission policy of replenishable sensors", IEEE Trans. Wireless Commun., vol. 8, no. 2, pp. 547-551, Feb. 2009.
12. B. Medepally, N. B. Mehta, and C. R. Murthy, "Implications of energy profile and storage on energy harvesting sensor link performance", in Proc. 2009 IEEE Global Commun. Conf., pp. 1-6.
13. A. Kansal, J. Hsu, S. Zahedi, and M. B. Srivastava, "Power management in energy harvesting sensor networks", ACM Trans. Embedded Comput. Syst., vol. 6, no. 4, pp. 1-38, Sep. 2007.
14. A. Susu, A. Acquaviva, D. Atienza, and G. De Micheli, "Stochastic modeling and analysis for environmentally powered wireless sensor nodes", in Proc. 2008 International Symp. Modeling Optimization Mobile, Ad Hoc, Wireless Netw. Workshops, pp. 125-134.
15. D. Niyato, E. Hossain, and A. Fallahi, "Sleep and wakeup strategies in solar-powered wireless sensor/mesh networks: performance analysis and optimization", IEEE Trans. Mobile Comput., vol. 6, no. 2, pp. 221-236, Feb. 2007.
16. A. Seyedi and B. Sikdar, "Energy efficient transmission strategies for body sensor networks with energy harvesting", IEEE Trans. Commun., vol. 58, no. 7, pp. 2116-2126, July 2010.
17. O. Ozel and S. Ulukus, "Information-theoretic analysis of an energy harvesting communication system", in Proc. 2010 IEEE Personal, Indoor Mobile Radio Commun. Workshop, pp. 330-335.
18. R. Rajesh, V. Sharma, and P. Viswanath, "Information capacity of energy harvesting sensor nodes", in Proc. 2011 IEEE International Symp. Inf. Theory, pp. 2363-2367.
19. J. Piorno, C. Bergonzini, D. Atienza, and T. Rosing, "Prediction and management in energy harvested wireless sensor nodes", in Proc. 2009 International Conf. Wireless Commun., Veh. Technol., Inf. Theory Aerospace Electron. Syst. Technol., pp. 6-10.
20. C. Moser, L. Thiele, D. Brunelli, and L. Benini, "Adaptive power management in energy harvesting systems", in Proc. 2007 Design, Automation Test Europe Conf. Exhibition, pp. 1-6.
21. A. Kansal, J. Hsu, M. Srivastava, and V. Raqhunathan, "Harvesting aware power management for sensor networks", in Proc. 2006 ACM/IEEE Design Automation Conf., pp. 651-656.
22. C. Moser, D. Brunelli, L. Thiele, and L. Benini, "Real-time scheduling for energy harvesting sensor nodes", Real-Time Syst., vol. 37, no. 3, pp. 233-260, Dec. 2007.
23. F. Simjee and P. Chou, "Everlast: long-life, supercapacitor-operated wireless sensor node", in Proc. 2006 International Symp. Low Power Electron. Design, pp. 197-202.
24. W. Chen, M. Neely, and U. Mitra, "Energy-efficient transmissions with individual packet delay constraints", IEEE Trans. Inf. Theory, vol. 54, no. 5, pp. 2090-2109, May 2008.
25. V. Shenoy and C. R. Murthy, "Throughput maximization of delayconstrained traffic in wireless energy harvesting sensors", in Proc. 2010 IEEE Int. Conf. Commun., pp. 1-5.
26. C. Murthy, "Power management and data rate maximization in wireless energy harvesting sensors", International J. Wireless Inf. Netw., vol. 16, no. 3, pp. 102-117, July 2009.
27. S. Sudevalayam and P. Kulkarni, "Energy harvesting sensor nodes: survey and implications", IEEE Commun. Surveys Tuts., vol. 13, no. 3, pp. 443-461, Third Quarter 2011.
28. A. Goldsmith and P. Varaiya, "Capacity of fading channels with channel side information", IEEE Trans. Inf. Theory, vol. 43, no. 6, pp. 1986-1992, June 2002.
29. B. Medepally and N. B. Mehta, "Voluntary energy harvesting relays and selection in cooperative wireless networks", IEEE Trans. Wireless Commun., vol. 9, no. 11, pp. 3543-3553, Nov. 2010.
30. "IEEE standard 802, part 15.4: wireless medium access control (MAC) and physical layer (PHY) specifications for low rate wireless personal area networks (WPANs)", 2003.
31. S. Cui, A. Goldsmith, and A. Bahai, "Energy-constrained modulation optimization", IEEE Trans. Wireless Commun., vol. 4, no. 5, pp. 2349-2360, Sep. 2005.
32. R. Weinstock, Calculus of Variations (International Series in Pure and Applied Mathematics). McGraw-Hill, 1952.
33. "Cooperative networks for renewable resource measurements (CONFFRM) solar energy resource data." Available: http://rredc.nrel.gov/solar/new- data/confrrm.
34. S. Reddy and C. R. Murthy, "Duty cycling and power management with a network of energy harvesting sensors", in Proc. 2011 Int. Workshop Computational Advances Multi-Sensor Adaptive Process., pp. 205-208.