Moslehi K, Kumar R. A reliability perspective of the smart grid[J]. IEEE Trans on Smart Grid, 2010, 1(1): 57-64.
[2]
Gkatzikis L, Salonidis T, Hegde N, et al. Electricity markets meet the home through demand response[C]. Proc of the 51st IEEE Conf on Decision & Control. Maui HI, 2012: 5846-5851.
[3]
Chen S, Sinha P, Shroff N B. Scheduling heterogeneous delay tolerant tasks in smart grid with renewable energy[C]. Proc of the 51st IEEE Conf on Decision & Control. Maui HI, 2012: 1130-1135.
[4]
Rotering N, Ilic M. Optimal charge control of plug-in hybrid electric vehicles in deregulated electricity markets[J]. IEEE Trans on Power Systems, 2011, 26(3): 1021-1029.
[5]
Koutsopoulos I, Hatzi V, Tassiulas L. Optimal energy storage control policies for the smart power grid[C]. Proc of the 2011 IEEE Int Conf on Smart Grid Communications. Brussels, 2011: 475-480.
[6]
Koutsopoulos I, Tassiulas L. Optimal control policies for power demand scheduling in the smart grid[J]. IEEE J on Selected Areas in Communications, 2012, 30(6): 1049-1060.
[7]
Gungor V C, Sahin D, Kocak T. A survey on smart grid potential applications and communication requirements[J]. IEEE Trans on Industrial Informatics, 2013, 9(1): 28-42.
[8]
Puterman M L. Markov decision processes: Discrete stochastic dynamic programming[M]. New York: John Wiley & Sons, 1994: 377-385.
[9]
Cao X R. The potential structure of sample paths and performance sensitivities of Markov systems[J]. IEEE Trans on Automatic Control, 2004, 49(12): 2129-2142.
