Hence, by the first order condition of v, v∗ t = 0 where θ− t (gt) = (T − t)¯v

Case 2: When −π− t − ∂− y ¯Vt+1 (T − t)¯v, gt ≤ 0, by the monotonicity of the left derivative, −π− t − ∂− y ¯Vt+1(yt, gt) ≤ 0, ∀ yt ≤ (T − t)¯v

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Joint Scheduling of Deferrable and Nondeferrable Demand with Colocated Stochastic Supply

eess.SY · 2025-07-13 · unverdicted · novelty 6.0

Optimal scheduling of deferrable demands with colocated stochastic supply and piecewise-linear pricing reduces to a finite set of three procrastination thresholds per demand class; a reinforcement learning algorithm learns these thresholds when distributions are unknown.

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Joint Scheduling of Deferrable and Nondeferrable Demand with Colocated Stochastic Supply eess.SY · 2025-07-13 · unverdicted · none · ref 45
Optimal scheduling of deferrable demands with colocated stochastic supply and piecewise-linear pricing reduces to a finite set of three procrastination thresholds per demand class; a reinforcement learning algorithm learns these thresholds when distributions are unknown.

Hence, by the first order condition of v, v∗ t = 0 where θ− t (gt) = (T − t)¯v

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