Energy-Efficient Task Offloading Under E2E Latency Constraints

In this paper, we propose a novel resource management scheme that jointly allocates the transmitpower and computational resources in a centralized radio access network architecture. The networkcomprises a set of computing nodes to which the requested tasks of different users are offloaded. Theoptimization problem minimizes the energy consumption of task offloading while takes the end-to-end latency, i.e., the transmission, execution, and propagation latencies of each task, into account. We aim toallocate the transmit power and computational resources such that the maximum acceptable latency ofeach task is satisfied. Since the optimization problem is non-convex, we divide it into two sub-problems,one for transmit power allocation and another for task placement and computational resource allocation.Transmit power is allocated via the convex-concave procedure. In addition, a heuristic algorithm isproposed to jointly manage computational resources and task placement. We also propose a feasibilityanalysis that finds a feasible subset of tasks. Furthermore, a disjoint method that separately allocatesthe transmit power and the computational resources is proposed as the baseline of comparison. A lowerbound on the optimal solution of the optimization problem is also derived based on exhaustive searchover task placement decisions and utilizing Karush–Kuhn–Tucker conditions. Simulation results showthat the joint method outperforms the disjoint method in terms of acceptance ratio. Simulations alsoshow that the optimality gap of the joint method is less than 5%.