Popis: |
In (Zhu et al., 2022), it proposes an electric vehicle traveling salesman problem with drone while assuming that the electric vehicle (EV) is a battery-electric vehicle whose energy could be refreshed in a battery swap station in minutes. In this paper, we extend the work in (Zhu et al., 2022) by relaxing the fixed-time-full-charge assumption, assuming that the EV is a plug-in hybrid electric vehicle that could be partially recharged in a charging station. This problem is named electric vehicle traveling salesman problem with drone with partial recharge policy (EVTSPD-P). A three-index MILP formulation is proposed to solve the EVTSPD-P with linear and non-linear charging functions where the concave time-state-of-charge (SoC) function is approximated using piecewise linear functions, a technique proposed in Montoya et al. (2017) and Zuo et al. (2019). Furthermore, a specially designed adaptive large neighborhood search (ALNS) meta-heuristic, which incorporates constraint programming (CP), is presented to solve EVTSPD-P problem instances of practical size. The numerical analysis results indicate that the proposed ALNS method is more efficient than variable neighborhood search and has an average optimality gap of about 3% when solving instances with ten nodes. Besides, using a piecewise linear function with a six-line-segments approximation has an average of 10.8% less cost than a linear approximation. |