Paper Info
Title
Speed planning for solar-powered electric vehicles.
Abstract
Electric vehicles (EVs) are the trend for future transportation. The major obstacle is range anxiety due to poor availability of charging stations and long charging time. Solar-powered EVs, which mostly rely on solar energy, are free of charging limitations. However, the range anxiety problem is more severe due to the availability of sun light. For example, shadings of buildings or trees may cause a solar-powered EV to stop halfway in a trip. In this paper, we show that by optimally planning the speed on different road segments and thus balancing energy harvesting and consumption, we can enable a solar-powered EV to successfully reach the destination using the shortest travel time. The speed planning problem is essentially a constrained non-linear programming problem, which is generally difficult to solve. We have identified an optimality property that allows us to compute an optimal speed assignment for a partition of the path; then, a dynamic programming method is developed to efficiently compute the optimal speed assignment for the whole trip with significantly low computation overhead compared to the state-of-the-art non-linear programming solver. To evaluate the usability of the proposed method, we have also developed a solar-powered EV prototype. Experiments show that the predictions by the proposed technique match well with the data collected from the physical EV. Issues on practical implementation are also discussed.
Year
DOI
Venue
2016
10.1145/2934328.2934334
e-Energy
Field
DocType
Citations 
Obstacle,Dynamic programming,Range anxiety,Simulation,Electric vehicle,Solar energy,Energy harvesting,Real-time computing,Engineering,Solver,Computation
Conference
3
PageRank 
References 
Authors
0.42
8
7
Name
Order
Citations
PageRank
Mingsong Lv115815.88
Nan Guan268549.29
Ye Ma382.22
Dong Ji430.76
Erwin Knippel530.42
Xue Liu68823.33
Wang Yi714514.99