Abstract
Modern Smart Cities are highly dependent on an efficient energy service since electricity is used in an increasing number of urban activities. In this regard, Time-of-Use prices for electricity is a widely implemented policy that has been successful to balance electricity consumption along the day and, thus, diminish the stress and risk of shortcuts of electric grids in peak hours. Indeed, residential customers may now schedule the use of deferrable electrical appliances in their smart homes in off-peak hours to reduce the electricity bill. In this context, this work aims to develop an automatic planning tool that accounts for minimizing the electricity costs and enhancing user satisfaction, allowing them to make more efficient usage of the energy consumed. The household energy consumption planning problem is addressed with a multiobjective evolutionary algorithm, for which problem-specific operators are devised, and a set of state-of-the-art greedy algorithms aim to optimize different criteria. The proposed resolution algorithms are tested over a set of realistic instances built using real-world energy consumption data, Time-of-Use prices from an electricity company, and user preferences estimated from historical information and sensor data. The results show that the evolutionary algorithm is able to improve upon the greedy algorithms both in terms of the electricity costs and user satisfaction and largely outperforms to a large extent the current strategy without planning implemented by users.
Highlights
Power supply is of paramount importance in modern societies, which have become increasingly dependent on electricity for a growing number of commercial, industrial and residential activities
The largest improvements are reached over the Business as Usual (BaU) strategy
The analysis of the sample case indicates that the hypervolume of the Pareto front computed by the proposed NSGA-II is 73.4% of the total area, while the Greedy cost heuristic has a hypervolume of just 37,1% of the total area
Summary
Power supply is of paramount importance in modern societies, which have become increasingly dependent on electricity for a growing number of commercial, industrial and residential activities In this regard, it is not surprising that a big effort has been invested by electricity companies, regulation agencies, and governmental decision-makers to take advantage of computer-aid tools to enhance efficiency of energy usage (Calvillo et al, 2016). Despite being less than 10,000 KWh, the residential consumption of energy in the European Union is significant since it represents 27.2% of the total energy consumed (Eurostat Statistic Explained). These values are in line with the average worldwide situation about the relevance of the residential users’ consumption for the electric systems (Rabbani et al, 2018)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
