Engineering
Electricity Cost
100%
Power Outage
89%
Electric Vehicle
78%
Energy Engineering
78%
Electric Vehicle
78%
Mixed-Integer Linear Programming
59%
Outages
56%
Power Grid
47%
Energy Crisis
44%
Optimization
39%
Electricity Consumption
39%
Real World
32%
Vehicle to Grid
32%
Events
29%
Supports
29%
Heating
26%
Power Engineering
19%
Demand Response Program
19%
Detached House
19%
Metrics
15%
State of Charge
14%
Economic Benefit
13%
Stability
13%
Electricity Demand
13%
Energy Transition
13%
Reducing Emission
13%
Electricity Price
13%
Economic Advantage
13%
Buildings
13%
Model Response
12%
Real Data
12%
Plug-in Electric Vehicle
12%
Energy Transition
12%
Peak Load
9%
Energy Demand Management
9%
Simulation
9%
Reduction
9%
Load Shifting
9%
Water Heating
9%
System Operator
7%
Social Sciences
Electric Vehicles
78%
Vehicles
55%
Rural Areas
47%
Information and Communication Technologies
47%
Stochastics
39%
Analysis
39%
Digital Transformation
39%
Costs
39%
Technology
39%
Households
39%
Wellbeing
39%
Electricity
39%
Optimization
39%
Decision Maker
39%
Digitalization
31%
Service Industries
31%
Economics
26%
Heating
26%
Demand
26%
Resident
23%
Digitalization
19%
Regional Development
19%
Tourism
15%
Mobility
15%
Application
15%
Criterion
15%
Problem
15%
Location
15%
Savings
13%
Prices
13%
Transport
13%
Buildings
13%
Time
13%
Place of Residence
9%
Ownership
7%
Novels
7%
Swedish
7%
Sharing Economy
7%
Urban Areas
7%
Population Density
7%
Car Sharing
7%
Case Studies
7%
Finnish
7%
Citizen
7%
Methodology
7%
Consequences
7%
Computer Science
Charging Event
88%
Procedures
78%
Simulation
53%
Networks
49%
Demand Response
43%
Event Simulation
39%
Events
39%
Digital Transformation
39%
Digitalisation
31%
Service
23%
Application
19%
Simulation Model
19%
Models
19%
Deterministic Model
9%
Generation
9%
Active Participation
9%
Technical Requirement
9%
Market Situation
9%
Rural Community
7%
Environmental Scanning
7%
Negative Consequence
7%
Multiple Service
7%
Positive Consequence
7%
Digital Information
7%