A robust possibilistic flexible programming approach toward a resilient and cost-efficient biodiesel supply chain network

Engineering

• Biodiesel 100%
• Models 45%
• Fossil Fuel 36%
• Disruptions 27%
• Solution Technique 18%
• Supply Chain Network 18%
• Energy Demand 18%
• Constraints 18%
• Depletion 9%
• Distributor 9%
• Applicability 9%
• Energy Source 9%
• Commercialisation 9%
• System Reliability 9%
• Sustainable Energy 9%
• Downtime 9%
• System Cost 9%
• Commercial Feasibility 9%
• Tactical Level 9%
• Strategic Level 9%
• Operational Risk 9%
• Biodiesel Production 9%
• Supports 9%
• Real World 9%
• Environment 9%
• Demonstrates 9%
• Determines 9%
• Facilities 9%
• Decision Maker 9%
• Planning 9%
• Measurer 9%
• Requirements 9%
• Quantity 9%
• Regulator 9%
• Engines 9%
• Disasters 9%
• Lowest Cost 9%

Social Sciences

• Costs 54%
• Reliability 18%
• Supply Chain Network 18%
• Scenarios 18%
• Supply Chain Management 18%
• Decision 18%
• Programming 18%
• Constraint 18%
• Effectiveness 9%
• Case Studies 9%
• Commercialization 9%
• Natural Disasters 9%
• Energy Source 9%
• Facility Location 9%
• Environment 9%
• Control 9%
• Support 9%
• Novels 9%
• Producer 9%
• Capacity 9%
• Measure 9%
• Planning 9%
• Decision Maker 9%
• Quantity 9%
• Production 9%
• Flexibility 9%
• Investors 9%
• Modification 9%
• Compromise 9%
• Strikes 9%
• Animals 9%
• Labor 9%

Computer Science

• Simulation Mode 90%
• Supply Chain 18%
• Real World 9%
• Case Study 9%
• Regulators 9%
• Strategic Level 9%
• Downtime 9%
• Network Reliability 9%
• Tactical Level 9%
• Control 9%
• Decision Maker 9%