Computer Science
Vehicle Routing
100%
Strategic Behavior
100%
multi agent
100%
Multi Agent Systems
66%
Decentralized Approach
66%
User Preference
66%
Efficient Operation
33%
Central Authority
33%
Hide Information
33%
Roles
33%
Large-Scale Problem
33%
Share Information
33%
Problem Management
33%
Heuristics
33%
Information Value
33%
User
33%
Position Information
33%
Pickup and Delivery Problem
33%
Confidential Information
33%
INIS
vehicles
100%
dynamics
100%
carriers
100%
routing
100%
information
42%
cost
34%
cooperation
19%
levels
15%
profits
15%
emission
11%
reduction
11%
bids
7%
gain
7%
distribution
7%
travel
7%
delivery
7%
solutions
7%
increasing
3%
flexibility
3%
operation
3%
hardness
3%
coordinates
3%
shipment
3%
values
3%
management
3%
prices
3%
air pollution
3%
calculation methods
3%
interactions
3%
losses
3%
incentives
3%
policy
3%
investigations
3%
cooperatives
3%
transportation sector
3%
data
3%
size
3%
planning
3%
balances
3%
availability
3%
freight
3%
Economics, Econometrics and Finance
Auction
100%
Information
81%
Profit
36%
Benefits
27%
Marginal Costs
18%
Options
18%
Cost Management
9%
Information Value
9%
Surety
9%
Incentives
9%