Keyphrases
V2V Communication
100%
Service Request
100%
Wireless Scheduling
100%
Game Theoretic Approach
100%
Markov Perfect Equilibrium
60%
User Equipment
40%
Roadside Unit
40%
Frequency Resource
40%
Vehicular Users
40%
Competitive Behavior
20%
Resource Scheduling
20%
Simulation Experiment
20%
Payoff
20%
Decision-making Process
20%
Wireless Resources
20%
Average Utility
20%
Markov Decision Process
20%
Communication Networks
20%
Network Dynamics
20%
Data Packet
20%
Data Traffic
20%
Packet Transmission
20%
Performance Gain
20%
Learning Scheme
20%
Dense Urban Areas
20%
Traffic Variations
20%
Road Segment
20%
Online Auctions
20%
Error Bound
20%
Vehicle Density
20%
Second-price Auction
20%
Vehicle-to-vehicle (V2V) Communication
20%
Oblivious Equilibrium
20%
Channel Quality
20%
Potential Performance
20%
INIS
vehicles
100%
equilibrium
80%
markov process
80%
roads
60%
resources
60%
data
40%
equipment
40%
units
40%
simulation
20%
decision making
20%
performance
20%
density
20%
dynamics
20%
approximations
20%
competition
20%
learning
20%
transmission
20%
variations
20%
gain
20%
errors
20%
prices
20%
urban areas
20%
utilities
20%
Computer Science
Service Request
100%
Theoretic Approach
100%
Frequency Resource
40%
Markov Decision Process
20%
Average Utility
20%
Performance Gain
20%
Vehicle Density
20%
Communication Networks
20%
Online Auctions
20%
Channel Quality
20%
Packet Transmission
20%
Decision-Making
20%
Network Dynamic
20%
Technical Challenge
20%
Learning Scheme
20%
Simulation Experiment
20%
Engineering
Service Request
100%
Road
60%
Perfect Equilibrium
60%
Frequency Resource
40%
Data Packet
20%
Data Traffic
20%
Technical Challenge
20%
Learning Scheme
20%
Simulation Experiment
20%
Communication Network
20%
Channel Quality
20%
Packet Transmission
20%
Markov Decision Process
20%