Genetic Programming for Lifetime Maximization in Wireless Sensor Networks with a Mobile Sink.
Ying LiZhixing HuangJinghui ZhongLiang FengPublished in: SEAL (2017)
Keyphrases
- genetic programming
- wireless sensor networks
- residual energy
- sensor nodes
- energy consumption
- network lifetime
- data transmission
- energy efficiency
- sensor networks
- network connectivity
- data gathering
- sink node
- base station
- energy efficient
- mobile devices
- fitness function
- cluster head
- evolutionary computation
- symbolic regression
- battery powered
- mobile networks
- multi hop
- routing protocol
- evolutionary algorithm
- environmental monitoring
- mobile nodes
- mobile phone
- gene expression programming
- grammar guided genetic programming
- routing algorithm
- data collection
- data aggregation
- maximum lifetime
- reduce the energy consumption
- mobile learning
- energy aware
- objective function
- location information
- genetic algorithm
- energy dissipation
- topology control
- financial forecasting
- intermediate nodes
- wireless communication
- mobile applications
- mobile computing
- data center
- computing environments
- key management
- mobile environments
- smart phones
- end to end
- power consumption
- wireless sensor
- mobile users
- mobile technologies
- life span
- biological inspired