Deep Q-Learning Aided Energy-Efficient Caching and Transmission for Adaptive Bitrate Video Streaming Over Dynamic Cellular Networks.
Junfeng XiePublished in: IEEE Access (2024)
Keyphrases
- energy efficient
- video streaming
- video quality
- cellular networks
- scalable video
- base station
- rate adaptation
- bit rate
- wireless networks
- rate control
- data transmission
- bitstream
- multi hop
- wireless sensor networks
- video coding
- multiple description
- energy consumption
- multiple description coding
- cross layer
- quality assessment
- long term evolution
- scalable video coding
- packet loss
- video transmission
- mobility management
- rate distortion
- sensor networks
- video content
- error resilient
- frame rate
- wireless channels
- motion vectors
- ad hoc networks
- error propagation
- video streams
- compressed video
- mobile networks
- error concealment
- communication networks
- macroblock
- mobile users
- wireless communication
- application layer
- coding efficiency
- energy efficiency
- image quality
- high speed
- real time
- motion estimation
- cognitive radio
- channel coding
- routing protocol
- sensor nodes
- user experience
- low complexity
- resource management