Conceptos Básicos
Dynamic optimization for goal-oriented semantic communication using relative representations.
Resumen
The article introduces a novel framework for goal-oriented semantic communication in future 6G wireless networks. It addresses the challenges of semantic mismatches by leveraging relative representations and dynamic resource allocation strategies. The content is structured into sections discussing the introduction, relative representation for semantic communication, dynamic resource allocation, algorithmic solutions via stochastic optimization, numerical results, and conclusions.
Introduction:
- Classic communication paradigms prioritize accurate transmission without considering meaning.
- Semantic communication embeds meaning directly into transmissions.
- SemCom relies on AI and DNNs to extract key features representing semantic content.
Relative Representation for Semantic Communication:
- Introduces RelReps to mitigate semantic mismatches in dynamic scenarios.
- Enables zero-shot stitching across diverse encoders without retraining.
- Focuses on data relationships rather than absolute representations.
Dynamic Resource Allocation:
- Devise a dynamic allocation strategy for computation, communication, and learning resources.
- Aims to optimize energy-efficient, low-latency inference crucial for edge applications.
- Formulates the problem as a stability problem using stochastic Lyapunov optimization.
Numerical Results:
- Assess performance through Algorithm 1 while varying latency and accuracy constraints.
- Illustrates trade-offs between power consumption, latency, and inference accuracy.
- Demonstrates the capability of Algorithm 1 to guarantee long-term constraints.
Conclusions:
- Introduces a novel framework for goal-oriented SemCom addressing challenges of semantic mismatches.
- Utilizes relative representations and dynamic resource optimization strategies effectively.
Estadísticas
Numerical results assess methodology's effectiveness in mitigating mismatches among devices while optimizing energy consumption, delay, and effectiveness.
Citas
"As Shannon identified, communication can be understood through three levels: syntactic level, semantic level, and effectiveness level."
"SemCom prioritizes transmitting underlying meaning over perfect reconstruction of raw symbols."
"RelRep focuses on data relationships rather than absolute representations."