Cellular Molecular Communication Receiver with Adaptive Chemical Detection and Synchronization
The proposed cellular molecular communication receiver architecture utilizes chemical reaction networks to perform adaptive symbol detection and synchronization, enabling reliable communication in unknown or time-varying channels without relying on external computational units.
Performance Analysis and Mitigation of Inter-Symbol Interference in Molecular Communication with an Imperfect Transmitter
The core message of this article is to analyze the performance of a molecular communication system with an imperfect transmitter, where the transmitter contains reservoirs with mixed concentrations of signaling molecules, and to propose a detection method to mitigate the resulting inter-symbol interference.
Energy Allocation Optimization for Improving Transmitter Performance in Multi-User Cooperative Molecular Communication Systems
Optimal energy allocation among transmitters in a multi-user cooperative molecular communication system can minimize the total bit error rate.
Analysis of Signal Distortion in Molecular Communication Channels Using Frequency Response
Molecular communication channels must be designed to transfer desired signals from a transmitter cell to a receiver cell without significant distortion, which can be analyzed using frequency response characteristics.
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