| Investigation of Nanocommunication-based FRET-Quenching Phenomenon from a Nano-Optics Perspective |
| Paper ID : 1085-ICEEM2023 (R1) |
| Authors: |
|
Prof. Fathi Sayed *1, Amina El- Taweel2, El-Sayed Mahmoud EL-Rabaie3, Salah S. Obayya4, said abdel atty5 1Faculty of Electronic Eng 2Faulty of Electronic Engineering 3Faculty of Electroni Engineering 4Faculty of Electronic Engineering 5dept. of electronics and electrical communications Faculty of electronic engineering Menoufia University Menouf, Egypt |
| Abstract: |
| Nowadays, the integration between the Nano-optics communication technology and the drug delivery system is necessary for application in healthcare and monitoring systems. This paper investigates the framework for nano-communication-based FRET-Quenching Phenomenon from a nano-optics perspective. We introduce an analytical framework for nano-optics communications in the presence of fluorescence quenching. The drug transmission is based on fluorophore labeled ligand discipline, while the FRET quencher is used to reduce the side effects on the healthy cells. The potential Internet of Biological Nanothings (IoBNT) paradigm can use the presented model. The Internet of Biological Nano thing (IoBNT) is used to control the quenching release in order to reduce the intensity of the fluorescence. An essential method for determining the degree of binding affinity between ligands and protein receptors is fluorescence quenching. To examine the framework, we use diffusional rate models. Performance evaluation of the suggested system with respect to bit error rate (BER), diffusion-controlled processes, and quenching concentration. |
| Keywords: |
| Molecular communication, The Internet of Bio-Nano Thing (IoBNT), Förster resonance energy transfer, FRET Quenching. |
| Status : Paper Accepted |
