Deliverables

 

1.1      Optical Channel Modeling (M12)  

1.2      Simulation Tool (M12)                  

2.1      Coding and Modulation Schemes of Coherent Optical Wireless Systems (M15)    

2.2      Design of Coherent Optical Wireless Systems (M15)  

 3.1      System Architecture (end of project)   

3.2      MIMO Techniques (end of project)

4.1       Component Selection and Implementation (end of project)

4.2       Channel Characterization (end of project)           

5.1       Webstite (end of project)

5.2       Publication (end of project)

 

Publications

Dalakas, V. and Kamalakis, T. (2016). Comparative study of modulation and coding schemes for coherent indoor optical wireless systems",Optical and Quantum Electronics, 48,pp. 374-384.

Kamalakis, T., Kanakis, P., Bogris, A., Dalakas, V., & Dede, G. (2016). Designing coherent optical wireless systems for high speed indoor telecom applications. Optics Communications, 358, 35-44.

Kamalakis, T., Kanakis, P., & Bogris, A. (2015, October). Coherent optical wireless: realizing fiber-like connections out of thin air. In Proceedings of the 19th Panhellenic Conference on Informatics (pp. 272-274). ACM.

Margariti, K., & Kamalakis, T. (2014). Performance of coherent detection in optical wireless systems for high speed indoor communications. Optical and Quantum Electronics, 47(5), 985-1003.

Margariti, K., & Kamalakis, T. (2014, July). Coherent optical wireless: An alternative technology for broadband indoor communications. In Transparent Optical Networks (ICTON), 2014 16th International Conference on (pp. 1-4). IEEE.

Margariti, K., & Kamalakis, T. (2014, October). Coherent Optical Wireless Systems for High Speed Local Area Networks with Increased Resilience. InProceedings of the 18th Panhellenic Conference on Informatics (pp. 1-5). ACM.