References
- 1. A.R.S. Bahai, B.R. Saltzberg, Multi-Carrier Digital Communications – Theory and Applications of OFDM, Kluwer Academic Publishers, USA, 1999.
- 2. F. Bekkadal, Emerging Maritime Communications Technologies, 9th International Conference on Intelligent Transport Systems Telecommunications, (ITST), pp. 358–363, 2009.
- 3. R.W. Chang, Synthesis of Band-Limited Orthogonal Signals for Multichannel Data Transmission, Bell System Technical Journal, 45, pp. 1775–1796, 1966.
- 4. K. Dhunes, An Offset Modulation Method Used to Control the PAPR of an OFDM Transmission, PhD dissertation, University of Pretoria, Faculty of Engineering, Built Environment and Information Technology, South Africa, 2012.
- 5. M. Engels, Wireless OFDM Systems: How to Make Them Work?, The Springer International Series in Engineering and Computer Science, USA, 2002.
- 6. K. Fazel, S. Kaiser, Multi-Carrier and Spread Spectrum Systems, John Wiley & Sons, United Kingdom, 2008.
- 7. S. Gajewski, Design of OFDM-based radio communication systems for coast-to-sea and coast-to-air propagation environments, Polish Maritime Research, 1(89), Vol. 23, pp. 12–19, 2016.
- 8. A.A. Giordano, A.H. Levesque, Modeling of Digital Communication Systems Using SIMULINK, John Wiley & Sons, Inc., Hoboken, New Jersey, 2015.
- 9. D. Green et al., VHF Propagation Study, Defence Research and Development, Canada, 2011.
- 10. B. Hui et al., Design of radio transmission technologies for VHF band ship ad-hoc network, International Conference on ICT Convergence (ICTC), Seoul, pp. 626-629, 2011.
- 11. ITU, Recommendation ITU-R M.1842-1, Characteristics of VHF radio systems and equipment for the exchange of data and electronic mail in the maritime mobile service RR Appendix 18 channels, Electronic Publication, Geneva, 2009.
- 12. ITU, Recommendation ITU-R M.1798-1, Characteristics of HF radio equipment for the exchange of digital data and electronic mail in the maritime mobile service, Electronic Publication, Geneva, 2010.
- 13. ITU, Report ITU-R M.2287-0, Automatic identification system VHF data link loading, Electronic Publication, Geneva, 2013.
- 14. ITU, IALA – Working Document toward a draft new Report Maritime Radiocommunication Systems and Requirements, Radiocommunication Study Groups, 2014.
- 15. ITU, Report ITU-R M.2231-1, Use of Appendix 18 to the Radio Regulations for the maritime mobile service, Electronic Publication, Geneva, 2014.
- 16. M.C. Jeruchim, P. Balaban, K.S. Shanmugan, Simulation of Communication Systems: Modeling, Methodology, and Techniques, Second edition, Information Technology: Transmission, Processing, and Storage, Kluwer Academic Publishers, USA, 2002.
- 17. L. Kansal, A. Kansal, K. Singh, Analysis of Different High Level Modulation Techniques for OFDM System, International Journal of VLSI and Signal Processing Applications, 1(2), pp. 102–107, 2011.
- 18. S.G. Kim et al., Design and Implementation of a π/4-DQPSK Transmitter for Maritime VHF Digital Communications, OCEANS, Spain, 2011.
- 19. Y.H. Kim, I. Song, H.G. Kim, T. Chang, H.M. Kim, Performance Analysis of a Coded OFDM System in Time-Varying Multipath Rayleigh Fading Channels, IEEE Transactions on Vehicular Technology, 48(5), pp. 1610–1615, 1999.
- 20. M. Kiviranta et al., Constant Envelope Multicarrier Modulation: Performance Evaluation in AWGN and Fading Channels, IEEE Military Communications Conference, 2, pp. 807–813, 2005.
- 21. M.Z. Parvez, Peak to Average Power Ratio (PAPR) Reduction in OFDM Based Radio Systems, MSc Thesis, Blekinge Institute of Technology, School of Engineering, Department of Signal Processing, Sweden, 2010.
- 22. Y.J. Qazi, Performance Evaluation of Error Correcting Techniques for OFDM Systems, MSc Thesis, Blekinge Institute of Technology, Electrical Engineering, Sweden, 2014.
- 23. M.I. Rahman, S.S. Das, F.H.P. Fitzek, OFDM Based WLAN Systems, Technical Report R-04-1002, Aalborg University, 2005.
- 24. H. Rohling, OFDM – Concepts for Future Communication Systems, Springer, Germany, 2011.
- 25. H. Schulze, C. Lüders, Theory and Applications of OFDM and CDMA – Wideband Wireless Communications, John Wiley & Sons Ltd., England, 2005.
- 26. W. Shieh, I. Djordjevic, Orthogonal Frequency Division Multiplexing for Optical Communications, Elsevier, USA, 2010.
- 27. S. Shooshtary, Development of a MATLAB Simulation Environment for Vehicle-to-Vehicle and Infrastructure Communication Based on IEEE 802.11p, MSc Thesis, University of Gävle, Department of Technology and Built Environment, Vienna, Austria, 2008.
- 28. C.Y.D Sim, The propagation of VHF and UHF radio waves over sea paths, PhD dissertation, University of Leicester, Department of Engineering, United Kingdom, 2002.
- 29. M.K. Simon, M.S. Alouini, Digital Communication over Fading Channels – A Unified Approach to Performance Analysis, John Wiley & Sons, NY, 2000.
- 30. G.L. Stuber, Orthogonal Frequency Division Multiplexing for Wireless Communications, Springer, USA, 2006.
- 31. V. Tarokh, New Directions in Wireless Communications Research, Springer, USA, 2009.
- 32. World Radiocommunication Conference (WRC-12), RESOLUTION 359, Consideration of regulatory provisions for modernization of the Global Maritime Distress and Safety System and studies related to e-Navigation, Geneva, 2012.
- 33. World Radiocommunication Conference (WRC-12). RESOLUTION 360, Consideration of regulatory provisions and spectrum allocations for enhanced Automatic Identification System technology applications and for enhanced maritime radiocommunication, Geneva, 2012.
- 34. F. Xiong, Digital Modulation Technique: Second edition, Artech House Inc., Norwood, 2006.