OFDM communication system with enhanced channel estimation and data detection techniques

The invention claimed is: 1. A channel estimation device in an Orthogonal Frequency Division Multiplexing (OFDM) system comprising an OFDM transmitter and an OFDM receiver adapted to communicate data symbols over a communication channel having channel conditions, the channel estimation device being adapted to: at the OFDM transmitter side, modulate the OFDM subcarriers by data symbols in a frequency domain using different modulation techniques for generating modulated data symbols having a diversified symbol type configuration, the different modulation techniques comprising a first modulation technique, a second modulation technique and a third modulation technique, the modulated data symbols having the diversified symbol type configuration being generated by modulating first OFDM subcarriers using the first modulation technique for generating first type symbols, modulating second OFDM subcarriers adjacent the first OFDM subcarriers in the frequency domain using the second modulation technique for generating second type symbols and modulating third OFDM subcarriers using the third modulation technique for generating third type symbols; and at the OFDM receiver side, consider the first type symbols as first channel responses and to process said first channel responses for detecting the second type symbols and to consider the second type symbols as second channel responses and to process said first and second channel responses for detecting the third type symbols, wherein the first, second and third type symbols used by the channel estimation device are data-bearing symbols only and are free of pilot symbols. 2. The channel estimation device as claimed in claim 1 , wherein the different modulation techniques comprise MPSK, MASK and QAM. 3. The channel estimation device as claimed in claim 2 , wherein the first modulation technique is MASK, the second modulation technique is MPSK and the third modulation technique is QAM. 4. The channel estimation device as claimed in claim 1 , wherein the data symbols are modulated to form a plurality of symbol blocks and wherein each symbol block among said plurality of symbol blocks is generated according to the diversified symbol type configuration. 5. The channel estimation device as claimed in claim 4 , wherein each symbol block comprises at least two pairs of adjacently formed first and second type symbols such that each pair of adjacently formed first and second type symbols is separated from another pair of adjacently formed first and second type symbols by a frequency spacing using third type symbols. 6. The channel estimation device as claimed in claim 5 , wherein the channel estimation device is adapted to adjust the frequency spacing as a function of the channel conditions. 7. The channel estimation device as claimed in claim 4 , wherein the symbol blocks are separated between each other by a time spacing using third type symbols. 8. The channel estimation device as claimed in claim 7 , wherein the channel estimation device is adapted to adjust the time spacing as a function of the channel conditions. 9. The channel estimation device as claimed in claim 1 , wherein the OFDM system is a Long Term Evolution LTE-Advanced (LTE-A) system. 10. The channel estimation device as claimed in claim 1 , wherein the communication channel is a fading channel. 11. The channel estimation device as claimed in claim 1 , wherein said device performs channel estimation in a Decision-Directed (DD) manner. 12. An Orthogonal Frequency Division Multiplexing (OFDM) system for broadband communication of data symbols over a communication channel having channel conditions, the OFDM system comprising: an OFDM transmitter adapted to modulate the data symbols by OFDM subcarriers in a frequency domain using different modulation techniques for generating modulated data symbols having a diversified symbol type configuration, the different modulation techniques comprising a first modulation technique, a second modulation technique and a third modulation technique, the modulated data symbols having the diversified symbol type configuration being generated by modulating first OFDM subcarriers using the first modulation technique for generating first type symbols, modulating second OFDM subcarriers adjacent the first OFDM subcarriers in the frequency domain using the second modulation technique for generating second type symbols and modulating third OFDM subcarriers using the third modulation technique for generating third type symbols; and an OFDM receiver adapted to process the first type symbols as first channel responses and to process said first channel responses for detecting the second type symbols and to process the second type symbols as second channel responses and to process said first and second channel responses for detecting the third type symbols, wherein the first, second and third type symbols used by the channel estimation device are data-bearing symbols only and are free of pilot symbols. 13. The OFDM system as claimed in claim 12 , wherein the different modulation techniques comprise MPSK, MASK and QAM, and wherein the first modulation technique is MASK, the second modulation technique is MPSK and the third modulation technique is QAM. 14. The OFDM system as claimed in claim 13 , wherein the data symbols are modulated to form a plurality of symbol blocks and wherein each symbol block among said plurality of symbol blocks is generated according to the diversified symbol type configuration, and wherein each symbol block comprises at least two pairs of adjacently formed first and second type symbols such that each pair of adjacently formed first and second type symbols is separated from another pair of adjacently formed first and second type symbols by a frequency spacing using third type symbols and wherein the symbol blocks are separated between each other by a time spacing using third type symbols. 15. The OFDM system as claimed in claim 14 adapted to adjust the frequency spacing and the time spacing as a function of the channel conditions. 16. The OFDM system as claimed in claim 15 , wherein the OFDM system uses a Long Term Evolution LTE-Advanced (LTE-A) system, the communication channel is a fading channel, and the OFDM receiver uses a Mean Squared Error (MSE) estimation in Decision-Directed (DD) manner. 17. The OFDM system as claimed in claim 16 , wherein the OFDM system has equal complexity in comparison to an equivalent system using pilots for channel estimation, with a better bit error rate (BER) performance.