M-ary PAM modulator with real symbols. More...
#include <itpp/comm/modulator.h>
Public Member Functions | |
| PAM () | |
| Default Constructor. | |
| PAM (int M) | |
| Constructor. | |
| virtual | ~PAM () |
| Destructor. | |
| void | set_M (int M) |
| Set the size of the signal constellation. | |
| void | demodulate_bits (const vec &signal, bvec &output) const |
| Hard demodulation of PAM symbols in complex domain to bits. | |
| bvec | demodulate_bits (const vec &signal) const |
| Hard demodulation of PAM symbols in complex domain to bits. | |
| virtual void | set (const Vec< double > &symbols, const ivec &bits2symbols) |
| Set the constellation to use in the modulator. | |
| virtual int | bits_per_symbol () const |
| Returns number of bits per symbol. | |
| virtual int | get_k () const |
| Returns number of bits per symbol. | |
| virtual int | get_M () const |
| Returns number of modulation symbols. | |
| virtual Vec< double > | get_symbols () const |
| Get the symbol values used in the modulator. | |
| virtual ivec | get_bits2symbols () const |
| Get the bitmap, which maps input bits into symbols. | |
| virtual void | modulate (const ivec &symbolnumbers, Vec< double > &output) const |
| Modulation of symbols. | |
| virtual Vec< double > | modulate (const ivec &symbolnumbers) const |
| Modulation of symbols. | |
| virtual void | demodulate (const Vec< double > &signal, ivec &output) const |
| Demodulation of symbols. | |
| virtual ivec | demodulate (const Vec< double > &signal) const |
| Demodulation of symbols. | |
| virtual void | modulate_bits (const bvec &bits, Vec< double > &output) const |
| Modulation of bits. | |
| virtual Vec< double > | modulate_bits (const bvec &bits) const |
| Modulation of bits. | |
| virtual void | demodulate_bits (const Vec< double > &signal, bvec &bits) const |
| Hard demodulation of bits. | |
| virtual bvec | demodulate_bits (const Vec< double > &signal) const |
| Hard demodulation of bits. | |
| virtual void | demodulate_soft_bits (const Vec< double > &rx_symbols, double N0, vec &soft_bits, Soft_Method method=LOGMAP) const |
| Soft demodulator for AWGN channels. | |
| virtual vec | demodulate_soft_bits (const Vec< double > &rx_symbols, double N0, Soft_Method method=LOGMAP) const |
| Soft demodulator for AWGN channels. | |
| virtual void | demodulate_soft_bits (const Vec< double > &rx_symbols, const Vec< double > &channel, double N0, vec &soft_bits, Soft_Method method=LOGMAP) const |
| Soft demodulator for fading channels. | |
| virtual vec | demodulate_soft_bits (const Vec< double > &rx_symbols, const Vec< double > &channel, double N0, Soft_Method method=LOGMAP) const |
| Soft demodulator for fading channels. | |
Protected Member Functions | |
| void | calculate_softbit_matrices () |
| This function calculates the soft bit mapping matrices S0 and S1. | |
Protected Attributes | |
| double | scaling_factor |
| Scaling factor used to normalize the average energy to 1. | |
| bool | setup_done |
| Setup indicator. | |
| int | k |
| Number of bits per modulation symbol. | |
| int | M |
| Number of modulation symbols. | |
| bmat | bitmap |
| Bit to symbol mapping table (size: M x k) | |
| ivec | bits2symbols |
| Bit to symbol mapping in decimal form (size: M) | |
| Vec< double > | symbols |
| Corresponding modulation symbols (size: M) | |
| imat | S0 |
| Matrix where row k contains the constellation points with '0' in bit position k. | |
| imat | S1 |
| Matrix where row k contains the constellation points with '1' in bit position k. | |
Related Functions | |
(Note that these are not member functions.) | |
| typedef Modulator< double > | Modulator_1D |
| Definition of 1D Modulator (with real symbols) | |
|
typedef Modulator < std::complex< double > > | Modulator_2D |
| Definition of 2D Modulator (with complex symbols) | |
M-ary PAM modulator with real symbols.
This class implements an M-ary PAM modulator with the following signal values: 
. Symbol numbering is from right to left in the increasing order. The Gray encoding of bits to symbols is used.
The constellation symbols are normalized so that the average energy is equal to 1. That is, normalized with 
.
Definition at line 1104 of file modulator.h.
|
inlinevirtualinherited |
Get the bitmap, which maps input bits into symbols.
The mapping is done as follows. An input bit sequence in decimal notation is used for indexing the bits2symbols table. The indexing result denotes the symbol to be used from the symbols table, e.g.:
Definition at line 117 of file modulator.h.
|
virtualinherited |
Soft demodulator for AWGN channels.
This function calculates the log-likelihood ratio (LLR) of the received signal from AWGN channels. Depending on the soft demodulation method chosen, either full log-MAP calculation is performed (default method), according to the following equation:
![\[\log \left( \frac{P(b_i=0|r)}{P(b_i=1|r)} \right) = \log \left( \frac{\sum_{s_i \in S_0} \exp \left( -\frac{|r_k - s_i|^2}{N_0} \right)} {\sum_{s_i \in S_1} \exp \left( -\frac{|r_k - s_i|^2}{N_0} \right)} \right) \]](form_149.png)
or approximate, but faster calculation is performed.
The approximate method finds for each bit the closest constellation points that have zero and one in the corresponding position. Let 
denote the distance to the closest zero point and 
denote the distance to the closest one point for the corresponding bit respectively. The approximate algorithm then computes
![\[\frac{d_1^2 - d_0^2}{N_0}\]](form_152.png)
This function can be used on channels where the channel gain 
.
When this function is to be used together with MAP-based turbo decoding algorithms then the channel reliability factor 
of the turbo decoder shall be set to 1. The output from this function can also be used by a Viterbi decoder using an AWGN based metric calculation function.
| rx_symbols | The received noisy constellation symbols |
| N0 | The spectral density of the AWGN noise |
| soft_bits | The soft bits calculated using the expression above |
| method | The method used for demodulation (LOGMAP or APPROX) |
Modulator_ND) instead, which is based on the QLLR (quantized) arithmetic and therefore is faster. Please note, however, that mixed use of Modulator_1D/Modulator_2D and Modulator_ND is not advised.
|
virtualinherited |
Soft demodulator for fading channels.
This function calculates the log-likelihood ratio (LLR) of the received signal from fading channels. Depending on the soft demodulation method chosen, either full log-MAP calculation is performed (default method), according to the following equation:
![\[\log \left( \frac{P(b_i=0|r)}{P(b_i=1|r)} \right) = \log \left( \frac{\sum_{s_i \in S_0} \exp \left( -\frac{|r_k - c_k s_i|^2}{N_0} \right)} {\sum_{s_i \in S_1} \exp \left( -\frac{|r_k - c_k s_i|^2}{N_0} \right)} \right) \]](form_155.png)
or approximate, but faster calculation is performed.
The approximate method finds for each bit the closest constellation points that have zero and one in the corresponding position. Let 
denote the distance to the closest zero point and 
denote the distance to the closest one point for the corresponding bit respectively. The approximate algorithm then computes
When this function is to be used together with MAP-based turbo decoding algorithms then the channel reliability factor of the turbo decoder shall be set to 1. The output from this function can also be used by a Viterbi decoder using an AWGN based metric calculation function.
| rx_symbols | The received noisy constellation symbols  |
| channel | The channel values  |
| N0 | The spectral density of the AWGN noise |
| soft_bits | The soft bits calculated using the expression above |
| method | The method used for demodulation (LOGMAP or APPROX) |
Modulator_1D/Modulator_2D and Modulator_ND is not advised. Generated on Sat Jul 6 2013 10:54:32 for IT++ by Doxygen 1.8.2