ABSTRACT

One of the advantages of Multiple-Input Multiple-Output (MIMO) techniques is that they can provide link throughput, but the reliability of them remains to be improved. In order to improve the performance of bit error, based on the decomposed model of continuous phase modulation (CPM), combined with LDPC code and random interweaver, a scheme of joint coded modulation is introduced. In this paper, the model of LDPC-CPM iterative MIMO system is established firstly, then scheme of receiver by iterative detection realized and the decoding is proposed, finally the effect of main parameters on the performance of the system is studied, which can provide the reference basis for practical application. The research results show that the proposed scheme can improve channel capacity and BER performance in the background of extremely low SNR effectively, and give attention to both high-speed transmission and reliable transmission.

Keywords:

Communication Technology, Continuous Phase Modulation, Multiple-Input Multiple-Output (MIMO), Iterative Detection and Decoding

1. Introduction

MIMO technology has been attractive in wireless communications [1] [2], compared with conventional communication systems, which are called Single-Input Single-Output (SISO) systems, the use of multiple antennas provides means for simultaneous transmissions and spatial redundancy to the transmitted signals that helps to improve the throughput performance of MIMO over SISO [3].

It becomes particularly appealing when the MIMO scheme is concatenated with LDPC code. In the MIMO-LDPC system, based on the iterative detection decoding algorithm of Turbo code can be soft information exchange to further improve the receiver performance. There are many researches such as [4]-[6] detecting based on iterative decoding algorithm of LDPC coded MIMO system performance theory and simulation analysis, and verifying the excellent performance of the system. So far, the linear modulation schemes have been investigated in many MIMO architectures; however, the constant envelope modulation formats such as CPM [7] are more suitable for implementation in wireless system due to their high power amplifiers. Indeed, it has been focused especially on that extend the advantage of CPM signals to MIMO system and show high data rates performance [8]. In the corresponding references have studied CPM signal processing based on MLSD joint symbol sequence detection and the Laurent decomposition in MIMO system [9], and others introduced the blind signal separation at the frontend of a frequency discriminator based CPM demodulator [10]. However, the use of advanced channel coding joint efficient modulation system is poorly studied. In this work, consider memory and recursive nature of highly efficient CPM technique, combined with external LDPC codes and random interweaver to build a new MIMO system based on a joint coded modulation scheme, moreover an iterative detection and decoding receiver is proposed. Finally, simulation experiments verify the performance of the designed system.

2. Decomposition of CPM

The transmitted baseband CPM signal is expressed as

(1)

(2)

where denotes the symbol period, is the transmitted energy per symbol and denotes actually the transmitted symbol at the mth signal period, is data length, is the modulation index, , and are relatively prime. is

(3)

where we assumed for, for and. Then (2) can be written as

(4)

The CPM modulation is said to be full- response if and of partial response if. Given as, after simplifying and modulus operation,

(5)

where, is irrelevant item. Then (1) can be written

(6)

It can be seen that CPM signals can be determined by the current input and previous input as well as their accumulation

completely, so any CPM scheme can be divided into a

continuous phase encoder (CPE) and a memoryless modulator (MM) [11].

3. System Model

We consider a generic transmitter block diagram of MIMO system is shown in Figure 1 with two transmitting antennas. The space-time coding process multiplexes the coded data stream into two parallel sub-streams. And then each stream coded using LDPC code, the interleaving is next step. Finally, the space-time bits are mapped into CPM symbols. It should be note that the modulated signal cannot be interleaved because interleaving destroys the continuous phase property of the modulated signal. The symbols transmitted per frame can be represented by a matrix and the element is the transmitting symbol on the antenna during the symbol period.

The channel is assumed to be invariant within a frame and change independently from frame to frame, and ideal power control is considered here result in the received signal power is equal for all antennas. Thus the received symbols during a frame can be written as

(7)

where channel matrix is composed by independent and identically distributed Rayleigh fading coefficients, its elements denote the fading factors of the sub-channels, is the zero-mean complex Gaussian noise.

4. Iterative Detection and Decoding

The joint iterative CPM decoding and LDPC decoding algorithm can improve

the BER performance through exchange the soft information. We apply this algorithm to the MIMO system and get a scheme which is shown in Figure 2. It can be seen that the receiver includes two iterative processes: the inner loop is responsible for the demodulation and decoding, outer loop provides a better estimation of transmitted signal for the interference canceller in each a iteration.

MIMO detector uses a Minimum Mean Square Error (MMSE) detection technique, so the problem is to determine weighting matrix in order to minimize, we have

(8)

In other words, the function of the is to reverse channel, assume that is the estimation of and write

(9)

where. Based on singular value decomposition (SVD) of the type, the noise power through detector written as

(10)

According to the

and times a unitary matrix will not change vector norm, after a series of transformation, the expectations of Equation (10) is (11)At this point, the output of MMSE detector can be equivalent to each CPM signals from transmitting antennas through the white Gaussian noise channel

which have increased the noise gain than before. We use the matched filter group to obtain the code word information probabilities for inner loop which is shown in Figure 3.

Contain LDPC code, interweaver and CPE as this inner loop, which CPM- SISO makes use of Log-MAP algorithm and LDPC-SISO adopts Log-FFT-BP iterative decoding algorithm. and respectively denote code word and the information probability sequence of input for CPM-SISO, and as output probability sequence. In the same way, and denote code word and the information probability sequence of input for LDPC-SISO, and as output probability sequence. The probability of the sequence from sub-system CPM-SISO, after de-interweaving, is fed to the LDPC-SISO decoder as input information probability, then from sub-system LDPC-SISO after de-interweaving, obtain information probability to input CPM-SISO. After some iteration of inner make loop hard decision according to the last iteration of.

For the last iteration of CPM-SISO, make a hard decision and no de-interweaving to secondary modulation, feedback secondary modulation signal to the interference canceller. In the next iteration of the outer loop, interference canceller provides the better input for inner loop.

5. Simulation Results

According to the previous sections, we have established a MMO system model at Rayleigh flat fading channel and assumed that perfectly known at the receiver. The length of each unencoded substream is equal to LDPC information bits, interweavers are chosen randomly. The other parameters are illustrated in figures below.

Figure 4 show that the system channel capacity increase with the number of antenna linearly, this paper takes the scenario which sending antenna is equal to receiving. In Figure 5 we compare the performance of the system for different numbers of receiving and transmitting antennas number. Where LDPC code length is 1536 bits, rate 1/2, CPM Signal form is OM2RC. We see that the performance of the system improved by increasing the number of transmitting and receiving antennas in the background of low SNR. From the two figures, we can give attention to both high-speed transmission and reliable transmission.

Figure 6 shows the BER trend along with the change of LDPC length when

2 * 2 MIMO system easy to extend to more antennas. LDPC rate are employed 1/2. Modulation method is same as above OM2RC. As it may be seen, with the increase of code length, BER performance of the system is gradually improved. Therefore, the longer the LDPC code length, the better the performance of the system.

With the method of iterative decoding to optimize system performance, the performance impact of iteration times and must be considered. Figure 7 for the number of iteration affect the performance of the system. In simulation, 2*2 MIMO system with LDPC information bits is 512 bits, rate 1/2, the interior of

the LDPC code iteration for 5 times. The same goes for CPM. It can be seen that with the increase of the number of iterations, and decrease of the system BER curve tends to convergence, and with the increase of signal-to-noise ratio, number of iterations the impact on the BER is more and more obvious.

6. Conclusion

In this paper, we analyze and derive the decomposition of CPM modulation signal, and applied a joint coded modulation with LDPC to MIMO architecture. Through simple MMSE-based detection and low-complexity iterative decoding with cancellation, both BER and channel capacity of improvements are achieved. We compared the effect of the number of antenna, code length and iteration times on the combined code modulation in the 2 * 2 MIMO system emphatically. The result shows that: The system has better performance for different code length and iteration times than SISO, which meets the requirements for real- time communication channel. At last, this algorithm is complete by software, so it costs lower equipment, and can be simple and practical.

Acknowledgements

This paper is funded by the International Exchange Program of Harbin Engineering University for Innovation-oriented Talents Cultivation, the Open Research Fund of State Key Laboratory of Tianjin Key Laboratory of Intelligent Information Processing in Remote Sensing (Grant No. 2016-ZW-KFJJ-01), the National Natural Science Foundation of China (Grant No. 61403093), the Assisted Project by Heilongjiang Province of China Postdoctoral Funds for Scientific Research Initiation (Grant No. LBH-Q14048), and the Fundamental Research Funds for the Central Universities (Grant No. HEUCF160813).

Cite this paper

Xue, R., Lv, X. and Cao, Y. (2017) LDPC-CPM Scheme and Its Iterative Receiving for MIMO System. Int. J. Communications, Network and System Sciences, 10, 154-162. https://doi.org/10.4236/ijcns.2017.105B015

References