IDMA系统的(p,q)交替进制交织器的研究

多址技术一直是移动通信领域的一项关键技术.IDMA是一种新的多址接入方式,该技术采用了一种码片级Turbo型迭代多用户检测,其算法复杂度与用户数无关,因此在通信领域获得广泛关注.交织器作为IDMA系统区分用户的唯一方式,研究这一问题具有重要意义.本文提出一种利用(p,q)交替进制位反序构造IDMA系统中交织器的方法.该方法通过选择合适的p、g值,可以构造出一组正交交织器.由于对每个用户仅需存储p和q值,因而只需少量存储器.为了硬件实现方便,选择p,q均为2的幂次,对位置索引的二进制表示进行块间反序即可得到交织后的位置索引.相关性峰值分析表明本文构造的交织器之间的相关性低于随机交织器.误码率仿真结果表明,采用本文构造的交织器的IDMA系统BER性能优于采用随机交织器的IDMA系统.     

一种基于IDMA的无线多址接入系统

随着移动通信技术的深入发展,一种新颖的IDMA技术被提出用以区分多用户.交织多址可以看作是一种特殊的CDMA,系统的发送端采用不同交织器来区分用户,接收端则采用低复杂度的码片级迭代检测技术,可以有效提高系统误码性能,另外系统还继承了CDMA的许多优点,拥有良好抗干扰性能和高频谱利用率.     

基于线性同余的IDMA交织器设计及分析

本文提出了一种新的基于线性同余的IDMA交织器设计方案, 并且给出了详细的交织器设计算法. 它能满足IDMA交织器设计中低存储量、容易产生交织序列、交织器同步数据少、交织器之间相关性小的要求. 本文的仿真结果证明了这种交织器性能优于伪随机交织器。     

一种基于OFDM-IDMA的小区干扰抑制方法

在下一代的无线通信正交频分复用(OFDM)系统中,提出一种基于交织迭代软解调接收机。发射机和接收机结合了交织分多址(IDMA),所提出的信号估计器(ESE)利用交织码消除邻小区干扰(ICI),结合软解调技术,通过迭代获得低误码率的高阶调制邻小区干扰抑制性能。蒙特卡洛仿真结果显示,所提出的接收机模型在16QAM的OFDM系统中,高斯以及瑞利信道条件下,均能获得较好的误码率性能。     

基于码片交织技术的IDMA系统

交织分多址接入（IDMA）技术是第四代移动通信的关键技术之一，它具有卓越的多用户通信性能和较低的接收复杂度，并且是一种具有较高容量的无线通信技术。仿真结果表明：在Eb／N0较低的时候，IDMA系统多用户性能随着迭代次数增加可以很好的向单用户性能趋近。同时，当用户数达到50以上的时候，系统也保持了这种良好的性能。     

交织多址技术在BRadio系统上行链路中的应用

基于BRadio系统上行采用的时频域联合单载波调制时分多址（TFu—SCM—TDMA）技术,将交织多址接入（IDMA）技术引入其中,同一时隙中可以支持多用户同时通信。该方式用不同的交织器区分不同用户,并在发送端插入训练序列以分别获得用户到基站的信道信息,在接收端采用多用户迭代译码消除其他用户的干扰。在AWGN和瑞利衰落信道下进行仿真,验证了所提方法的可行性。     

交织多址与迭代多用户检测

介绍了一种新的多址方式IDMA，它采用不同的交织序列作为用户的标识特征。作为一种特殊的CDMA，IDMA继承了CDMA的很多优点，而且它以非常低的解码代价支持多用户，具有复杂度低、运算量小的特点。IDMA与迭代多用户检测技术相结合，在计算复杂度增加较少的情况下，有效提高了频谱利用率。     

IDMA通信系统中的粒子群交织算法

在IDMA系统中,交织序列区分不同用户,其产生是随机且独立的。但一些交织序列互相关系数接近1,这严重影响通信性能。因此提出一种应用于IDMA通信系统中的粒子群交织算法。该方法以互相关矩阵作为适应度函数,采用粒子群算法寻找最优交织序列。仿真表明。该算法的性能优于非随机交织、随机交织和基于进化算法的交织。     

IDMA通信系统中的粒子群交织算法

在IDMA系统中,交织序列区分不同用户,其产生是随机且独立的.但一些交织序列互相关系数接近1,这严重影响通信性能.因此提出一种应用于IDMA通信系统中的粒子群交织算法.该方法以互相关矩阵作为适应度函数,采用粒子群算法寻找最优交织序列.仿真表明,该算法的性能优于非随机交织、随机交织和基于进化算法的交织.     

多径下Turbo码IDMA网络编码中继合作系统性能分析

基于交织多址网络编码中继合作系统,分析了其采用Turbo编码后在多径信道环境下的系统性能。研究了该系统中利用不同交织器来实现多用户的多址接入方式以及网络编码的中继合作机制。将多径信道以及Turbo编码融入该系统中,搭建计算机仿真环境,通过仿真数据分析系统性能。仿真结果表明,在多径信道环境下,采用Turbo编码的交织多址网络编码中继合作系统的系统误码率有明显改善。     

2-Dimension Interleaver Design for IDMA Systems

A new design method interleavers, 2-dimension interleavers, are proposed for interleave division multiple access （IDMA） systems. With a same interleaving rule named I＇, the row indices and column indices of a traditional block interleaving matrix are scrambled to obtain an interleaver, which is marked as the master interleaver. F is produced by a loworder PN sequence generator. Two ways are provided for generating different interleavers. One is that all interleavers are generated by the circular shifting master interleaver. The other is that different inter leavers are generated by different Ts. Besides, we prove that the minimum distance between two adjacent bits resulted from 2-dimension interleaves is much larger than that of other schemes, such as random interleavers, power interleavers, and shiffting interleaves. The simulation results show that 2-dimension interleavers can achieve much better performance with much less resource consumption than random interleavers in IDMA systems.     

Analysis and design of optimum interleaver for iterative receivers in IDMA scheme

In this paper, we propose a new tree based interleaver (TBI) to generate different chip‐level interleaving sequences for different users in an interleave division multiple access (IDMA) system, which reduces computational complexity. This method of generation also solves the memory cost problem and reduces the amount of information exchange between mobile stations (MSs) and base stations (BSs) required to specify the interleaver. Simulation results are presented to show that the proposed interleavers perform well as compared to random interleavers in an IDMA system. Copyright © 2008 John Wiley & Sons, Ltd.     

Uncoded integrated interleave division multiple access systems in presence of power interleavers

Interleaving is one of the most common methods known to eradicate the effects of multiple user interference. Removal of different interferences is one of the major challenges for advanced communication system designers. Several methods of interleaving have been proposed in literature and their performances have been analyzed on different communication systems to prove their worthiness in multiple user interference removal. One of such interleavers is power interleaver, which can be employed in communication systems as a means to control burst errors and reduce the multiple user interference. In this paper, performances of two different integrated interleave division multiple access (IIDMA) techniques i.e. SCFDM-IDMA and OFDM-IDMA have been analyzed. Novelty of this work is in the sense that the entire analysis has been performed in the presence of power interleavers for the above two IIDMA techniques as the conventional IDMA fails to mitigate the problems of inter-carrier and inter-symbol interferences. Hence, the two techniques in presence of power interleavers empower the idea of quality communication without any interference for future generation communication systems.     

IDMA Based Anti-collision in RFID Networks

Even though object identification is its main objective, it is generally accepted that there are some technological challenges that should be addressed in order to exploit the full potential of RFID (Radio frequency identification). The anti-collision problem is one of them. Despite the different proposed methods, it still needs further study on how to improve identification ability. This paper presents a novel algorithm with IDMA (Interleave division multiple access) scheme to resolve the anti-collision problem for RFID. IDMA, which is one of the most promising technologies for high data rate wireless systems, can be regarded as a special case of CDMA (Code division multiple access). In contrast to CDMA, which separates tags by signatures or spreading codes, distinct interleavers are the only means to separate tags for IDMA. In this paper, a RFID based IDMA receiver is proposed and compared to classical systems. Simulation results demonstrate that this system provides an improvement in performance in terms of bit error rate in dense scenarios (large number of tags) and it offers an efficient alternative to systems with classical spreading sequence.     

MITA Interleaver for Integrated and Iterative IDMA Systems Over Powerline Channel

Recently, the powerline communication (PLC) mechanism has attracted the attention of researchers across the globe since it demonstrates the least bit error rate in comparison to conventional wireless communication, apart from the merit of no extra cost for implementation of wired communication infrastructure. To make signal transfer over PLC system with no hassling, various multiple access schemes inclusive of Orthogonal Frequency Division Multiple Access (OFDMA), Interleave Division Multiple Access (IDMA) etc. have been employed in the defined communication system. In order to facilitate more reliable communication over PLC channel, the OFDMA and IDMA schemes are combined together, termed as integrated IDMA (IIDMA) scheme. All the variant of IDMA Scheme, inbuilt with interleaving mechanism as its heart, accumulates the merits of original IDMA Scheme in addition to the merits of other multiple access scheme duly coupled with it for intended purpose. In the literature, the researchers have evaluated the IDMA and its variant multiple access schemes with various interleavers, however still there remains scope for improvement in the performance of communication systems with induction of appropriate interleaver. In this paper, a novel interleaver named as Multiplicative Interleaving with Tree Algorithm (MITA) has been implemented over OFDM-IDMA systems and evaluated against existing other interleavers in MATLAB environment. The performance result evidently indicates the superiority of the suggested interleaver in terms of Bit Error Rate (BER), memory consumed and computing complexity. Thus MITA interleaver can be implemented for enhanced performance of the communication system.

     

A novel MAC protocol for IDMA‐based multi‐beam satellite communication systems

Considering the limitations of satellite communication systems and advantages of new emerging interleave‐division multiple access (IDMA) technology, IDMA is introduced into the satellite systems, providing a new solution for multiple access techniques of satellite systems. To further validate the IDMA into satellite systems, a novel medium access control (MAC) scheme is proposed. In the random access channel, the interleave‐division slotted ALOHA method is adopted to alleviate the collision of access requests. Furthermore, a novel minimum power allocation scheme based on signal‐to‐interference‐plus‐noise ratio (SINR) evolution is proposed to maximize the capacity of such an interference‐sensitive system. By virtue of SINR evolution, our proposed scheme can accurately estimate multi‐user detection efficiency with low computational cost and further reduce the transmitted power, illustrating the high power efficiency of IDMA. To further enhance the performance of the MAC protocol, an effective call admission control scheme considering the effect of power control error is designed and combined into our MAC protocol. Analysis and simulation results show that, by taking full advantage of the chip‐by‐chip multi‐user detection technique, the proposed IDMA MAC protocol achieves high throughput and low average packet delay simultaneously, with low onboard processing complexity in the multi‐beam satellite communication systems. Copyright © 2013 John Wiley & Sons, Ltd.     

一种基于4g的新型无线接入技术

随着第四代移动通信系统的深入研究,本文介绍了一种新型的无线接入系统方式IDMA.作为一种特殊的CDMA,它采用不同的交织序列来区分用户.它继承了CDMA的很多优点,能支持多用户,具有复杂度低,运算量小的特点.IDMA采用迭代检测技术后,在计算复杂度增加较少的情况下,有效提高了频谱利用率.