Abstract
In this work, we present an optimal mapper for OFDM with index modulation (OFDM-IM). By optimal we mean the mapper achieves the lowest possible asymptotic computational complexity (CC) when the spectral efficiency (SE) gain over OFDM maximizes. We propose the spectro-computational (SC) analysis to capture the trade-off between CC and SE and to demonstrate that an $N$-subcarrier OFDM-IM mapper must run in exact $\Theta(N)$ time complexity. We show that an OFDM-IM mapper running faster than such complexity cannot reach the maximal SE whereas one running slower nullifies the mapping throughput for arbitrarily large $N$. We demonstrate our theoretical findings by implementing an open-source library that supports all DSP steps to map/demap an N-subcarrier complex frequency-domain OFDM-IM symbol. Our implementation supports different index selector algorithms and is the first to enable the SE maximization while preserving the same time and space asymptotic complexities of the classic OFDM mapper.
Highlights
Index Modulation (IM) is a physical layer technique that can improve the spectral efficiency (SE) of OFDM
DIRECTIONS In this work, we studied the trade-off between spectral efficiency (SE) and computational complexity (CC) T (N ) of an N -subcarrier OFDM with Index Modulation (OFDM-IM) mapper
We identified that the CC lower bound to map any of all 2 log2 (NN/2) OFDM with index modulation (OFDM-IM) waveforms is (N )
Summary
Index Modulation (IM) is a physical layer technique that can improve the spectral efficiency (SE) of OFDM. The OFDM-IM mapper takes a total of m = P1 + P2 bits as input and gives k complex baseband samples as output for the modulation of the k subcarriers. In this process, the index selector (IxS) determines the k-size list of indexes – out of 2P1 possibles – from the P1-bit input. The other DSP steps follow as usual in OFDM, except for the signal detector at the receiver In this sense, several research efforts have been done to improve the receiver’s bit error rate at low computational complexity [3]–[7]. Since our focus is on the OFDM-IM mapper, we refer the reader to the survey works [8]–[11] for other aspects of the index modulation technique
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