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Simulation Codes of OFDM with Hybrid Number and Index Modulation (OFDM-SNIM)

155 £

Matlab codes of OFDM with Hybrid Number and Index Modulation (OFDM-SNIM).

By buying this product, you will get full access to the Matlab codes used to generate the results shown in the paper titled “OFDM With Hybrid Number and Index Modulation” and published at this link 

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Description

Matlab codes of OFDM with Hybrid Number and Index Modulation (OFDM-SNIM).

By buying this product, you will get full access to the Matlab codes used to generate the results shown in the paper titled “OFDM With Hybrid Number and Index Modulation” and published at this link 

Matlab codes of OFDM with Hybrid Number and Index Modulation (OFDM-SNM)

A novel transmission scheme is introduced for efficient data transmission by conveying additional information bits through jointly changing the index and number of active subcarriers within each orthogonal frequency division multiplexing (OFDM) subblock. The proposed scheme is different from the conventional OFDM-subcarrier number modulation (OFDM-SNM) and OFDM-index modulation (OFDM-IM), in which data bits are transmitted using either number or index of active subcarriers. The proposed modulation technique offers superior spectral and energy efficiency compared to its counterparts OFDM-SNM and OFDM-IM, especially at low modulation orders such as binary phase-shift keying (BPSK) that can provide high reliability and low complexity, thus making it very suitable for meeting the requirements of Internet of things (IoT) applications. Bit error rate (BER) performance analysis is provided for the proposed scheme, and Monte Carlo simulations are presented to prove the consistency of the simulated BER with the analyzed one. More importantly, it is demonstrated that the proposed scheme can offer much superior BER performance compared to that of OFDM-IM and classical OFDM under equivalent power and spectral efficiency values.

Refund Policy

We firmly believe in and stand behind our product 100%, but we understand that it might not meet the needs of everyone all of the time. If you are unhappy with your purchase, or you have an issue that we are unable to resolve that makes the system unusable, we will be happy to consider offering a refund.
  • Refunds will be offered at our sole discretion and must meet all of the following conditions fully:
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*PS: RS Products’s purchased with discount or sale offer are non-refundable

General Inquiries

2 Inquiries

  1. 05/06/2021

    how much time will take to access the codes after successful payment?

    Dear Satish, 

    We have recently noticed that you have an incomplete order at our website, so could you please tell us what was the problem in completing your code so that we can help you solve the problem as soon as possible?

    Please don’t hesitate to get in touch with us for any request you want.

    Our team would be more than happy to help you get what you want.

    Best Regards,  

    RS Team

  2. 31/05/2021

    what we will get?

    Hi Satya,

    You will get full access to the Matlab codes used to generate the results shown in the paper titled “OFDM With Hybrid Number and Index Modulation” and published at this link https://ieeexplore.ieee.org/document/9042249

    Thanks for contacting us.