Abstract
In recent years, one important research area for multimedia broadcasting is how to encrypt images over communication systems. However, wireless transmission is usually under many constraints and limitations like multipath fading, InterSymbol Interference and jitter especially for such applications require relatively high data rates compared to voice transmissions. Interleaving techniques with multicarrier code division multiple access system are used to combat multi-path fading environment. This paper proposes three new transmission schemes of encrypted images for downlink discrete sine transform-based multi-carrier code division multiple access (DST-MC-CDMA) system. For each one of them, two or three stages are added to the DST-MC-CDMA system to combat the wireless transmission problems. The three stages are called Randomization stage, Interleaving stage, and PIC stage. The randomization stage encrypts the image using a two dimensional chaotic map before the DST-MC-CDMA modulation. The interleaving stage interleaves the DST-MC-CDMA signal before the transmission. The stage of parallel interference cancellation is used to cancel the multiple access interference from the received image. The main aim is to clarify the received image by combating the wireless channel weaknesses. The results of the experiments reveal that the proposed schemes are superior to conventional one that uses only equalization. Moreover, a significant performance improvement in terms of the mean square error and peak to signal and noise ratio values when applying the proposed schemes is shown in the results.
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Hanzo, L.; Yang, L.; Kuan, E.; Yen, K.: Single and Multi-Carrier DS-CDMA: Multi-user Detection, Space-Time Spreading, Synchronisation. Networking and Standards. Wiley, Hoboken (2003)
Al-kamali, F.S.; Al-qasem, H.M.; Saif, B.A.; Albhloli, K.K.; Suliman, N.A.: Multi-carrier CDMA system with different basis functions. J. Commun. Eng. Netw. 1(1), 19–26 (2013)
Dang, P.P.; Chau, P.M.: Robust image transmission over CDMA channels. IEEE Trans. Consum. Electron. 46(3), 664–672 (2000)
Kathiyaiah, T.; Oh, T.H.: Performance analysis of JPEG2000 transmission through low SNR MC-CDMA Channel. In: Proceedings of IEEE 9th International Conference on Communications, Malaysia, pp. 15–17 (2009)
Judson, D.; Darwin, P.; Devi, T.A.M.; Helen, C.N.: Performance analysis of image transmission with different transforms in MC-CDMA. In: International Conference on Recent Advances in Energy-Efficient Computing and Communication (ICRAECC), Nagercoil, India (2019)
Rogers, J.K.; Cosman, P.C.: Wavelet zerotree image compression with packetization. IEEE Signal Process. Lett. 5(5), 105–107 (1998)
Bendelhoum, M.S.; Djebbari, A.; Boukli-Hacene, I.; Taleb-Ahmed, A.: An improved downlink MC-CDMA system for efficient image transmission. J. Telecommun. Inf. Technol. 4(4), 5–16 (2018)
El-Bakary, E.M.; Hassan, E.S.; Zahran, O.; El-Dolil, S.A.; Abd El-Samie, F.E.: Efficient image transmission with multi-carrier CDMA. Wirel. Pers. Commun. 69, 979–994 (2013)
Proakis, J.G.; Salhi, M.: Digital Communications, 5th edn. McGraw-Hill Education, New York (2007)
Shi, Y.Q.; Zhang, X.M.; Ni, Z.C.; Ansari, N.: Interleaving for combating bursts of errors. IEEE Circuits Syst. Mag. 4(1), 29–42 (2004)
Jovic, B.; Unsworth, C.: Chaos-based multi-user time division multiplexing communication system. IET Commun. 1(4), 1751–8628 (2007)
Hassan, E.S.; El-Khamy, S.E.; Dessouky, M.I.; El-Dolil, S.A.; Abd El-Samie, F.E.: Chaotic Interleaving scheme for continuous phase modulation based single-carrier frequency-domain equalization systems. Wirel. Pers. Commun. 62(1), 183–199 (2012)
Matthews, R.: On the derivation of a chaotic encryption algorithm. Cryptologia XIII 1, 29–42 (1989)
Fridrich, J.: Symmetric ciphers based on two-dimensional chaotic maps. Int. J. Bifurc. Chaos 8, 1259–1284 (1998)
Han, F.; Yu, X.; Han, S.: Improved baker map for image encryption. In: ISSCAA, pp. 1273–1276 (2006)
Al-Junaid, A.F.; Al-Kamali, F.S.: Efficient wireless transmission scheme based on the recent DST-MC-CDMA. Wirel. Netw. 22(3), 813–824 (2016)
Rajab, M.A.; Al-Khafaji, G.; Ahmed, I.A.: Hybrid images compression and transmitted using MC-CDMA system. Iraqi J. Sci. 57(3A), 1819–1832 (2016)
Tung, T.-Y.; Gündüz, D.: SparseCast: hybrid digital-analog wireless image transmission exploiting frequency-domain sparsity. IEEE Commun. Lett. 22, 2451–2454 (2018)
Al-Kamali, Faisal S.; Qasem, Abdullah A.: Wireless images transmission over OFDMA systems: investigation and evaluation. IET JOE 2016(9), 332–343 (2016)
Al-soufy, K.M.; Al-kamali, F.S.; Al-fuhaidy, F.A.: Performance evaluation of SC-FDMA systems using wireless images. In: AJCSA, pp. 1–11 (2017)
Al-kamali, F.S.; Al-Fuhaidy, F.A.; Al-soufy, K.A.: Wireless image transmissions over frequency selective channel using recent OFDMA systems. Am. J. Comput. Commun. Control 5(1), 30–38 (2018)
Al-soufy, K.M.; Al-kamali, F.S.: An efficient transmission of image over SC-FDMA system in the presence of CFO. J. Commun. Technol. Electron. Comput. Sci. 18, 8–18 (2018)
Rappaport, T.S.: Wireless Communications Principles and Practice, 2nd edn. Pearson Education, London (2010)
3rd Generation Partnership Project, 3GPP TS 25.101 – Technical specification group radio access network; user equipment (UE) radio transmission and reception (FDD) (Release 16), Section B.2.2, April 2019.
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This work was supported by King Khalid University, Abha, Saudi Arabia, under Grant 353/1442.
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Al-Kamali, F.S., Al-Junaid, A.F. & Al-Shamri, M.Y.H. New Image Transmission Schemes for DST-Based MC-CDMA System. Arab J Sci Eng 46, 1465–1479 (2021). https://doi.org/10.1007/s13369-020-05173-3
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DOI: https://doi.org/10.1007/s13369-020-05173-3