Multiple Spectrally Null Constrained Complete Complementary Codes of Various Lengths Over Small Alphabet

Complete complementary codes (CCCs) are highly valuable in the fields of information security, radar and communication. The spectrally null constrained (SNC) problem arises in radar and modern communication systems due to the reservation or prohibition of specific spectrums from transmission. The literature on SNC-CCCs is somewhat limited in comparison to the literature on traditional CCCs. The main objective of this paper is to discover several configurations of SNC-CCCs that possess more flexibility in their parameters. The proposed construction utilised the existing CCCs and mutually orthogonal sequences. The proposed construction can cover almost all lengths with the smallest alphabets $\{-1,0,1\}$. Further, the idea of SNC-CCC is extended to multiple SNC-CCC with an inter-set zero cross-correlation zone (ZCCZ). Based on our construction, we can also control the correlation value outside the ZCCZ. The beauty of the obtained codes have aperiodic and periodic inter-set ZCCZ and low cross-correlation side-lobs.