On the basis of the analyses for intergroup complementary (IGC) code and zero correlation zone complementary code, a novel IGC code has been proposed to adapt M-ary orthogonal code spreading spectrum system or quasi-synchronous CDMA system. The definition and construction methods of the new IGC codes are presented and an applied example is given in this paper. Theoretical research and simulation results show that the main advantages of the novel IGC code are as following: The code sets of the novel IGC code is more than IGC code under the same code length. The zero correlation zone length is longer than the intergroup IGC code, but shorter than the intergroup IGC code. Under the same code length, the auto-correlation performance of the novel IGC code is better than that of the IGC code, and both are of similar cross-correlation performance.

Ali M. Fadhil, Haider M. Alsabbagh. Performance Analysis for Bit Error Rate of DS-CDMA Sensor Network Systems with Source Coding. TELKOMNIKA. 2012; 10(1): 165-170.

Nasaruddin, Melinda, Ellsa Fitria Sari. A Model to Investigate Performance of Orthogonal Frequency Code Division Multiplexing. TELKOMNIKA. 2012; 10(3): 579-585.

Hsiao-Hwa Chen, Hsin-Wei Chiu. Generation of perfect orthogonal complementary codes for their applications in interference-free CDMA systems. IEEE 15th International Symposium on Personal, Indoor and Mobile Radio Communications (PIMRC 2004). Barcelona. 2004; 1: 734-738.

Hsiao-Hwa Chen, Yu-Ching Yeh, Xi Zhang. Generalized pairwise complementary codes with set-wise uniform interference-free windows. IEEE Journal on selected areas in communications. 2006; 24(1): 65-74.

Hsiao-Hwa Chen, Hsin-Wei Chiu. Design of perfect complementary codes to implement interference-free CDMA systems. 2004 IEEE Global Telecommunications Conference (GLOBECOM’04). Dallas, Texas, USA. 2004; 2: 1096-1100.

Mario E. Magana, Thunyawat Rajatasereekul, Daniel Hank, et al. Design of an MC-CDMA system that uses complete complementary orthogonal spreading codes. IEEE Transactions on Vehicular Technology. 2007; 56(5): 2976-2989.

Hsiao-Hwa Chen, Hsin-Wei Chiu, Mohsen Guizani. Orthogonal complementary codes for interference-free CDMA technologies. IEEE Wireless Communications. 2006; 13(1): 68-79.

Ganlin Ye, Jing Li, Aiping Huang, et al. A novel ZCZ code based on m-sequence and its applications in CDMA systems. IEEE Communications Letters. 2007; 11(6): 465-467.

Jing Li, Aiping Huang, Guizani M, et al. Intergroup Complementary Codes for Interference-Resist CDMA Wireless Communications. IEEE transactions on wireless communication. 2008; 7(1): 166-174.

Jing Li, Ganlin Ye, Aiping Huang. A novel MUI-free VSF-MC-CDMA architecture for WLANs. 2007 Global Telecommunications Conference (IEEE Globecom 2007). Washington. 2007; 3: 1365-1369.

Aiping Huang, Jing Li, Shao-Bo Liu. Offset-Stack Scheme and Receivers for CCC-based Multicarrier CDMA architecture. Wireless Communication & Mobile Computing, 2005; 5(1): 69-76.

Suehiro N, Hashimoto T, Han C. A Systematic Framework for the Construction of Optimal Complete Complementary Codes. IEEE Transactions on Information Theory. 2011; 57(9): 6033-6042.

Chenggao Han, Naoki Suehiro, Takeshi Hashimoto. N-Shift Cross-orthogonal Sequences and Complete Complementary Codes. 2007 IEEE International Symposium on Information Theory (ISIT 2007). Nice, France. 2007; 7: 2611-2615.

Shu-Ming Tseng, Bell M R. Asynchronous multicarrier DS-CDMA using mutually orthogonal complementary sets of sequences. IEEE Transactions on Communications. 2000; 48(1): 53-59.

Torii H, Nakamura M. Extension of Family Size of ZCZ Sequence Sets Derived from Perfect Sequences and Unitary Matrices. 2002 IEEE Seventh International Symposium on Spread Spectrum Techniques and Applications. Prague, Czech Republic. 2002: 170-174.

Shaojun Xu, Li Daoben. Ternary complementary orthogonal sequences with zero correlation window. The 14th IEEE 2003 International Symposium on Personal, Indoor and Mobile Radio Communication Proceedings. Beijing. 2003: 1669-1672.

Rathinakumar A, Chaturvedi A K. Complete Mutually Orthogonal Golay Complementary Sets from Reed-Muller Codes. IEEE Transactions on Information Theory. 2008; 54(3): 1339-1346.