The era of beyond third generation wireless communication is highly heterogeneous in that it comprises several radio access technologies that need to be joined into a single multimode terminal. In this respect, this paper introduces a common service recognition system for the next wireless communication technologies i.e. Long Term Evolution (LTE), WiMAX or IEEE 802.16, and Wireless Local Area Network (WLAN) or IEEE 802.11.It is done in physical layer as one of multimode terminal ability regardless network cooperation existence. We investigation the preamble and synchronization signals as indicators of the available services instead of carrier frequency detection. To detect these signals, we proposed a time domain detection system consisting of auto-correlation, cross-correlation, and a peak period detection. Based on complexity analysis, this paper proposes the most possible scheme with lower complexity than cross-correlation implementation. Moreover, the fixed point simulation results show that the proposed system satisfies the minimum receiver sensitivity requirements that specified in the standards.

Lou W, and Bodensee E. Optimising Radio Access in a Heterogeneous Wireless Network Environment. Proc. IEEE ICC. Dresden. June 2000; 1: 1-5.

Moessner K, Luo J, Mohyeldin E, Grandblaise D, Kloeck C, Martoyo I, Sallent O, Demestichas P, Dimitrakopoulos G, Tsagkaris K, and Olaziregi N. Functional Architecture of End-to-end Reconfigurable Systems. Wireless World Research Forum. Proc. IEEE VTC-Spring, May 2006; 1: 196-200.

Dimitrakopoulos G, Demestichas P, Saatsakis A, Tsagkaris K, Galani A, Gebert J, Nolte K. Management and Control of Reconfigurable Radio System. IEEE Veh. Technol. Mag. 2009; 4(1): 42-48.

Gelabert X, Romero J. P, Sallent O, and Agusti R. On the Impactof Multi-mode Terminals in Heterogeneous Wireless Access Networks. Proc. IEEE ISWCS. 2005: 39-43.

Li Y., McLaughlin S., CruickshankD. G. M., and Wei X. Towards Multi–Mode Terminals. IEEE Veh. Technol. Mag. 2006; 1(4): 17-24.

Wenzel D. System Architectures in Multi-mode Mobile Terminals. Proc. IEEE ECWT. 2007: 16-19.

Fischer H., Henkel F., Engels M., Waldow P. UMTS/GSM Multi Mode Receiver Design. Proc. IEEE ISCAS. 2006; 4: 261-264.

Xavier B., and Christensen L. Cellular/WiFi Multi-mode Systems. Proc. IEEE RWS. 2006; 3-6.

Higuchi K., Hanada Y., Sawahashi M., and Adachi F. Experimental valuation of 3-Step Cell Search Method in W-CDMA Mobile Radio. Proc. IEEE VTC-Spring. Tokyo. 2000; 1:303-307.

Nielsen A. O., Korpela S. WCDMA Initial Cell Search. Proc. IEEE VTC-Fall. Boston. 2000; 1: 377- 383.

Tanno M., Nagata S., Kishiyana Y., Higuchi K, and Sawahashi M. Physical Channel Structures and Cell Search Method for callable Bandwidth for OFDM Radio Access in Evolved UTRA Downlink. Proc. IEEE WCNC. Hongkong. 2007; 1506-1511.

Kim K.S., Kim S.W., Cho Y.S., Ahn J.Y. Synchronization and Cell-Search Technique Using Preamble for OFDM Cellular Systems. IEEE Trans. Veh. Technol. 2007; 56(6): 3469-3485.

Tsai Y., Zhang G. Time and Frequency Synchronization for 3GPP Long Term Evolution Systems. Proc. IEEE VTC 2007-Spring. Dublin. 2007; 1: 1727-1731.

Manolakis K., Gutierrez Estevez D.M., Jungnickel V., Xu W., and Drewes C. A Closed Concept for Synchronization and Cell Search in 3GPP LTE Systems. Proc. IEEE WCNC. Budapest. 2009; 1: 1-6.

Tanno M., Atarashi H., Higuchi K., and Sawahashi M. Three-step Cell Search Algorithm Employing Synchronization and Common Pilot Channels for OFCDM Broadband Wireless Access. IEICE Trans. Commun. 2003; E86-B: 325-334.

Salbiyono A., and Adiono T. Preamble Structure-based Timing Synchronization for IEEE 802.16e. in Proc. IEEE ISPACT. Kanazawa. 2009; 319-322.

Su H., Zhang J. Cell Search Algorithms for the 3G Long-term Evolution. Journal of China Univ. of Posts and Telecom. 2007; 14(2): 32-37.

Manusani S.K., Kshetrimayum R.S., and Bhattacharjee R. Robust Time and Frequency Synchronization in OFDM Based 802.11a WLAN Systems. Proc. Annual IEEE India Conference. 2006; 15-17.

3GPP Technical Specification Group Radio Access Network. 3GPP TS 36.211 v8.7.0. Evolved Universal Terrestrial Radio Access (E-UTRA); Physical Channels and Modulation. 3GPP. 2009.

3GPP Technical Specification Group Radio Access Network. 3GPP TS 25.814 v7.1.0. Physical Layer Aspect for Evolved Universal Terrestrial Radio Access (UTRA): 3GPP; 2006.

IEEE Std. 802.16e-2005. Part 16: Air Interface for Fixed and Mobile Broadband Wireless Access Systems. IEEE Press; 2006.

Pushpa K., Kishore C.N., and Yoganadem Y. A New Method for Frame Synchronization in OFDMA Mode of WMAN. Proc. IEEE TENCON. 2008; 1-6.

IEEE Std. 802.11-2007. Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications. IEEE Press; 2007.

Huang S., He J., Zeng X., and Li J. Accurate Frame Synchronization for IEEE 802.16d System. Proc. IEEE WCSP. 2009: 1-3.

3GPP Technical Specification Group Radio Access Network. 3GPP TS 36.101 v8.4.0. Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment (UE) radio transmission and reception: 3GPP; 2008.