References: [1] MacWilliams, F. J., Slone, N. J. A. (1976). Pseudo-random sequences and arrays, Proceeding of IEEE, 64 (12) 1715-1728. [2] Petriu, E. M., Basran, J. S. (1989). On the position measurement of automated guided vehicles using pseudorandom encoding, in IEEE Trans. IM, 38 (3) 799-803. [3] Rau, J. C., Wu, P. H., Ho, Y. F. (2008). A novel reseeding mechanism for improving pseudo-random testing of VLSI circuits, in Tamkang Journal of Science and Engineering, 11 (2) 175-184. [4] Amrani, M.E.H., Dowdeswell, R. M., Payne, P.A., Persaud, K. C. (1998). Pseudo-random binary sequence interrogation techniques for gas sensors, in Sensor. Actuat. B-Chem. 47, 118-124. [5] Arsic, M., Denic, D. (1993). New pseudorandom code reading method applied to position encoders, in Electron. Lett. 29, 893- 894. [6] Denic, D., Miljkovic, G. (2009). Code reading synchronization method for pseudorandom position encoders, in Sensor. Actuat. A Phys. 150, 188-191. [7] Petriu, E. M., Basran, J. S., Groen, F. C. A. (1993). Automated guided vehicle position recovery, In: IEEE Trans. Instrum. Meas. 39, 254-258. [8] Denic, D., Arsic, M. (1993). Checking of pseudorandom code reading correctness, in Electron. Lett. 29, 1843-1844. [9] Denic, D., Stojkovic, I. (2010). Pseudorandom/natural code converter with parallel feedback logic configuration, In: Electron. Lett. 46, 921-922. [10] New Wave Instruments, Linear feedback shift registers: Implementation, M-sequence properties, feedback tables. (2004). http://www.newwaveinstruments.com/resources/articles/m_sequence_linear_feedback_shift_register_lfsr.htm |