Research Page
صفحة البحوث
[1] Andijani, A.; Al-Dajani, M., “Analysis of deteriorating inventory/production systems using a linear quadratic regulator.” European Journal of Operational Research, vol.106, (no.1), Elsevier, 1 April 1998. p.82-9. 17.
[2] Ahmed, M.S.; Al-Dajani, M. “Neural regulator design.” Neural Networks, vol.11, (no.9), Elsevier, Dec. 1998. p.1695-709.
[3] Aldajani, M. A. and Sayed, A. H., “An adaptive structure for sigma delta modulation with improved dynamic range,'' Proc. 43rd Midwest Symposium on Circuits and Systems (MWSCS), Lansing, MI, Aug. 2000.
[4] Aldajani, M. A. and Sayed, A. H., ``Stability analysis of an adaptive structure for sigma delta modulation,'' Proc. 7th IEEE Int. Conf. Electronics, Circ. and Sys. (ICECS), Jounieh, Lebanon, vol. 1, pp. 129-132, Dec. 2000.
[5] Aldajani, M. A. and Sayed, A. H., ``Stability and performance analysis of an adaptive sigma-delta modulator,'' IEEE Trans. on Circuits and Systems II: Analog and Digital Signal Processing, vol. 48, no. 3, pp. 233-244, Mar. 2001.
[6] Aldajani, M. A. Sayed, A. H., ``SNR performance of an adaptive sigma delta modulator,'' Proc. IEEE International Symposium on Circuits and Systems (ISCAS), Sydney, Australia, vol. 1, no. 5, pp 392-395, May 2001.
[7] Aldajani, M. A. and Sayed, A. H., ``A stable structure for delta modulation with improved performance,'' Proc. International Conference on Acoustics, Speech and Signal Processing, (ICASSP), Salt Lake City, Utah, vol. 4, May 2001.
[8] Aldajani, M. and Sayed, A. H., "Adaptive predictive power control for the uplink channel in DS-CDMA cellular systems," IEEE Transactions on Vehicular Technologies, Vol. 52, Issue 6, pp. 1447-1462, Nov. 2003.
[9] Aldajani, M. A. and Sayed, A. H., ``A structure for adaptive sigma-delta modulation with improved dynamic range,'' US provisional patent 60/218,103 filed on 7/13/2000.
[10] Aldajani, M. A. and Sayed, A. H., ``High performance source coding techniques,'' provisional application 60/288,634, UCLA disclosure UC2001-427, submitted to UCLA Office of Technology Transfer on 5/3/2001.
[11] Aldajani, M. A. and Sayed, A. H., ``Closed loop power control techniques,'' UCLA disclosure UC2002-023, submitted to UCLA Office of Technology Transfer on 7/17/2001.
[12] Aldajani, M. A. and Sayed, A. H., ``Predictive ration closed-loop power control for CDMA wireless systems, '' Proc. International Conference on Acoustics, Speech and Signal Processing, (ICASSP), Orlando, FL, May 2002.
[13] Aldajani, M. A. and Sayed, A. H., ``Inverse closed-loop power control for CDMA wireless systems,'' Proc. International Conference on Acoustics, Speech and Signal Processing (ICASSP), Orlando, FL, May 2002.
[14] Aldajani, M. A. and Sayed, A. H., ``Adaptive Differential Pulse-Coded Modulation with Exponential Tracking,'' Proc. International Conference on Image and Signal Processing and Analysis (ISPA), Rome, Italy, Vol. 1, pp. 532-535, Sep. 2003.
[15] Aldajani, M. A., “Modified Sign LMS with Exponential Tracking” Accepted, IEEE Midwest Symposium of Circuits and Systems, Cairo, Egypt, 2003.
[16] Aldajani M. A., “ADAPTIVE STEP-SIZE SIGN LEAST MEAN SQUARES,” International Conference on Acoustics, Speech and Signal Processing, (ICASSP), Montreal, Canada, Vol. 2, pp. 669-672, May 2004.
[17] Aldajani, M. A., “Novel Approach for Optimal Placement of Wireless Base-Stations,” Accepted, the International Symposium on Wireless Systems and Networks Sep. 2005, KFUPM, Saudi Arabia.
[18] Aldajani, M. A., “Modified Sign LMS with Exponential Tracking: Performance Analysis” to be submitted.
[19] Aldajani, M. A., “Convolution-based Optimal Placement of Wireless Base-Stations,” to be submitted
[20] Aldajani, M. A., “Logarithmic Quantization in Least Mean Squares Algorithms,” to be submitted
[21] Aldajani, M. A., “Efficient Decision Feedback Equalization Using power-of-two Quantization”, to be submitted