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Experimental Setup Optimization of the Acid Catalyst Concentration for Synthesis of Anti‐Cancer Agent Gamavuton‐0 by Using Mathematical and Statistical Software

1 a b Figure : SF c ‐LFM for N = , t d = ns; a Top – ntra‐Pulses, Middle – Reference Signal, Bottom – Reconstructed Pulse; b ACF of the Reconstructed Pulse a b Figure : SF c ‐LFM for N = 8, t d = ns; a Top – ntra‐Pulses, Middle – Reference Signal, Bottom – Reconstructed Pulse; b ACF of the Reconstructed Pulse Table : Peak Side‐Lobe Ratio Comparison PSLR and mprovement in mpulse Response Width RW using SF c ‐LFM Number of intra‐ pulses N Delay ns PSLR dB IRW ns Improvement Factor in IRW Unit less Single ‐ Pulse LFM SF c ‐ LFM Single ‐ Pulse LFM SF c ‐ LFM Estimated Measured ‐ . ‐ .8 . 8. . . ‐ . ‐ . . 8. . . ‐ . ‐ . . . . . ‐ .8 ‐ . . . . . 8 ‐ . ‐ . . . 8. 8. ‐ . ‐ . . . 8 8. 8.

6. Conclusion

This paper presents a SF c ‐LFM technique to generate UWB SAR LFM signal. The technique can synthesize a greater bandwidth and wider pulse width signal as compared to conventional SAR system. The obtained result has proven that SF c ‐LFM technique is able to improve the system range resolution, whilst maintain the required SAR signal quality. Also, the introduction of phase coding scheme into the transmitting signal enhanced the immunity of the radar system on radar system’s electronics countermeasure. n conclusion, the proposed waveform modulation technique and its synthesis technique can practically be implemented. 17 Acknowledgements This work is funded by the Minister of igher Education Malaysia MOE under account no .PJJAU. , and Japanese nternational Cooperation Agency JCA . References Barton D. K. 88 , Modern Radar System Analysis, Norwood, Artech ouse. Chan Y. K., Koo V. C. 8 , An ntroduction to Synthetic Aperture Radar SAR , Progress in Electromagnetics Research B, Vol. , pp. ‐ . Chan Y. K., Lim S. Y. 8 , Synthetic Aperture Radar SAR Signal Generation, Progress in Electromagnetics Research B, Vol. , pp., ‐ . Chua M. Y., Koo V. C. , FPGA‐based Chirp Generator for igh Resolution UAV SAR”, PER , pp ‐88.
 Chua M.Y., Boey .S., Lim C.., Koo V.C., Lim .S., Chan Y.K., Lim T. S. , A Miniature Real‐ Time Re‐configurable Radar Waveform Synthesizer for UAV based Radar”, PERC , Vol. , pp. ‐ 8 , . Mahafza B. F. 8 , ntroduction to Radar Analysis, New York, CRC Press. Skolnik M. . , Radar andbook, New York, McGraw‐ill. Ulaby F. T., Moore R. K., and Fung A. K. 8 , Microwave Remote Sensing: Active and Passive, Vol. , Norwood, Artech ouse.

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