قالب وردپرس درنا توس

Publications

  • Journal Papers
  1. V. Asghari-Sheikhi and H. Khani, “Improved Nine-Level Cascaded Switched-Diode Inverter With Fewer Number of Components for Solar-Wind Hybrid Farms,” submitted to IEEE Transactions on Industrial Electronics, Dec. 2020.
  2. H. Khani and H. Nie, “A weighted iterative transmitted reference pulse cluster ultra-wideband system,” submitted to IEEE Systems Journal, Dec. 2020.
  3. H. Khani, “X-law detection scheme for monobit transmitted-reference ultra wideband receivers,” to appear in International Journal of Informatics and Communication Technology (IJ-ICT), 2021.
  4. Y. Naderi-Gavareshki, H. Khani, and E. Rahiminejad, “Improved coded/uncoded monobit receiver for transmit-reference UWB communication systems: Performance evaluation and digital circuit design,” Elsevier AEUE International Journal of Electronics and Communications, Sep. 2020, DOI: 10.1016/j.aeue.2020.153460.
  5. H. Khani and H. Nie, “Near-optimal detection of monobit digitized UWB signals at the presence of noise and strong inter-symbol interference,” IEEE Systems Journal, vol. 14, no. 2, pp. 2311-2322, June 2019. DOI: 10.1109/JSYST.2019.2925930.
  6. Z. Xu, H. Nie, Z. Chen, H. Khani, W. Xiang, and L. Yu, “On the nonlinear Teager-Kaiser operator for energy detection based impulse radio UWB receivers,” IEEE Trans. on Wireless Communications, vol. 13, no. 5, pp. 2955-2965, May 2014.
  7. H. Khani, H. Nie, W. Xiang, Z. Xu, and Z. Chen, “Polarity-invariant square law technology for monobit impulse radio ultra wideband receivers,” IEEE Trans. on Vehicular Technology, vol. 63, no. 1, pp. 458-464, Jan. 2014.
  8. Z. Xu, H. Nie, Z. Chen, H. Khani and L. Yu, “Nonlinear blind narrowband interference mitigation for energy detection based UWB receivers,” IEEE Communications Letters, vol. 16, no. 10, pp. 1596-1599, Oct. 2012.
  9. H. Khani, P. Azmi, and H. Nie, “Performance analysis of high rate weighted-TR UWB system in the presence of inter-block and multiuser interferences,” Elsevier AEUE International Journal of Electronics and Communications, vol. 66, issue 3, pp. 219-227, Mar. 2012.
  10. H. Khani and P. Azmi, “Accurate analysis of a high data rate UWB-DTR system in dense multipath fading channels,” Elsevier Physical Communications, vol. 3, no. 2, pp. 67-72, June 2010.
  11. H. Khani  and P. Azmi, “Weighted high data rate UWB-TR system in dense multipath fading channels,” IET Commun., vol. 3, issue 4, pp. 571-584, April 2009.
  12. H. Khani and P. Azmi, “Performance analysis of a high data rate UWB-DTR system in dense multipath channels,” Progress In Electromagnetics Research B, vol. 5, pp. 119-131, 2008.
  13. H. Khani and P. Azmi, “A novel multi-access scheme for UWB-PPM communication systems,” Wiley European Trans. on Telecom., vol. 18, issue 4, pp. 389-401, June 2007.
  14. H. Khani and P. Azmi, “Performance analysis of TH-UWB radio systems using proper waveform design in the presence of narrow-band interference,” Wiley European Trans. on Telecom., vol. 17, no. 1, pp. 111-123, Feb. 2006.

Conference Papers

  1. Y. Naderi-Gavareshki, H. Khani, and E. Rahiminejad, “Enhanced Monobit Receiver for Impulse Radio UWB Weighted-Transmitted-Reference Communication Systems,” In Proc. 13th Symposium on Advances in Science and Technology, Mashhad, Iran, Dec. 2018, (in Persian).
  2. Y. Naderi-Gavareshki, H. Khani, and E. Rahiminejad, “Investigating the Performance Gain of Channel Coding for UWB Communication Systems at the Presence of ISI and Monobit Quantization Noise,” In Proc. 13th Symposium on Advances in Science and Technology, Mashhad, Iran, Dec. 2018, (in Persian).
  3. F. Karami, H. Khani, “Investigating the Effect of Timing Jitter on the Performance of the Monobit Weighted-Transmitted-Reference UWB Communications Systems,” in Proc. 3rd International Conference on Electrical Engineering, Tehran, Iran, Oct. 2018, (in Persian).
  4. H. Khani, “Iterative Algorithms to Compensate for Quantization Noise in Monobit Transmitted-Reference Receivers,” In Proc. IEEE International Conference on Ultra-Wideband, Paris, France, pp. 30-35, Sep. 2014.
  5. H. Khani, H. Nie, W. Xiang, and Z. Chen, “Inter-Symbol Interference Cancelation in Monobit Transmitted-Reference Impulse Radio UWB Receivers,” in IEEE Wireless Commun. and Networking Conf. (WCNC), Shanghai, Shanghai, China, pp. 2585-2590, Apr. 2013.
  6. Z. Xu, H. Nie, Z. Chen, H. Khani, and L. Yu, “Blind Narrowband Interference Mitigation Using Filter Bank for Energy Detection Based UWB Receivers,” In Proc. IEEE Radio and Wireless Symposium (RWS), Austin, TX, USA, pp. 139-141, Jan. 2013.
  7. Q. Liang, A. Audu, H. Khani, H. Nie, W. Xiang, and Z. Chen, “Measurement and Analysis of Intra-Vehicle UWB Channels,” In proc. IEEE Radio and Wireless Symposium (RWS), Austin, TX, USA, pp. 166-168, Jan. 2013.
  8. Z. Xu, H. Nie, Z. Chen, H. Khani, W. Xiang, and L. Yu, “On the nonlinear Teager-Kaiser operator for energy detection based impulse radio UWB receivers,” In Proc. IEEE GLOBECOM, Anaheim, CA, pp. 4078-4083, Dec. 2012.
  9. H. Khani, H. Nie, W. Xiang, Z. Xu, and Z. Chen, “Low complexity suboptimal monobit receiver for transmitted-reference impulse radio UWB systems,” In Proc. IEEE GLOBECOM, Anaheim, CA, pp. 4084-4089, Dec. 2012.
  10. H. Khani, H. Nie, W. Xiang, Z. Xu, S. Addepalli, and Z. Chen, “Polarity-invariant square law technology for transmitted reference UWB receivers digitizing with a monobit ADC,” In Proc. IEEE International Conference on Communications, pp. 4520-4524, Dec. 2012.
  11. H. Khani, H. Nie, W. Xiang, and Z. Chen, “Finite-resolution digital receiver for high rate ultra-wideband weighted-transmitted reference system,” In Proc. International Conference on Ultra-Wideband, Sep. 2011, pp. 200-204.
  12. H. Khani and P. Azmi, “Low complexity receiver for UWB weighted-transmitted reference system,” In Proc. International Symposium on Computer Networks and Distributed Systems, Feb. 2011, pp. 7-11.
  13. H. Khani and P. Azmi, “Novel modulation schemes for UWB-PPM systems,” In Proc. 61st IEEE VTC 2005-Spring, vol. 2, pp. 1401–۱۴۰۵, June 2005.
  14. H. Khani and P. Azmi, “Performance comparison between BPSK and BPPM time-hopping UWB impulse radio multiple-access systems in the presence of narrow-band interference using proper waveform design,” In Proc. ICT 2004.

Patents:

  1. A Device to Protect Electrical Appliances Against Electrical Shock Caused by Switching, Iran, Patent No.: 89302, filed on 07/12/2016.
  2. Weighted Transmitted-Reference UWB Wireless Communication System, Iran, Patent No: 64654, filed on 07/20/2010.
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