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REFERENCES

1 
Pickering C. A., Mar. 2005, The search for a safer driver interface: A review of gesture recognition human machine interface, Computing & Control Engineering Journal., Vol. 16, No. 1, pp. 34DOI
2 
Pavlovic V. I., Sharma R., Huang T. S., Jul. 1997, Visual interpretation of hand gestures for human-computer interaction: A review, Pattern Analysis and Machine Intelligence, IEEE Transactions on, Vol. 19, pp. 677-695DOI
3 
Suarez J., Murphy R. R., Sep 2012, Hand gesture recognition with depth images: A review, Robot and Human Interactive, IEEE Intenational Symposium on, pp. 411-417DOI
4 
Parada-Loira F., Gonzalez-Agulla E., Alba-Castro J., June 2014, Hand gestures to control infotainment equipment in cars, Intelligent Vehicles, IEEE Symposium on, pp. 1-6DOI
5 
Jung Y., Lim E., Jung Y., Feb. 2017, Low-Complexity 3-Channnel FFT Processor for Hand Gesture Recognition Radar Systems, Korea Conference on Semiconductors, pp. 77Google Search
6 
Lien J., Gillian N., Karagozler M.. E., Amlihood P., Schwesig C., Olson E., Raja H., Poupyrev I., July 2016, Soli: Ubiquitos Gesutre sensing with millimeter wave radar, ACM Transaction on Graphics, Vol. 35, No. 4DOI
7 
Nathanson F. E., Reilly J. P., Cohen M. N., 1999, Radar Design Principles, 2nd ed., SciTech PublishingGoogle Search
8 
Kronauage M., Rohling H., Oct. 2014, New Chirp Sequence Radar Waveform, Aerospace and Electronic Systems, IEEE Transaction On, Vol. 50, No. 4, pp. 2870-2877DOI
9 
Molchanov P., Gupta S., Kim K., Pulli K., May 2015, Multi-sensor system for driver's hand-gesture recognition, Automatic Face and Gesture Recognition, IEEE Conference on, pp. 1-8DOI
10 
Molchanov P., Gupta S., Kim K., Pulli K., May 2015, Short-range FMCW monopulse radar for hand-gesture sensing, Radar Conference IEEE, pp. 1491-1496DOI
11 
Nguyen T., Lee H., Feb. 2017, High-throughput Low-complexity Mixed-radix FFT Processor using a Dual-path Shared Complex Constant Multiplier, Semiconductor Technology and science, IEIE Journal of, Vol. 17, No. 1DOI
12 
Jung Y., Yoon H., Kim J., Feb 2003, New efficient FFT algorithm and pipeline implementation results for OFDM/DMT applications, Consumer Electronics, IEEE Transaction on, Vol. 49, No. 1, pp. 14-20DOI
13 
Sansaloni T., Perez-Pascual A., Torees V., Valls J., Sep. 2005, Efficient pipeline FFT processors for wireless LAN MIMO-OFDM systems, Elecotro-nics Letters, Vol. 41, No. 19, pp. 1043-1044DOI
14 
Yoshizawa S., Nishi K., May 2008, An Area and Power Efficient Pipeline FFT Processor for 8x8 MIMO-OFDM Systems, Circuits and Systems, IEEE International Symposium on, pp. 1248-1251Google Search
15 
Seok M., et al. , Feb., 2011, A 0.27V 30MHz 17.7nJ/transform 1024-pt complex FFT core with super-pipelining, Solid-State Circuits Conference, 2011. ISSCC 2011. Digest of Technical Papers, IEEE Internaltional, pp. 342-344DOI
16 
Chhatbar T. D., Darji A. D., Jan., 2009, High Speed High Throughput FFT /IFFT Processor ASIC for Mobile Wimax, Emerging Trends in Engineering and Technology, 2nd IEEE International Conference on, pp. 402-405DOI
17 
Lin Y. W., Liu H. Y., Lee C. Y., Nov., 2004, Dynamic scaling FFT processor for DVB-T applications, Solid State Circuits, IEEE Journal of, Vol. 39, No. 11, pp. 2005-2013DOI
18 
Yang K. J., Tsai S. H., Chuang G. C. H., Apr., 2013, MDC FFT/IFFT Processor With Variable Length for MIMO-OFDM Systems, Very Large Scale Integration Systems, IEEE Transactions on, Vol. 21, No. 4, pp. 720-731DOI
19 
Lee H., Park I., Apr., 2007, Balanced Binary-Tree Decomposition for Area-Efficient Pipelined FFT Processing, Circuits and Systems I: Regular Papers, IEEE Transactions on, Vol. 54, No. 4, pp. 889-900DOI
20 
Shih X. -Y., Liu Y. -Q., Chou H. -R., Jun., 2017, 48-Mode Reconfigurable Design of SDF FFT Hardware Architecture Using Radix-3^2 and Radix-2^3 Design Approaches, IEEE TCAS-I, Vol. 64, No. 6, pp. -DOI