Biomedical Engineering Reference
In-Depth Information
5. Y. Xie, B. Guo, L. Xu, J. Li, P. Stoica, Multistatic adaptive microwave imaging for early breast
cancer detection. IEEE Trans. Biomed. Eng.
53
, 1647-1657 (2006)
6. L. Xu, S. Davis, S.C. Hagness, D. Weide, B. Veen, Microwave imaging via space-time beam-
forming: experimental investigation of tumor detection in multilayer breast phantoms. IEEE
Trans. Microwave & Theory Tech.
52
, 1856-1865 (2004)
7. X. Xiao, T. Kikkawa, Study on the breast cancer detection by UWB microwave imaging. IEEE.
2008.
8. M. Patlak, S. Nass, I. Henderson, J. Lashof (eds.),
Mammography and beyond: developing tech-
nologies for the early detection of breast cancer
. (The National Academy Press, Washington,
DC, 2001)
9. E.J. Bond, X. Li, S.C. Hagness, B.D. Van Veen, Microwave imaging via spacetime beamforming
for early detection of breast cancer. IEEE Trans. Antennas Propag.
51
(8), 690-705 (2003).
10. J.G. Elmore, M.B. Barton, V.M. Moceri, et al., Ten-year risk of false positive screening
mammograms and clinical breast examinations. N. Engl. J. Med.
338
, 1089-1096 (1998)
11. K.R. Foster, H.P. Schwan, Dielectric properties of tissues and biological materials: a critical
review. Crit. Rev. Biomed. Eng.
17
, 25-104 (1989)
12. K.S. Osterman, T.E. Kerner, D.B. Williams, A. Hartov, S. P. Poplack, K. D. Paulsen, Multifre-
quency electrical impedance imaging: preliminary in vivo experience in breast. Physiol Meas.
21
, 99-109 (1989)
13. J.L. Mueller, S. Siltanen, D. Isaacson, A direct reconstruction algorithm for electrical
impedance tomography. IEEE. Trans. Med. Imaging.
216
, 555-559 (1989)
14. T.O. McBride, B.W. Pogue, S.D. Jiang, U.L. Osterberg, K.D. Paulsen, S.P. Poplack, Initial
studies of in vivo absorbing and scattering heterogeneity in near-infrared tomographic breast
imaging. Opt. Lett.
26
, 822-824 (2001)
15. John McCorkle, Ultra-wide bandwidth (UWB): gigabit wireless communications for battery
operated consumer applications. 2005 Symposium on VLSI Circuits Digest of Technical Papers
16. K. Siwiak, Ultra-wide band radio: Introducing a new technology. Proc. IEEE Veh. Technol.
Conf.
2
, 1088-1093 (May 2001)
17. Ultra-Wideband First Report and Order. Federal Communication Commision, Tech. Rep.,
February 2002
18. J.G. Proakis,
Digital Communications
. (McGraw-Hill, New York, 1995)
19. J. Lang, UWB chip design with embedded functionality, UWB Summit, Paris, France, CD
Proceedings, (1989)
20. I. Oppermann, M. Hamalainen, J. Iinatti,
UWB Theory and Applications, Chapter 6
(Wiley,
Chichester, 2004)
21. P.P. Mercier, D.C. Daly, A.P. Chandrakasan, An energy efficient all-digital UWB transmit-
ter employing dual capacitively-coupled pulse-shaping drivers. IEEE. J. Solid-State Circuits,
44
(6), 1679-1688 (2009)
22. Y. Park, D. Wentzloff, An all-digital 12 pj/pulse ir-uwb transmitter synthesized from a standard
cell library. IEEE J. Solid-State Circuits,
46
(5), 1147-1157 (2011)
23. P.P. Mercier, M. Bhardwaj, D.C. Daly, A.P. Chandrakasan, A low-voltage energy-sampling IR-
UWB digital baseband employing quadratic correlation. IEEE. J. Solid-State Circuits.
45
(6),
1209-1219 (2010)
24. A. Bevilacqua, A.M. Niknejad, An ultrawideband CMOS low noise amplifier for 3.1-10.6 GHz
wireless receivers. IEEE. J. Solid-State Circuits.
39
(12), 2259-2268 (Dec 2004)
25. S.-G. Lee, J.-K. Choi, Current-reuse bleeding mixer. Electron. Lett.
36
(8), 696-697 (Apr 2000)
26. S. Douss, F. Touati, M. Loulou, An RF-LO current-bleeding doubly balanced mixer for IEEE
802.15.3a UWBMB-OFDM standard receivers. Int. J. Electron. Commun.
62
, 490-495 (Jul
2008)
27. F. Mahmoudi, C. Salama, 8 GHz, 1 V, high linearity, low power CMOS active mixer. Proc.
IEEE Radio FrEq. Integr. Circuits Symp. Dig. 401-404 (Jun 2004)
28. N. Poobuapheun, W.-H. Chen, Z. Boos, A. Niknejad, A 1.5-V 0.7-2.5-GHz CMOS quadrature
demodulator for multiband direct-conversion receivers, IEEE. J. Solid-State Circuits.
42
(8),
1669-1677 (Aug 2007)
29. Y. Ding, R. Harjani,
High-Linearity CMOS RF Front-End Circuits
. (Springer, New York, 2005)
Search WWH ::
Custom Search