Mitigation of wideband interference on UWB-IR transmission using multi-carrier templates

Лакшманан, М.; Nikookar, H.

doi:10.1017/s1759078709000129

Int. j. microw. wirel. technol.

2009

DOI: 10.1017/s1759078709000129

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Mitigation of wideband interference on UWB-IR transmission using multi-carrier templates

М. Лакшманан¹,

H. Nikookar²

Abstract: Ultra wideband (UWB) wireless systems are highly susceptible to interference from other services. To reduce the effect of interference from co-existing sources such as the WLAN standard IEEE 802.11a on UWB Communication, the construction of a modified template waveform using multi-carrier sinusoids is proposed in Ohno and Ikegami (2003), Ohno et al. (2004), Ikegami (2006), andNikookar (2007). However, the work in Ohno and Ikegami (2003), Ohno et al. (2004), Ohno and Ikegami (2006), and Lakshmanan and Nikookar … Show more

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Ahmad¹

2009

Int. j. microw. wirel. technol.

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ForewordThe functionality of piezoelectric materials has become very useful in many integrated devices applications due to their electrical-mechanical reciprocity. Piezoelectric materials such as aluminum nitride (AlN) and lead zirconate oxide are widely employed. Therefore, it has become increasingly important to characterize the activity of piezoelectric materials relative to their applications and functionality. This special issue is dedicated to the piezoelectric materials characterization and microwave applications. The issue contains seven papers on the subject, in addition to four other papers.Of the piezoelectric papers, Al Ahmad and Plana [1] describe the displacement detection of thin-film AlN using capacitance measurements while Menéndez et al.[2] report a design methodology for microwave acoustic filters. The third paper, by Muralt et al. [3], highlights the impact of material parameters for GHz applications; monolithic thinfilm piezoelectric-on-substrate high-frequency filters are addressed by Abdolvand and Ayazi [4] in the fourth paper. The fifth paper (Ikehashi et al. [5]) outlines a lithographical bending control method for piezoelectric actuator fabrication for MEMS applications. The correlation of capacitive RF-MEMS reliability to AlN is discussed by Papandreou et al. [6] while Poplavko et al. [7] show the use of piezoelectric materials in building tunable microwave devices.

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Foreword

Ahmad¹

2009

Int. j. microw. wirel. technol.

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Mitigation of wideband interference on UWB-IR transmission using multi-carrier templates

Cited by 1 publication

References 5 publications

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