A novel wireless personal area network technology: Ultra wide band technology

Wei-hua Gao , Li-li Guo , Zhi-guo Liang

Journal of Marine Science and Application ›› 2006, Vol. 5 ›› Issue (3) : 63 -69.

PDF
Journal of Marine Science and Application ›› 2006, Vol. 5 ›› Issue (3) : 63 -69. DOI: 10.1007/s11804-006-0011-1
Article

A novel wireless personal area network technology: Ultra wide band technology

Author information +
History +
PDF

Abstract

Ultra Wideband (UWB) technology is promising for wireless personal area network (WPAN) applications due to its high data rate, low power requirement and short-range characteristics. Instead of exploring new unused frequency band, the UWB communication follows the overlay principle, i.e., sharing the spectrum with existing systems and devices. This novel radio technology has been recently approved by the regulatory authorities in the United States and Canada, and is being considered for approval in Europe and Asia. In this paper, an overview of the UWB radio technology from the technical, economical, and regulatory perspectives is provided. Firstly, the definition of UWB by the Federal Communications Commission (FCC) is introduced, followed by a brief introduction to the history. The current status of the standardization process resulting from the FCC’s recent decision to permit unlicensed operation in the [3.1–10.6] GHz band is discussed. Then, the reasons of considering UWB as a future solution for WLAN/WPAN applications are studied. In particular, the unique properties of UWB and its difference from other wireless technology alternatives are studied. Then, the benefits and challenges related to the commercial deployment of UWB for future applications are discussed. Finally, the research problems and challenges posed by the UWB technology are focused.

Keywords

UWB / WLAN / high data rate / robustness / standard / multiple access

Cite this article

Download citation ▾
Wei-hua Gao, Li-li Guo, Zhi-guo Liang. A novel wireless personal area network technology: Ultra wide band technology. Journal of Marine Science and Application, 2006, 5(3): 63-69 DOI:10.1007/s11804-006-0011-1

登录浏览全文

4963

注册一个新账户 忘记密码

References

[1]

Roy S., Foerster J. R. Ultrawideband radio design: the promise of high-speed, short-range wireless connectivity[J]. Proceedings of IEEE., 2004, 92: 295-311

[2]

Zhuang W.-h., Shen X.-m., Bi qi. Ultra-wideband wireless communications[J]. Wireless Communications and Mobile Computing, 2003, 3: 663-685

[3]

FCC Notice of Proposed Rule Making. Revision of part 15 of the commission’s rules regarding ultra wideband transmission systems[J]. Federal Communications Commission, 2002(4):96–103.

[4]

Ross G. F. A time domain criterion for the design of wideband radiating elements[J]. IEEE Trans on Antennas & Propagation, 1968, 16: 355-356

[5]

ROSS G F. Transmission and reception system for generating and receiving base-band duration pulse signals without distortion for short base-band pulse communication systems[P]. U.S. Patent: 3728632, 1973-04-17.

[6]

FONTNA R. A brief history of UWB communications[EB]. 2004. Available: http://www.ferret.com.au/articles/04/0c01fc04.asp.

[7]

SCHOLTZ R A. Multiple access with time-hopping impulse modulation[A]. MILCOM 93 Communications on the Move’. Conference Record[C]. Boston, USA: 1993, 447–450.

[8]

Reed J. H. An introduction to ultra wideband communication systems[M]. 2005, New Jersey: Prentice Hall

[9]

IEEE P802.15-02/105r25. SG3a Alternate PHY Selection Criteria[S].

[10]

Taylor J. D. Introduction to ultra wideband radar systems[M]. 1995, Boca Raton, FL: CRC

[11]

WELBORN M, MILLER T, LYNCH J, and MCCORKLE J. Multi-user perspectives in UWB communications networks[A]. IEEE Conf. UWB Systems and Technologies Dig[C]. Boston, USA: 2002, 271–275.

[12]

Welborn M. System considerations for ultra-wideband wireless networks[A]. 2001 IEEE Radio and Wireless Conference[C]. 2001, Waltham, MA, USA: IEEE, 5-8

AI Summary AI Mindmap
PDF

219

Accesses

0

Citation

Detail

Sections
Recommended

AI思维导图

/