AEther Wire has developed a position location and communication system which overcomes the limitations that make other location systems unsuitable for most imagined applications.

Author:  None  

Pages/Year: 4 /1999

 

About geolocation system called Localizer. Slides from Ultra-Wideband Conference at 28 September 1999

Author:  Robert Fleming, Cherie Kushner  

Pages/Year: 19 /1999

 

This paper contains a few important points of UWB technology : definition of UWB, measurement technique, peak limit of power,power spectral density and other. The appendix include an articles: "Test Results & Theoretical Analysis of Compatibility between a Global Positioning System and Time-Modulated Ultra-Wideband Emissions", "Cumulative Impact of TM-UWB Devices & Affect on Three Aviation Receivers", "Example UWB Emissions from Incidental, Unintentional, and Intentional Devices"

Author:  none  

Pages/Year: 92 /1999

 

The video impulse system ground penetrating radar system for detection of small and shallow buried objects has been developed. The hardware combines commercially available components with components (e.g. antennas) specially developed or modified for being used in the system. Antenna system has been designed so that it provides sufficient spatial resolution and power budget together with small coupling and ringing. The GPR has been tested in different environmental conditions and has proved its ability to detect small and shallow buried targets.

Author:  A.G. Yarovoy, B.Sai, G.Hermans, P.van Genderen, L.P.Ligthart, A.D.Schukin, I.V.Kaploun  

Pages/Year: 4 /1999

 

In this paper we will present and discuss the design and material characterization of a small scale test environment. Then indicate some inherent limitations on such a small test site and outline one simple remedy to suppress near- eld e ects and environmental clutter. Once the test environment ischaracterized a Stepped Frequency Ground Penetrating Radar is implemented using a Vector Network Analyser and used to critically investigate the performance advantages and limitations of a TEM horn and a standard gain horn used either in a monostatic mode or as part of a new bistatic con guration. This work demonstrated the standard gain horn in a bistatic con guration to be a more e ective combination for detection of shallow and surface laid buried objects.

Author:  A. Snip, I.L. Morrow, P. van Genderen  

Pages/Year: 4 /1999

 

In 1989, a VHF SAR was constructed for the purpose of looking through foliage and imaging man-made objects such as roads and buildings. Immediately, some of the problems in designing and operating an airborne SAR at these frequencies became apparent, and the remainder of this paper will comment on the design and applications of airborne VHF/UHF SAR systems.

Author:  Roger S Vickers  

Pages/Year: 7 /1999

 

Wideband radar technology has the greatest benefits to offer for many applications, and will meet cost targets.

Author:  G K A Oswald  

Pages/Year: 20 /1999

 

Communication Applications of UWB technology.Slides from UWB Conference at September 28, 1999

Author:  Debby Hindus  

Pages/Year: 10 /1999

 

TM-UWB technolologe develop in Time Domain Inc.

Author:  none  

Pages/Year: 23 /1999

 

Overwiev of UWB GPR radar. More applications and very interisting for first step.

Author:  Gary R. Olhoeft  

Pages/Year: 13 /1999

 

Time modulated ultra-wideband (TM-UWB) techniques allow the transmission and fully coherent reception of RF signals with very large fractional bandwidths for a wide variety of important applications. However, traditional instrumentation (e.g., spectrum analyzers) cannot be used at meaningful distances to measure the channel response for such signals. Without such measurements it has been impossible to create channel models except in a few simple cases. Now a TM-UWB scanning receiver has been constructed that allows precision measurement of the impulse response of the channel where measurements can be made out to the maximum communications range of the system. This versatile system not only captures ultra-wideband propagation waveforms, but information on data symbol statistics.

Author:  P. Withington, R. Reinhardt, and R. Stanley  

Pages/Year: 5 /1999

 

A general high-Q biquad lter architecture capable of operating in the GHz range is proposed and analyzed. This lter, which is usable in bandpass and lowpass applications, utilizes two e ective Q-enhancement techniques to circumvent the low-Q characteristics inherent in the circuit. Simulation results employing standard 0.5 m CMOS technology have successfully veri ed that the center frequency tuning and hybrid Q-tuning techniques operate between 1GHz to 2.3GHz center frequencies with Q ranging from 4.8 to over 1000. A tunable bandpass lter with a center frequency at 1.5GHz and a lowpass lter with a center frequency at 2.07GHz each having Q equal to 31 have been designed to have 63dB and 44dB input dynamic range, and power dissipation equal to 30.5mW and 27.8mW, respectively.

Author:  Yuyu Chang John Choma, Jr.Jack Wills  

Pages/Year: 4 /1999

 

This article about UltRa Lab. The electrical engineer Robert Scholtz is exploring the next digital technology that could revolutionize life: ultra-wide bandwidth radio, including short-pulse radio or impulse radio.

Author:  USC Chronicle  

Pages/Year: 4 /1999

 

The Chief of the Commission's Office of Engineering and Technology, on delegated authority, has granted waivers of certain Part 15 rules to Time Domain Corporation, U.S.Radar Inc., and Zircon Corporation to allow the limited marketing of ultra-wide band ("UWB") devices, subject to certain conditions.

Author:  none  

Pages/Year: 2 /1999

 

Janes International Defencse Review 2/1999 (Text only version)

Author:  Mark Hewish and Scott R. Gourley  

Pages/Year: 2 /1999

 

Janes International Defencse Review 2/1999

Author:  Mark Hewish and Scott R. Gourley  

Pages/Year: 3 /1999

 

Abstract|We study the problem of rate control for transmission of video over burst-error wireless channels, i.e.,channels such that errors tend to occur in clusters during fading periods. In particular we consider a scenario consisting of packet based transmission with Automatic Repeat reQuest (ARQ) error control and a back channel. We start by showing how the delay constraints in real time video transmission can be translated into rate constraints at the encoder, where the applicable rate constraints at a given time depend on future channel rates. With the acknowledgments received through the back channel we have an estimate of the current channel state. This information, combined with an a priori model of the channel allow usto statistically model the future channel rates. Thus the rate constraints at the encoder can be expressed in terms of the expected channel behavior. We can then formalize a rate distortion optimization problem, namely, that of assigning quantizers to each of the video blocks stored in the encoder bu er such that the quality ofthe received video is maximized. This requires that the rate constraints be included in the optimization, since violating a rate constraint is equivalent to violating a delay constraint and thus results in losing a video block. We formalize two possible approaches. The rst one seeks to minimize the distortion for the expected rate constraints given the channel model and current observation. The second approach seeks to allocate bits so as to minimize the expected distortion for the given model. We use both dynamic programming and Lagrangian optimization approaches to solve these problems. Our simulation results demonstrate that both the video distortion at the decoder and packet loss rate can be signi cantly reduced when incorporating the channel information provided by the feedback channel and the a priori model into the rate control algorithm.

Author:  Chi-Yuan Hsu, Antonio Ortega, and Masoud Khansari  

Pages/Year: 18 /1999

 

Question from Bob Lucky responses R.Scholtz.

Author:  Robert Scholtz  

Pages/Year: 8 /1999

 

The weekly newspaper for the wireless communications industry

Author:  none  

Pages/Year: 1 /1999

 

The article from TechWeek. More than a pipe dream, a new technology could revolutionize wireless communications…

Author:  Amara D. Angelica  

Pages/Year: 4 /1999

 

Ultra wideband radios could give today™s technologies a run for the money kb/s per user

Author:  NANCY GOHRING  

Pages/Year: 1 /1999

 

A time-hopping modulation format employing impulse signal technology has several features which may make it attractive for multiple-access communications. These features are outlined, an estimate of the multiple-access capability of a communication system employing this format under ideal propagation conditions is presented, and emerging design issues are described.

Author:  R. A. Scholtz  

Pages/Year: 4 /1999

 

A report from TR Daily

Author:  none  

Pages/Year: 1 /1999

 

One of the potential benefits of the UWB radio is its multipath resolution. The implications are multipath components which might not be resolved as distinct arrivals in more narrowband systems, may be separately identified in UWB systems. This paper explores some of the propagation characteristics associated with UWB signals, based on measured data.

Author:  J. M. Cramer, R. A.  Scholtz and M. Z. Win  

Pages/Year: 5 /1999

 

By this Notice of Inquiry, the Commission is initiating a proceeding to investigate the possibility of permitting the operation of ultra-wideband (UWB) radio systems on an unlicensed basis under its rules. Comments are requested on the standards and operating requirements that should be applied to UWB systems to prevent interference to other radio services.

Author:  none  

Pages/Year: 2 /1999

 

This paper pertains to the design aspects of a multifrequency FMCW radar with emphasis on the engineering problems involved in its implementation. This radar generates 8 separate FMCW signals which are then additively mixed and radiated. The ultimate objectives of the radar are multiple : n to study waveforms of variable and flexible transmitted power spectra. n to study ultra- wide band processing techniques, without the need to have an ultra-wide instantaneous bandwidth. n to study coherent, non- coherent and mixed processing concepts. The multifrequency FMCW radar under discussion in this paper has been called the PANDORA. This is an acronym for Parallel Array for Numerous Different Operational Research Activities. Essentially, we are trying to achieve ultra- wide band capability using multiple narrow band FMCW radars ( in our specific case 8 radars corresponding to 8 channels) operating simultaneously. This allows us to study UWB processing techniques without the need for an ultra- wide instantaneous bandwidth. This automatically implies that we have the capability to study coherent, non- coherent and mixed processing concepts in an ultra- wide band environment using narrow band FMCW radars.

Author:  M.Jankiraman , B.J. Wessels , P. van Genderen  

Pages/Year: 6 /1999

 

Spring 1999 Inside This Issue Powering Up Pre Navy s Advanced Rapid COTS Insertion program, designed Lanscape handles pre-press for virtually brain attack protocol that doesn t Manufacturers have recog- nized patient comfort Mercury s unique RACEway architecture, which United Kingdom s Defense Evaluation and Research Agency (DERA) are range sensors using Ultra Wide Band (UWB) radar

Author:  none  

Pages/Year: 16 /1999

 

This paper is continue of "System Design and Verification of the Pandora Multifrequency Radar"

Author:  M.Jankiraman , B.J. Wessels , P. van Genderen  

Pages/Year: 6 /1999

 

DRH- 0532 double- ridged horn antenna is linearly polarized and operates over a frequency range of 0.5 to 3.2 GHz. This antenna has gain, bandwidth, and power handling characteristics which are ideal for EW and EMI susceptibility testing, and can replace numerous separate antennas in laboratory and field applications. Unlike log- periodic or spiral antennas, the DRH- 0532 has low dispersion when used with short pulse signals. This characte-ristic combined with a wide instantaneous bandwidth, excellent power handling, and relatively large power gain makes these antennas ideal for ultra- wide- band (UWB) radar and imaging applications. Example: DRH- 0532 specifies a 0.5 to 3.2 GHz antenna with the standard type- N connector Typical Antenna Patterns, Model DRH- 0532

Author:  none  

Pages/Year: 2 /1999