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Search Publications by: Ronald Wittmann (Assoc)

Displaying 51 - 75 of 158

Sources of Uncertainty for Near-Field Measurements

November 11, 2007

Author(s)

Michael H. Francis, Ronald C. Wittmann

We discuss the sources of uncertainty in near-field measurements and their impact on far-field antenna parameters. The methods of estimating these uncertainties can be considered in three broad categories: theoretical estimation (analytical), computer

Planar Near-Field Measurements Results up to 94 GHz Using Probe Position Correction

October 30, 2005

Author(s)

Jeffrey R. Guerrieri, Katherine MacReynolds, Michael H. Francis, Ronald C. Wittmann, Douglas T. Tamura

This paper presents results of planar near-field measurements at 16, 35 and 94 GHz using probe position correction algorithms. The algorithms correct for position errors of the probe near the scan plane. The probe?s actual position is measured using a

Proximity effects in the calibration of microwave radiometers

October 1, 2005

Author(s)

Ronald C. Wittmann, Amanda Cox, Randy Direen

Microwave, total-power radiometers are calibrated by observing sources of known brightness temperature. Free-space calibrations are usually performed assuming far-field interactions, although the actual calibration source may be well into the near-field

Uncertainties in Spherical Near-Field Antenna Measurements

August 3, 2005

Author(s)

Michael H. Francis, Ronald C. Wittmann, Jin-Seob Kang

A general approach is presented for estimating uncertainties in far-field parameters obtained from spherical near-field antenna measurements. The error is approximately bounded in terms of the uncertainty of the probe's receiving pattern and the

CORRECTING FOR NONIDEAL PROBE LOCATIONS IN NEAR-FIELD SCANNING MEASUREMENTS OF ANTENNA PARAMETERS

June 8, 2005

Author(s)

Ronald C. Wittmann, Michael H. Francis, Bradley K. Alpert

We discuss efficient near-field to far-field transformation algorithms that relax the usual restriction that data points be located on regular grids on special surfaces (planar, spherical, or cylindrical).

Spherical-Scanning Measurements: Propagating Errors through the Near- to Far-Field Transformation

October 22, 2004

Author(s)

Ronald C. Wittmann, Michael H. Francis

We estimate uncertainties in the test antenna transmitting function due to uncertainties in the near-field measurements and in the probe receiving function.

Estimating Multiple-Reflection Uncertainties in Spherical Near-Field Measurements

October 17, 2004

Author(s)

Michael H. Francis, Jeffrey R. Guerrieri, Katherine MacReynolds, Ronald C. Wittmann

We propose a method to estimate multiple-reflection effects on test-antenna pattern and gain uncertainties in the far field derived from spherical near-field measurements. To estimate these uncertainties we make a near-field measurements on two spheres

Practical Implementation of Probe-Position Correction in Near-field Planar Scanning Measurements

October 17, 2004

Author(s)

Jeffrey R. Guerrieri, Katherine MacReynolds, Michael H. Francis, Ronald C. Wittmann, Douglas T. Tamura

Planar near-field measurements require taking amplitude and phase data on an accurate and equal space grid on the plane in front of the antenna under test. The position accuracy on this grid has been determined to be '/50. As frequencies become higher

Uncertainty Analysis for Spherical Near-Field Measurement

October 19, 2003

Author(s)

Michael H. Francis, Ronald C. Wittmann

A general approach is introduced for estimating uncertainties in far-field paramenters from spherical near-field measurements. Although the analysis is incomplete at present, we expect that as the measurement radius increases, our results will transform

Spherical Near-Field Antenna Measurements Using Nonideal Measurement Locations

November 8, 2002

Author(s)

Ronald C. Wittmann, Bradley Alpert, Michael H. Francis

We introduce a near-field spherical scanning algorithm that relaxes the usual condition requiring data points to be on a regular spherical grid. Computational complexity is of the same order as for the standard (ideal-positioning) spherical-scanning

Spherical Scanning Measurements Using Truncated Data Sets

November 8, 2002

Author(s)

Ronald C. Wittmann, Carl F. Stubenrauch, Michael H. Francis

We discuss the mitigation of truncation errors in spherical scanning measurement. The main emphasis is the spherical harmonic representation of probe transmitting and receiving functions; however, our method is applicable to near-field measurement of

Remote, Near-Field Measurement of Large Antennas

August 17, 2002

Author(s)

Ronald C. Wittmann, Michael H. Francis

It is difficult to characterize many antenna systems in a laboratory environment. Size is the major consideration, but an increasing number of sophisticated antennas are being placed at remote sites where they are simply inaccessible. Of particular concern

Test-Chamber Imaging Using Spherical Near-Field Scanning

October 1, 2001

Author(s)

Ronald C. Wittmann, Michael H. Francis

Although the theory is straightforward, practical implementation of spherical near-field scanning for evaluating test chambers presents some significant challenges. Among these are the requirement for accurate probe positioning and the difficulty in