- NewUser Identification in a CDMA System Karen W. Halford, Student Member, IEEE and Mait'e BrandtPearce, Member, IEEE
- EFFECTS OF SOURCE COHERENCE AND DISPERSION ON THE PERFORMANCE OF DIRECTDETECTION FIBEROPTIC
- USER IDENTIFICATION AND MULTIUSER DETECTION OF L OUT OF K USERS IN A CDMA SYSTEM
- Blind Decorrelation of Asynchronous Multiuser Signals using FractionallySpaced Sampling
- AllOptical Linear Detection for Optical CDMA Communication Mait'e BrandtPearce
- Submitted for publication to the IEEE Trans. on Comm., April 97 Signal Separation using Fractional Sampling in Asynchronous Multiuser
- Performance Analysis of Singleuser and Multiuser Detectors for Optical Code Division Multiple
- Bandwidth Efficient Multiuser Communication Systems Ma t e BrandtPearce
- ANALYSIS OF WAVELENGTH DIVISION MULTIPLEXED (WDM) SYSTEMS USING A VOLTERRA SERIES APPROACH
- To appear in the Journal of Lightwave Technology, Fall 1998 Volterra Series Approach for Optimizing FiberOptic Communications
- Dispersion Limited FiberOptic CDMA Systems with Overlapped Signature Sequences Fritz B. Mezger
- STUDY OF FIBER NONLINEARITIES IN COMMUNICATION SYSTEMS USING A VOLTERRA SERIES TRANSFER FUNCTION
- MAXIMUM LIKELIHOOD DETECTION AND ESTIMATION FOR NEW USERS IN CDMA
- PERFORMANCE OF A MULTISTAGE MULTIUSER DETECTOR FOR A FREQUENCY HOPPING MULTIPLEACCESS SYSTEM
- MULTIUSER DETECTION FOR COHERENT OPTICAL CDMA COMMUNICATION SYSTEMS
- Multistage Multiuser Detection for FHMA Karen W. Halford and Mait'e BrandtPearce
- Volterra Series Transfer Function of SingleMode Fibers Kumar V. Peddanarappagari and Ma t e BrandtPearce 1
- Variational analysis of optimal pulse widths in dispersive nonlinear fibers M. BrandtPearce, Departmental of Electrical Engineering, University of Virginia, Charlottesville VA
- Design of Fiber Amplifier Based Communication Systems Using a Volterra Series Approach Kumar V. Peddanarappagari, and Mat e BrandtPearce 2
- Performance of a Directdetection Fiberoptic Communication System in the Presence of Dispersion and Laser Phase Noise
- NearOrthogonal Coding for Spread Spectrum and Error Correction Karen W. Halford, Yaron Rozenbaum 1 , and Mait'e BrandtPearce 2
