Recent Projects

Title
Principal Investigator(s)
Sponsor
ITR: Cooperative Communication Schemes for Wireless Networks
T. Wong

J. Shea 

Y. Fang

National Science Foundation
Reconfigurable Multi-node Wireless Communication Testbed
T. Wong

J. Shea 

Y. Fang

National Science Foundation
Comparative Study of Spread Spectrum and Time Modulation Ultra-Wideband Communications.
T. Wong

J. Shea 

Y. Fang

Air Force Research Lab.
Collaborative Transmission and Reception
T. Wong

J. Shea 

Y. Fang

Office of Naval Research
Secure and Power Efficient Protocols for Reliable Data Delivery for Heterogeneous Tactical Ad Hoc Networks
Y. Fang
Office of Naval Research, Young Investigator Award
Intelligent Resource Management and Performance Evaluation for Wireless Mobile Networks Supporting Integrated Services
Y. Fang
NSF
OFDM Technologies and QoS MAC Protocols for Fixed Wireless LAN
Y. Fang

T. Wong

J. Shea 

Samsung
Powerline Communications and Networking Research
Y. Fang
Samsung
CIT Coordination
H. Latchman
NSF
College Wide ALN Server -CIT TBCD OB2
H. Latchman
NSF
Dissemination Team (Marc Hoit)
H. Latchman
NSF
Establishment of the SloanCenter for Information Technology-Enhanced Learning
H. Latchman
Sloan Foundation
Technology Based Curriculum Delivery
H. Latchman
NSF
Video Teleconferencing over Packet Networks
H. Latchman
UF Foundation/IBM
TAMA Protocol Simulation Studies
H. Latchman

R.Newman

Intellon
Multiple Transmit and Receive Antennas for WLANs Signal Processing Algorithms
J. Li
Intersil
Spectral Analysis of Gapped or Missing Data
J. Li
NSF
Acquisition and Recognition of Moving Targets and Enabling Technologies
J. Li

J. Principe

US Air Force

DARPA

Algorithms and Implementation for OFDM Based Wireless LAN
J. Li

K.Gugel

NSF
Super Resolution Techniques for Mine Detection via Ground Penetrating Radar
J. Li

J. Kurtz

US Army
FACES Career Initiation
J.McNair
GA Inst. of Tech.
Adaptive Protocols for Mobile Wireless Networks
J. Shea
Clemson Univ. DOD
Concatenated Coding Schemes for Mobile Wireless Communications Engineering Education
J. Shea
SE Center for Electrical
Research and Development Study to Evaluate the Power Bandwidth-Efficient Signal in a Jamming Environment
J. Shea
MIT Lincoln Labs
Adaptive Transmitter Design for Wireless Communication Systems
T. Wong
Oak Ridge Associated Universities
Antenna Diversity and Advanced Coding Schemes for 100 Mbps Wireless LAN
T. Wong
Intersil
Efficient Data-Link Protocols for Wireless Optimal-Sequence CDMA Systems 
T. Wong
SE Center for Electrical Engineering Education
Research in Residential Powerline Communication Systems
T. Wong

J. Shea

Intellon
5.8 GHz CMOS Frequency Synthesizers
K.O
Motorola
A 2.4 GHz Transceiver for Wireless LAN Applications Implemented in a 0.25 -um CMOS Technology
K.O
Intersil
A 5.8 GHz Transceiver for Wireless LAN Applications Implemented in a 0.18-um CMOS Technology
K.O
Intersil
Analog Devices: Effects of Substrate Conduction on RF Performance of Si-Ge Bipolar Circuits for Wireless Applications
K.O
Analog Devices
Applications of Deep Submicron CMOS Technologies for RF and Microwave Circuits
K.O
UF Foundation

IBM

Evaluation of RF Components in a 0.18 CMOS Process
K.O
Taiwan Semiconductor Manufacturing Corp.
Evaluation of Utilizing PMOS Transistors in a 0.18 um CMOS Process for 2.4 GHz
K.O
Texas Instruments

IBM Cooperative Fellowship for Yo-Chuol Ho
K.O
IBM
Implementation of RF Switches in Low Cost Bulk CMOS Technologies
K.O
NSF
Inter and Intra-chip Clock Signal Distribution Using Microwaves Corporation
K.O
Semiconductor Research
Investigation of Inductors
K.O
UF Foundation
RF Building Blocks Implemented in a 0.25um CMOS Process for Wireless Applications
K.O
Winbond
RF Building Blocks Implemented in a 0.25-um CMOS Process for Wireless Applications, Phase 2
K.O
Winbond
Semiconductor Research Corporation Fellowship for Brian Floyd
K.O
Semiconductor Research Corp.
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