EE359 - Wireless Communications -
Fall 2003
Class Projects
-
Techniques in Adaptive Modulation,
Ezra Ip (wavelet@stanford.edu).
-
Pilot channel filtering effect on cdma2000 systems,
Wonchae Kim (winc76@stanford.edu).
-
The Alamouti Code in MIMO-CDMA: Effects of the spreading sequences on performance,
Iker Almandoz (almandoz@stanford.edu).
-
Channel Capacity of MIMO Wireless Systems Under Correlated Fading,
Gang Xie (gangxie@stanford.edu).
-
Non - Linear Detection Techniques for Multi-user OFDM / MC-CDMA,
Anand Mohanrangan (anandmr@stanford.edu).
-
Dense Wireless Ad Hoc Relay Networks: Capacity Limits,
Navid Hassanpour (navid@stanford.edu).
-
Overview of Wireless ATM,
Mona Wong (monawong@stanford.edu).
-
Estimation of Source Location and Direction by Using Multiple Signal Classification Method,
Payman Shanjani (paymans@stanford.edu).
-
OFDM: Synchronization Issues,
Sriram Rajagopal (sriramr@stanford.edu).
-
Congestion-Distortion Optimized Scheduling of Video over a Wireless Link,
Eric Setton (esetton@stanford.edu).
-
Power Control for Wideband-CDMA,
Pin-chou Chiang (pinchou@stanford.edu).
-
From 2G To 3G: Universal Mobile Telecommunications System (UMTS),
Serdar Yilmaz (srdrylmz@stanford.edu).
-
Reductions in Energy Consumption in Sensor Networks Through Utilization of Data Correlation,
Neil Achtman (neil18@stanford.edu).
-
Estimation of Mobile Speed in Wireless Systems,
Hyunok Lee (holee02@stanford.edu).
-
Reducing The Peak-To-Average Power Ratio In OFDM,
Kevin Huang (kevhuang@stanford.edu).
-
Broadband Wireless Networks,
Veniamin Bourakov (veniamin@stanford.edu).
-
A Light-weight proactive unicast routing protocol for Mobile Ad-hoc Networks (MANETs),
Mukesh Hira(mukesh@stanford.edu).
-
Uniform Rate Capacity for Fading Broadcast Channels,
Chris T. K. Ng (Chris.Ng@stanford.edu).
-
QoS Routing in Mobile Ad Hoc Networks,
Eric Thea (ethea@stanford.edu).
-
Performance of Spreading Codes for Direct Sequence Code Division Multiple Access (DS-CDMA),
Alex Chow (achow@stanford.edu).
-
Efficient modeling of flat fading channel: Finite State Markov Model and Hidden Markov Model,
Taesup Moon (tsmoon@stanford.edu).
-
Wireless In Local Loop-An Overview,
Roshni Pattabiraman (roshpat@stanford.edu).
-
Energy efficiency of Sensor Networks using Cooperative MIMO Techniques,
Linda Pan (lypan@stanford.edu).
-
A Critical comparison of MAC protocol for wireless ATM,
Jing Xu (xujing@stanford.edu).
-
Performance of Multi-User Phased Chirp Modulation Spread Spectrum over Flat Fading Channels,
Stephan Hengstler (stephan_hengstler@agilent.com).
-
Simple Transmit Diversity Techniques for Wireless Communications,
Minh-Anh Quoc Vuong(mavuong@stanford.edu).
-
Capacity issues and Adaptive Modulation in correlated fading MIMO systems,
Suchit Kaul (suchitk@stanford.edu).
-
802-11 in Asia,
Jianbo Wang (jianbo@stanford.edu).
-
Performance Analysis of Multicarrier DS-CDMA systems over Nakagami-m Fading Channels,
Sumanth Jagannathan (sumanthj@stanford.edu).
-
Design of Support Vector Machine Decision Feedback Equalizer Using Space Transition Properties,
Chiang-yu Chen (carbene@stanford.edu).
-
Robust Backoff Algorithms in Wireless Ad-Hoc Systems,
Navanit Vijay Arakeri (arakeri@stanford.edu).
-
Calculation of capacity for ad hoc wireless networks,
Vahideh HosseiniKhah Manshadi(vahidehh@stanford.edu).
-
Simulation of Ad Hoc Network Connectivity Based On Capacity Criterion,
Sangwook Ha (swha@stanford.edu).
-
A study of QoS and Mobility in Variable Bandwidth Environments,
Stavroula Kampouridou (stav@stanford.edu).
-
Throughput and Delay in Mobile Ad Hoc Networks,
Changhua He(changhua@stanford.edu).
-
Maximizing End-To-End QoS Guarantees under Multipath Transmission for
Video over Ad-Hoc Networks,
Rajiv Agarwal (rajivag@stanford.edu).
-
A Channel Assignment and Power Control in Single-Hop Ad Hoc Networks,
Donghyun Kim(kidhyun@stanford.edu).
-
Comparison of Cable-Replacement Technologies,
Naseem Haki(naseem@stanford.edu).
-
Capacity Improvement in a Slotted-ALOHA Network with Adaptive Antennas,
Alireza Khalili (alirezaa@stanford.edu).