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  Partner: UNT College of Engineering
 Decade: 2000-2009
UMTS Capacity and Throughput Maximization for Different Spreading Factors

UMTS Capacity and Throughput Maximization for Different Spreading Factors

Date: July 2006
Creator: Akl, Robert G. & Nguyen, Son
Description: This article discusses UMTS capacity and throughput maximization for different spreading factors.
Contributing Partner: UNT College of Engineering
Optimal Access Point Selection and Traffic Allocation in IEEE 802.11 Networks

Optimal Access Point Selection and Traffic Allocation in IEEE 802.11 Networks

Date: July 2005
Creator: Akl, Robert G. & Park, Sangtae
Description: This paper discusses optimal access point selection and the traffic allocation in IEEE 802.11 networks.
Contributing Partner: UNT College of Engineering
Global versus Local Call Admission Control in CDMA Cellular Networks

Global versus Local Call Admission Control in CDMA Cellular Networks

Date: July 2004
Creator: Akl, Robert G. & Parvez, Asad
Description: This presentation discusses interference model impacts on capacity, global call admission controls, local call admission controls, and the differences in global versus local call admission controls.
Contributing Partner: UNT College of Engineering
Global versus Local Call Admission Control in CDMA Cellular Networks

Global versus Local Call Admission Control in CDMA Cellular Networks

Date: July 2004
Creator: Akl, Robert G. & Parvez, Asad
Description: This paper discusses global versus local call admission control.
Contributing Partner: UNT College of Engineering
Impact of Interference Model on Capacity in CDMA Cellular Networks

Impact of Interference Model on Capacity in CDMA Cellular Networks

Date: July 2004
Creator: Akl, Robert G. & Parvez, Asad
Description: This presentation introduces code division multiple access (CDMA) networks, average and actual interference models, optimized capacity, and the 2D Gaussian user model.
Contributing Partner: UNT College of Engineering
Impact of Interference Model on Capacity in CDMA Cellular Networks

Impact of Interference Model on Capacity in CDMA Cellular Networks

Date: May 2004
Creator: Akl, Robert G. & Parvez, Asad
Description: This paper discusses an impact of interference model on capacity in CDMA cellular networks.
Contributing Partner: UNT College of Engineering
Hybrid Energy-Aware Synchronization Algorithm in Wireless Sensor Networks

Hybrid Energy-Aware Synchronization Algorithm in Wireless Sensor Networks

Date: September 2007
Creator: Akl, Robert G. & Saravanos, Yanos
Description: This paper discusses a time synchronization scheme for wireless sensor networks that aims to conserve sensor battery power while maintaining network connectivity for as long as possible.
Contributing Partner: UNT College of Engineering
Grid-based Coordinated Routing in Wireless Sensor Networks

Grid-based Coordinated Routing in Wireless Sensor Networks

Date: January 2007
Creator: Akl, Robert G. & Sawant, Uttara
Description: This paper discusses grid-based coordinated routing in wireless sensor networks and compares the energy available in the network over time for different grid sizes. The authors explore the quality of service of wireless sensor networks, how the coordinator nodes are elected, and the size of the grid area that will minimize the total energy consumption and extend the lifetime of the network.
Contributing Partner: UNT College of Engineering
Mobility-Based CAC Algorithm for Arbitrary Call-Arrival Rates in CDMA Cellular Systems

Mobility-Based CAC Algorithm for Arbitrary Call-Arrival Rates in CDMA Cellular Systems

Date: March 2005
Creator: Akl, Robert G.; Hegde, Manju V. & Naraghi-Pour, Mort
Description: Article on a mobility-based CAC algorithm for arbitrary call-arrival rates in CDMA cellular systems.
Contributing Partner: UNT College of Engineering
Call Admission Control Scheme for Arbitrary Traffic Distribution in CDMA Cellular Systems

Call Admission Control Scheme for Arbitrary Traffic Distribution in CDMA Cellular Systems

Date: September 2000
Creator: Akl, Robert G.; Hegde, Manju V.; Naraghi-Pour, Mort & Min, Paul S.
Description: This presentation discusses call admission control (CAC). The authors define a set of feasible call configurations that results in a CAC algorithm that captures the effect of having an arbitrary traffic distribution and whose complexity scales linearly with the number of cells.
Contributing Partner: UNT College of Engineering