K.K. Bae scite author profile

In this paper, a global optimization technique is applied to solve the optimal transmitter placement problem for indoor wireless systems. An efficient pattern search algorithm-DIRECT (DIviding RECTangles) of Jones, Perttunen, and Stuckman (1993)-has been connected to a parallel 3D radio propagation ray tracing modeler running on a 200node Beowulf cluster of Linux workstations. Surrogate functions for a parallel WCDMA (wideband code division multiple access) simulator were used to estimate the system performance for the global optimization algorithm. Power coverage and BER (bit error rate) are considered as two different criteria for optimizing locations of a specified number of transmitters across the feasible region of the design space. This paper briefly describes the underlying radio propagation and WCDMA simulations and focuses on the design issues of the optimization loop.

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Development of a case-based reasoning cognitive engine for IEEE 802.22 WRAN applications

Gaeddert

Bae

et al. 2009

SIGMOBILE Mob. Comput. Commun. Rev.

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On Nov. 4 2008, the Federal Communications Commission adopted rules for unlicensed use of television white spaces. The IEEE 802.22 Wireless Regional Area Networks (WRAN) standard is the first IEEE standard utilizing cognitive radio (CR) technology to exploit the television white space. A decision engine that is able to respond to the changes in the radio environment is necessary to efficiently exploit underutilized spectrum resources and avoid interfering with the licensed systems (e.g., TV services). This paper discusses the development of a case-based reasoning cognitive engine (CBR-CE) for the IEEE 802.22 WRAN applications. The performance of the CBR-CE is evaluated under various radio scenarios and compared to that of several multi objective search based algorithms, including the hill climbing search (HCS) and the genetic algorithm (GA). The simulation results show that the developed CBR-CE can achieve comparable utility with faster adaptation than the search based cognitive engines after appropriate training / learning. The learning process of the CBR is also simulated and discussed.

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Minimizing Energy Consumption Using Cognitive Radio

Srikanteswara

Reed

et al. 2008

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K.K. Bae

Cyclostationary Approaches to Signal Detection and Classification in Cognitive Radio

A Survey of Artificial Intelligence for Cognitive Radios

Applying Radio Environment Maps to Cognitive Wireless Regional Area Networks

In-building wideband multipath characteristics at 2.5 and 60 GHz

Overhead Analysis for Radio Environment Mapenabled Cognitive Radio Networks

Globally Optimal Transmitter Placement for Indoor Wireless Communication Systems

Development of a case-based reasoning cognitive engine for IEEE 802.22 WRAN applications

Minimizing Energy Consumption Using Cognitive Radio

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