Publication Type:

Conference Paper

Source:

2015 International Conference on Computer Communication and Informatics (ICCCI), IEEE, Coimbatore, India (2015)

URL:

http://ieeexplore.ieee.org/document/7218086/

Keywords:

Analytical models, broadband wireless access system, BWA system, computational modeling, data wireless, ECC model, frequency 2.6 GHz, frequency 3.5 GHz, IEEE 802.16 WiMax frequency, mathematical model, MatLab simulation software, mobile station, Path loss, Path loss models, Propagation losses, radio access networks, Received signal strength, receiver antenna, Receiving antennas, Road transportation, RSS, RSS terrains, RSSI, SIMO, single input multiple output, transmitter antenna, Transmitting antennas, urban terrain, voice communication, voice transmission, WiMax, Wimax communication, worldwide interoperability of microwave access technology

Abstract:

In recent days the Worldwide Interoperability of Microwave Access (Wimax) technology has become popular and receives acceptance as a broadband wireless access (BWA) system [5]. Wimax communication, which enables transmission of voice and data wireless in urban and highway environments [5]. In this study we considered, Wimax frequency 2.6 GHz and 3.5 GHz in urban and highway for RSS terrains [2]. RSS(Receiving Signal Strength) to measure the power between base station(BS) and mobile station(MS)[8]. RSS becomes efficient coverage, when base station proximity near to mobile station [8]. RSS deteriorates, when mobile station moves far from base station. Variation in signal strength from transmitter(Tx) and receiver antenna (Rx) would be considered as path loss [8]. In our work, the analysis is done using MAT Lab simulation software. With different path loss models, considering urban and highway terrains with RSS for given WiMax frequency in SIMO (Single Input Multiple Output) channel[5]. We have proposed ECC model is better since this model supports frequency greater than 3.0 GHz [2].

Cite this Research Publication

Dr. N. Rakesh and Sandhya, K., “Performance analysis of Received Signal Strength with 2.6GHz and 3.5GHz for IEEE 802.16 WiMax frequency in urban terrain”, in 2015 International Conference on Computer Communication and Informatics (ICCCI), Coimbatore, India, 2015.