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Journals & Magazines >IEEE Transactions on Vehicula... >Volume: 58 Issue: 7

Multiple Rake Combiners and Performance Improvement in 3G and Beyond WCDMA Systems

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Davinder S. Saini; Manoj Upadhyay
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Abstract:

We propose an efficient code-assignment scheme utilizing multiple rake combiners to avoid the code-blocking problem in third-generation (3G) and beyond wideband code-divi...Show More

Metadata

Abstract:

We propose an efficient code-assignment scheme utilizing multiple rake combiners to avoid the code-blocking problem in third-generation (3G) and beyond wideband code-division multiple-access (WCDMA) systems based upon orthogonal variable spreading factor (OVSF) channelization codes. The multiple rake combiners are required to be equipped with each base station (BS) and user equipment (UE). The major benefit of the proposed assignment scheme is in handling nonquantized data rates, making internal code fragmentation approximately zero. The task of code assignment to handle quantized data rates is divided into three steps. In the first step, the number of terms satisfying the capacity equation is found. The code combinations for all the terms in step 1 are found in step 2, which can be further subdivided into terms producing unique combinations and multiple combinations of terms. The procedure for finding the optimal code combination according to the number of rake combiners available at the UE and BS is given in step 3. Simulation results show the performance improvement in terms of reduction in blocking probability compared with existing single-code assignment schemes.
Published in: IEEE Transactions on Vehicular Technology ( Volume: 58, Issue: 7, September 2009)
Page(s): 3361 - 3370
Date of Publication: 18 February 2009

ISSN Information:

DOI: 10.1109/TVT.2009.2015143
Author image of Davinder S. Saini
Department of Electronics and Communication, Jaypee University of Information Technology, Waknaghat, India
Davinder S. Saini was born in Nalagarh, India, in January 1976. He received the B.E. degree in electronics and telecommunication engineering from the College of Engineering Osmanabad, Osmanabad, India, in 1998, the M.Tech. degree in communication systems from the Indian Institute of Technology, Roorkee, India, in 2001, and the Ph.D. degree in electronics and communication from the Jaypee University of Information Technolo...Show More
Davinder S. Saini was born in Nalagarh, India, in January 1976. He received the B.E. degree in electronics and telecommunication engineering from the College of Engineering Osmanabad, Osmanabad, India, in 1998, the M.Tech. degree in communication systems from the Indian Institute of Technology, Roorkee, India, in 2001, and the Ph.D. degree in electronics and communication from the Jaypee University of Information Technolo...View more
Author image of Manoj Upadhyay
Bharat Sanchar Nigam Limited, New Delhi, India
Manoj Upadhyay was born in Agra, India, in July 1982. He received the B.Tech. degree in electronics and communication engineering from Uttar Pradesh Technical University, Lucknow, India, in 2004 and the M.Tech. degree in optical and wireless communication technologies from the Jaypee University of Information Technology, Waknaghat, India, in 2008.
From July 2008 to January 2009, he was with Siemens India Ltd. as an Enginee...Show More
Manoj Upadhyay was born in Agra, India, in July 1982. He received the B.Tech. degree in electronics and communication engineering from Uttar Pradesh Technical University, Lucknow, India, in 2004 and the M.Tech. degree in optical and wireless communication technologies from the Jaypee University of Information Technology, Waknaghat, India, in 2008.
From July 2008 to January 2009, he was with Siemens India Ltd. as an Enginee...View more
Contents

I. Introduction

Third-Generation (3G) and beyond universal mobile telecommunications system terrestrial radio access–frequency-division duplexing [1] systems use wideband code-division multiple-access (WCDMA) [2] technology incorporating direct-sequence spreading [3] as a multiple-access method. The data and control channels in the uplink/downlink uses two sets of codes known as scrambling codes and channelization codes. The scrambling code is the identity of each base station (BS) and user equipment (UE) and is unique for each BS and UE. The channelization codes in WCDMA are orthogonal variable spreading factor (OVSF) codes. The OVSF codes are used for data spreading and rate matching in the WCDMA system. The use of OVSF codes leads to a constant channel chip rate for all the users, irrespective of the call bit rate.

Author image of Davinder S. Saini
Department of Electronics and Communication, Jaypee University of Information Technology, Waknaghat, India
Davinder S. Saini was born in Nalagarh, India, in January 1976. He received the B.E. degree in electronics and telecommunication engineering from the College of Engineering Osmanabad, Osmanabad, India, in 1998, the M.Tech. degree in communication systems from the Indian Institute of Technology, Roorkee, India, in 2001, and the Ph.D. degree in electronics and communication from the Jaypee University of Information Technology, Waknaghat, India, in 2008.
Since June 2002, he has been with the Jaypee University of Information Technology, where he is currently an Assistant Professor with the Department of Electronics and Communication. His research areas include channelization (OVSF) codes and optimization in wideband code-division multiple-access, routing algorithms, and security issues in mobile ad hoc networks.
Davinder S. Saini was born in Nalagarh, India, in January 1976. He received the B.E. degree in electronics and telecommunication engineering from the College of Engineering Osmanabad, Osmanabad, India, in 1998, the M.Tech. degree in communication systems from the Indian Institute of Technology, Roorkee, India, in 2001, and the Ph.D. degree in electronics and communication from the Jaypee University of Information Technology, Waknaghat, India, in 2008.
Since June 2002, he has been with the Jaypee University of Information Technology, where he is currently an Assistant Professor with the Department of Electronics and Communication. His research areas include channelization (OVSF) codes and optimization in wideband code-division multiple-access, routing algorithms, and security issues in mobile ad hoc networks.View more
Author image of Manoj Upadhyay
Bharat Sanchar Nigam Limited, New Delhi, India
Manoj Upadhyay was born in Agra, India, in July 1982. He received the B.Tech. degree in electronics and communication engineering from Uttar Pradesh Technical University, Lucknow, India, in 2004 and the M.Tech. degree in optical and wireless communication technologies from the Jaypee University of Information Technology, Waknaghat, India, in 2008.
From July 2008 to January 2009, he was with Siemens India Ltd. as an Engineer Trainee, working on the communication methodologies deployed in power plants. Since February 2009, he has been a Junior Telecom Officer with Bharat Sanchar Nigam Ltd., New Delhi, India. His research and working interests include third-generation and beyond mobile communication systems, wideband code division multiple access channelization codes, ad hoc networks, wide local area network and WiMax technologies, and optical fiber communication.
Manoj Upadhyay was born in Agra, India, in July 1982. He received the B.Tech. degree in electronics and communication engineering from Uttar Pradesh Technical University, Lucknow, India, in 2004 and the M.Tech. degree in optical and wireless communication technologies from the Jaypee University of Information Technology, Waknaghat, India, in 2008.
From July 2008 to January 2009, he was with Siemens India Ltd. as an Engineer Trainee, working on the communication methodologies deployed in power plants. Since February 2009, he has been a Junior Telecom Officer with Bharat Sanchar Nigam Ltd., New Delhi, India. His research and working interests include third-generation and beyond mobile communication systems, wideband code division multiple access channelization codes, ad hoc networks, wide local area network and WiMax technologies, and optical fiber communication.View more
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