A system level hardware/software partition of a mimo-ofdm system for systemc modeling
Titulo:

A system level hardware/software partition of a mimo-ofdm system for systemc modeling
.

Sumario:

This paper presents the design process and description at the system level of a communication system based on Multiple Input-Multiple Output and Orthogonal Frequency Division Multiplexing (MIMO-OFDM). These are used in fourth generation (4G) systems, due to the performance improvement when facing rapidly changing wireless environments. Hardware/software partitioning is taken under consideration for the design, with developed criteria for measuring system performance. The design and validation of the system is made using SystemC language. This is part of a research work, carried out in order to study and establish an appropriate methodology for Hardware/Software co-design.

Guardado en:

Ingenium Revista de la facultad de ingeniería

0124-7492

Eslava G., Sebastian

Sanchez, Carlos

Muñoz Morales, Catalina

UNIVERSIDAD DE SAN BUENAVENTURA

10.21500/01247492.1337

14

2013-09-10

95

108

Colombia

SystemC

MIMO

OFDM

Hardware/Software partitioning

Ingenium - 2015

info:eu-repo/semantics/openAccess

http://purl.org/coar/access_right/c_abf2

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spelling A system level hardware/software partition of a mimo-ofdm system for systemc modeling
A system level hardware/software partition of a mimo-ofdm system for systemc modeling
This paper presents the design process and description at the system level of a communication system based on Multiple Input-Multiple Output and Orthogonal Frequency Division Multiplexing (MIMO-OFDM). These are used in fourth generation (4G) systems, due to the performance improvement when facing rapidly changing wireless environments. Hardware/software partitioning is taken under consideration for the design, with developed criteria for measuring system performance. The design and validation of the system is made using SystemC language. This is part of a research work, carried out in order to study and establish an appropriate methodology for Hardware/Software co-design.
Eslava G., Sebastian
Sanchez, Carlos
Muñoz Morales, Catalina
SystemC
MIMO
OFDM
Hardware/Software partitioning
14
28
Núm. 28 , Año 2013 : INGENIUM
Artículo de revista
Journal article
2013-09-10T00:00:00Z
2013-09-10T00:00:00Z
2013-09-10
application/pdf
Universidad San Buenaventura - USB (Colombia)
Ingenium
0124-7492
https://revistas.usb.edu.co/index.php/Ingenium/article/view/1337
10.21500/01247492.1337
https://doi.org/10.21500/01247492.1337
spa
https://creativecommons.org/licenses/by-nc-sa/4.0/
Ingenium - 2015
95
108
Hongwei Yang, Ltd, «A Road to Future Broadband Wireless Access: mimo-ofdm-Based Air Interface», Vol. 43, 2005,Issue 1, Communications Magazine, ieee, pp. 53-60.
Sampath, H., Talwar, S., Tellado, J., Erceg, V. and Paulraj, A., «A Fourth Generation mimo-ofdm Broadband Wireless System: Design, Performance and Field Trial Results», Vol. 40 2002, Issue 9, Communications Magazine, ieee, pp. 143-149.
Peter Arato, Sandor Juhasz, 201th Adam Mann, Andras Orban, David Papp, Hardware-software partitioning in embedded system design, Intelligent Signal Processing, 2003 ieee International Symposium on, pp. 107-202, 2003.
Raj, S. Mitra and Anupam Basu, «Hardware/Sowftarw Partitioning: a Case of Constraint satisfaction», Intelligent Systems and their Applications, ieee , Vol. 15, 2000, Issue 1, pp. 54-63.
Dongwan Shin, Andreas Gerstlauer, Rainer Dömer and Daniel D. Gajski, «System-on-Chip Communication Modeling Style Guide», Technical Report cecs-tr-03-45, Center for Embedded Computer Systems, University of California, Irvine,2004.
Chuang, G.C.H. «a mimo wimax soc in 90nm cmos for 300km/h mobility” Solid-State Circuits Conference Digest of Technical Papers (isscc), 2011, pp. 134-136.
Lajos Hanzo, Yosef (Jos) Akhtman and Li Wang, «mimo-ofdm for lte, Wi-Fi and Wimax: Coherent versus Non-coherent and Cooperative Turbo Transceivers», John Wiley & Sons Ltd, 2010.
Yong Soo Cho, Jaekwon Kim, Won Young Yang and Chung G. Kang, «mimo-ofdm Wireless Communications with matlab®», John Wiley & Sons, 2011.
Intel, «wimax Base Station Proof of Concept», 2009.
Fujitsu Microelectronics America, Inc, «The Fujitsu WiMAX 802.16-2004 SoC Programming Guide», 2005.
Yuan Li, Ying-Chang Liang, Sumei Sun and Rui Zhang, «Adaptive Trellis and Bit-Interleaved Codedmodulation for Ordered mimoofdm Channels», ieee 16th International Symposium on Personal, Indoor and Mobile Radio Communications, pp. 226-230, 2005.
Xiaodong Li, and James A. Ritcey, «Trellis-Coded Modulation with Bit Interleaving and Iterative Decoding», ieee Journal On Selected Areas In Communications, vol. 17, 1999, n.o 4, pp. 715-724.
I. S. Reed Solomon, «Polynomial Codes Over Certain Finite Fields», Journal of the Society for Industrial and Applied Mathematics, Vol. 8, 1960, n.o 2.
G. D. Forney, Jr., «Convolutional codes I: Algebraic structure», ieee Trans. Information Theory, Vol. IT-16, 1970, pp. 720-738.
C. Berrou, A. Glavieux and P. Thitimajshima. «Near Shannon limit error- correcting coding and decoding: Turbo codes», Proc. 1993 Int. Conf. Comm., 1993, pp. 1064-1070.
S. Alamouti, «Space block coding: A simple transmitter diversity technique for wireless communications», ieee J. Select. Areas Commun, Vol. 16, pp. 1451-1458, Oct. 1998.
R. M. Fano, «A Heuristic Discussion of Probabilistic Decoding», ieee Trans. Inf. Theory, Vol. 9, n.o 2, pp. 64-74, Apr. 1963.
Viterbi, A. «Error Bounds For Convolutional Codes and an Asymptotically optimum Decoding Algorithm», ieee Trans. Inf. Theory, Vol. 13, Apr. 1967, Issue 2, pp. 260-269.
G. David Forney, Jr. «The Viterbi Algorithm: A Personal History», Viterbi Conference, University of Southern California, Los Angeles, March 8, 2005.
https://revistas.usb.edu.co/index.php/Ingenium/article/download/1337/1128
info:eu-repo/semantics/article
http://purl.org/coar/resource_type/c_6501
info:eu-repo/semantics/publishedVersion
http://purl.org/coar/version/c_970fb48d4fbd8a85
info:eu-repo/semantics/openAccess
http://purl.org/coar/access_right/c_abf2
Text
Publication
institution UNIVERSIDAD DE SAN BUENAVENTURA
thumbnail https://nuevo.metarevistas.org/UNIVERSIDADDESANBUENAVENTURA_COLOMBIA/logo.png
country_str Colombia
collection Ingenium Revista de la facultad de ingeniería
title A system level hardware/software partition of a mimo-ofdm system for systemc modeling
spellingShingle A system level hardware/software partition of a mimo-ofdm system for systemc modeling
Eslava G., Sebastian
Sanchez, Carlos
Muñoz Morales, Catalina
SystemC
MIMO
OFDM
Hardware/Software partitioning
title_short A system level hardware/software partition of a mimo-ofdm system for systemc modeling
title_full A system level hardware/software partition of a mimo-ofdm system for systemc modeling
title_fullStr A system level hardware/software partition of a mimo-ofdm system for systemc modeling
title_full_unstemmed A system level hardware/software partition of a mimo-ofdm system for systemc modeling
title_sort system level hardware/software partition of a mimo-ofdm system for systemc modeling
title_eng A system level hardware/software partition of a mimo-ofdm system for systemc modeling
description This paper presents the design process and description at the system level of a communication system based on Multiple Input-Multiple Output and Orthogonal Frequency Division Multiplexing (MIMO-OFDM). These are used in fourth generation (4G) systems, due to the performance improvement when facing rapidly changing wireless environments. Hardware/software partitioning is taken under consideration for the design, with developed criteria for measuring system performance. The design and validation of the system is made using SystemC language. This is part of a research work, carried out in order to study and establish an appropriate methodology for Hardware/Software co-design.
author Eslava G., Sebastian
Sanchez, Carlos
Muñoz Morales, Catalina
author_facet Eslava G., Sebastian
Sanchez, Carlos
Muñoz Morales, Catalina
topicspa_str_mv SystemC
MIMO
OFDM
Hardware/Software partitioning
topic SystemC
MIMO
OFDM
Hardware/Software partitioning
topic_facet SystemC
MIMO
OFDM
Hardware/Software partitioning
citationvolume 14
citationissue 28
citationedition Núm. 28 , Año 2013 : INGENIUM
publisher Universidad San Buenaventura - USB (Colombia)
ispartofjournal Ingenium
source https://revistas.usb.edu.co/index.php/Ingenium/article/view/1337
language spa
format Article
rights https://creativecommons.org/licenses/by-nc-sa/4.0/
Ingenium - 2015
info:eu-repo/semantics/openAccess
http://purl.org/coar/access_right/c_abf2
references Hongwei Yang, Ltd, «A Road to Future Broadband Wireless Access: mimo-ofdm-Based Air Interface», Vol. 43, 2005,Issue 1, Communications Magazine, ieee, pp. 53-60.
Sampath, H., Talwar, S., Tellado, J., Erceg, V. and Paulraj, A., «A Fourth Generation mimo-ofdm Broadband Wireless System: Design, Performance and Field Trial Results», Vol. 40 2002, Issue 9, Communications Magazine, ieee, pp. 143-149.
Peter Arato, Sandor Juhasz, 201th Adam Mann, Andras Orban, David Papp, Hardware-software partitioning in embedded system design, Intelligent Signal Processing, 2003 ieee International Symposium on, pp. 107-202, 2003.
Raj, S. Mitra and Anupam Basu, «Hardware/Sowftarw Partitioning: a Case of Constraint satisfaction», Intelligent Systems and their Applications, ieee , Vol. 15, 2000, Issue 1, pp. 54-63.
Dongwan Shin, Andreas Gerstlauer, Rainer Dömer and Daniel D. Gajski, «System-on-Chip Communication Modeling Style Guide», Technical Report cecs-tr-03-45, Center for Embedded Computer Systems, University of California, Irvine,2004.
Chuang, G.C.H. «a mimo wimax soc in 90nm cmos for 300km/h mobility” Solid-State Circuits Conference Digest of Technical Papers (isscc), 2011, pp. 134-136.
Lajos Hanzo, Yosef (Jos) Akhtman and Li Wang, «mimo-ofdm for lte, Wi-Fi and Wimax: Coherent versus Non-coherent and Cooperative Turbo Transceivers», John Wiley & Sons Ltd, 2010.
Yong Soo Cho, Jaekwon Kim, Won Young Yang and Chung G. Kang, «mimo-ofdm Wireless Communications with matlab®», John Wiley & Sons, 2011.
Intel, «wimax Base Station Proof of Concept», 2009.
Fujitsu Microelectronics America, Inc, «The Fujitsu WiMAX 802.16-2004 SoC Programming Guide», 2005.
Yuan Li, Ying-Chang Liang, Sumei Sun and Rui Zhang, «Adaptive Trellis and Bit-Interleaved Codedmodulation for Ordered mimoofdm Channels», ieee 16th International Symposium on Personal, Indoor and Mobile Radio Communications, pp. 226-230, 2005.
Xiaodong Li, and James A. Ritcey, «Trellis-Coded Modulation with Bit Interleaving and Iterative Decoding», ieee Journal On Selected Areas In Communications, vol. 17, 1999, n.o 4, pp. 715-724.
I. S. Reed Solomon, «Polynomial Codes Over Certain Finite Fields», Journal of the Society for Industrial and Applied Mathematics, Vol. 8, 1960, n.o 2.
G. D. Forney, Jr., «Convolutional codes I: Algebraic structure», ieee Trans. Information Theory, Vol. IT-16, 1970, pp. 720-738.
C. Berrou, A. Glavieux and P. Thitimajshima. «Near Shannon limit error- correcting coding and decoding: Turbo codes», Proc. 1993 Int. Conf. Comm., 1993, pp. 1064-1070.
S. Alamouti, «Space block coding: A simple transmitter diversity technique for wireless communications», ieee J. Select. Areas Commun, Vol. 16, pp. 1451-1458, Oct. 1998.
R. M. Fano, «A Heuristic Discussion of Probabilistic Decoding», ieee Trans. Inf. Theory, Vol. 9, n.o 2, pp. 64-74, Apr. 1963.
Viterbi, A. «Error Bounds For Convolutional Codes and an Asymptotically optimum Decoding Algorithm», ieee Trans. Inf. Theory, Vol. 13, Apr. 1967, Issue 2, pp. 260-269.
G. David Forney, Jr. «The Viterbi Algorithm: A Personal History», Viterbi Conference, University of Southern California, Los Angeles, March 8, 2005.
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url https://revistas.usb.edu.co/index.php/Ingenium/article/view/1337
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doi 10.21500/01247492.1337
citationstartpage 95
citationendpage 108
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