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Author: Chung-An Shen
Publisher:
ISBN: 9781267256553
Category :
Languages : en
Pages : 134
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Book Description
In the past few years, Multiple-Input Multiple-Output (MIMO) communication has been recognized as a promising technology to improve the quality of service and/or to achieve high data rate for wireless communication systems. It has also been adopted as part of a number of industry standards such as WiMAX, LTE, and the next generation WLAN (802.11n). However, the lucrative features of MIMO communications come along with the costs of significantly increased system complexity, including area, as well as power consumption. Thus, in MIMO systems, it is always a challenge for researchers and engineers to design a receiver structure that can achieve optimal quality of reception with manageable system complexity. In this thesis, we present efficient design for the spatial multiplexing MIMO receivers at both the algorithm and VLSI architecture levels. We consider that the MIMO detector and the channel decoder are two major blocks and attempt to optimize them in a joint sense. First of all, we focus on the design of MIMO detector and propose two approaches. The first design presents a novel algorithm and architecture for K-Best detection. The algorithm examines a much smaller subset of points in the tree structure as compared to conventional K-Best detector; while still achieving near-optimal performance. The VLSI architecture of the detector is based on a pipelined sorter-free scheme such that high throughput and low complexity is achieved. The proposed K-Best detector is designed to support a 4 x 4 64-QAM system and can achieve an average throughput of 285.8 Mbps at 25 dB SNR with 210 Kgates area at 12.8 mW power consumption. The second design demonstrates an algorithm and VLSI architecture of combining the features of classical depth-first and breadth-first methods. Techniques to reduce complexity while providing both hard and soft output detection are also presented. This detector supports a 4 x 4 64-QAM system and can achieve an average throughput of 257.8 Mbps at 24 dB SNR with an area equivalent to 54.2 Kgates and a power consumption of 7.26 mW for hard output scheme. For the soft output scheme it achieves an average throughput of 83.3 Mbps across the SNR range of interest with an area equivalent to 64 Kgates and a power consumption of 11.5 mW. Finally we present an approach to perform joint detection and decoding for MIMO systems which utilize convolutional codes. The BER performance of this approach is significantly better than that of systems which utilize separate detection and decoding blocks. In particular, for a reference 4x4, 16-QAM system using a rate 1/2 convolutional code with generator polynomial [247,371] and a constraint length of 8, improvements in SNR of 2.5dB and 3dB are achieved over conventional soft decoding at a BER of 10−5. The proof of concept VLSI architecture is provided and a novel way to reduce memory usage is demonstrated. The proposed design can achieve an average throughput of 216.9 Mbps at a SNR of 13 dB with area equivalent to 553 Kgates.
Author: Chung-An Shen
Publisher:
ISBN: 9781267256553
Category :
Languages : en
Pages : 134
Get Book Here
Book Description
In the past few years, Multiple-Input Multiple-Output (MIMO) communication has been recognized as a promising technology to improve the quality of service and/or to achieve high data rate for wireless communication systems. It has also been adopted as part of a number of industry standards such as WiMAX, LTE, and the next generation WLAN (802.11n). However, the lucrative features of MIMO communications come along with the costs of significantly increased system complexity, including area, as well as power consumption. Thus, in MIMO systems, it is always a challenge for researchers and engineers to design a receiver structure that can achieve optimal quality of reception with manageable system complexity. In this thesis, we present efficient design for the spatial multiplexing MIMO receivers at both the algorithm and VLSI architecture levels. We consider that the MIMO detector and the channel decoder are two major blocks and attempt to optimize them in a joint sense. First of all, we focus on the design of MIMO detector and propose two approaches. The first design presents a novel algorithm and architecture for K-Best detection. The algorithm examines a much smaller subset of points in the tree structure as compared to conventional K-Best detector; while still achieving near-optimal performance. The VLSI architecture of the detector is based on a pipelined sorter-free scheme such that high throughput and low complexity is achieved. The proposed K-Best detector is designed to support a 4 x 4 64-QAM system and can achieve an average throughput of 285.8 Mbps at 25 dB SNR with 210 Kgates area at 12.8 mW power consumption. The second design demonstrates an algorithm and VLSI architecture of combining the features of classical depth-first and breadth-first methods. Techniques to reduce complexity while providing both hard and soft output detection are also presented. This detector supports a 4 x 4 64-QAM system and can achieve an average throughput of 257.8 Mbps at 24 dB SNR with an area equivalent to 54.2 Kgates and a power consumption of 7.26 mW for hard output scheme. For the soft output scheme it achieves an average throughput of 83.3 Mbps across the SNR range of interest with an area equivalent to 64 Kgates and a power consumption of 11.5 mW. Finally we present an approach to perform joint detection and decoding for MIMO systems which utilize convolutional codes. The BER performance of this approach is significantly better than that of systems which utilize separate detection and decoding blocks. In particular, for a reference 4x4, 16-QAM system using a rate 1/2 convolutional code with generator polynomial [247,371] and a constraint length of 8, improvements in SNR of 2.5dB and 3dB are achieved over conventional soft decoding at a BER of 10−5. The proof of concept VLSI architecture is provided and a novel way to reduce memory usage is demonstrated. The proposed design can achieve an average throughput of 216.9 Mbps at a SNR of 13 dB with area equivalent to 553 Kgates.
Author: Ernesto Zimmermann
Publisher: Jörg Vogt Verlag
ISBN: 393886009X
Category : MIMO systems
Languages : en
Pages : 207
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Book Description
Author: Jose L. Ayala
Publisher: Springer
ISBN: 364228566X
Category : Computers
Languages : en
Pages : 364
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Book Description
This book contains extended and revised versions of the best papers presented at the 18th IFIP WG 10.5/IEEE International Conference on Very Large Scale Integration, VLSI-SoC 2010, held in Madrid, Spain, in September 2010. The 14 papers included in the book were carefully reviewed and selected from the 52 full papers presented at the conference. The papers cover a wide variety of excellence in VLSI technology and advanced research. They address the current trend toward increasing chip integration and technology process advancements bringing about stimulating new challenges both at the physical and system-design levels, as well as in the test of theses systems.
Author: Ibrahim A. Bello
Publisher: Springer Nature
ISBN: 3031045122
Category : Technology & Engineering
Languages : en
Pages : 162
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Book Description
This book provides a detailed overview of detection algorithms for multiple-input multiple-output (MIMO) communications systems focusing on their hardware realisation. The book begins by analysing the maximum likelihood detector, which provides the optimal bit error rate performance in an uncoded communications system. However, the maximum likelihood detector experiences a high complexity that scales exponentially with the number of antennas, which makes it impractical for real-time communications systems. The authors proceed to discuss lower-complexity detection algorithms such as zero-forcing, sphere decoding, and the K-best algorithm, with the aid of detailed algorithmic analysis and several MATLAB code examples. Furthermore, different design examples of MIMO detection algorithms and their hardware implementation results are presented and discussed. Finally, an ASIC design flow for implementing MIMO detection algorithms in hardware is provided, including the system simulation and modelling steps and register transfer level modelling using hardware description languages. Provides an overview of MIMO detection algorithms and discusses their corresponding hardware implementations in detail; Highlights architectural considerations of MIMO detectors in achieving low power consumption and high throughput; Discusses design tradeoffs that will guide readers’ efforts when implementing MIMO algorithms in hardware; Describes a broad range of implementations of different MIMO detectors, enabling readers to make informed design decisions based on their application requirements.
Author: Weixia Xu
Publisher: Springer
ISBN: 3662458152
Category : Computers
Languages : en
Pages : 188
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Book Description
This book constitutes the refereed proceedings of the 18th National Conference on Computer Engineering and Technology, NCCET 2014, held in Guiyang, China, during July/August 2014. The 18 papers presented were carefully reviewed and selected from 85 submissions. They are organized in topical sections on processor architecture; computer application and software optimization; technology on the horizon.
Author: Cyrille Chavet
Publisher: Springer
ISBN: 3319105698
Category : Technology & Engineering
Languages : en
Pages : 197
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Book Description
This book provides thorough coverage of error correcting techniques. It includes essential basic concepts and the latest advances on key topics in design, implementation, and optimization of hardware/software systems for error correction. The book’s chapters are written by internationally recognized experts in this field. Topics include evolution of error correction techniques, industrial user needs, architectures, and design approaches for the most advanced error correcting codes (Polar Codes, Non-Binary LDPC, Product Codes, etc). This book provides access to recent results, and is suitable for graduate students and researchers of mathematics, computer science, and engineering. • Examines how to optimize the architecture of hardware design for error correcting codes; • Presents error correction codes from theory to optimized architecture for the current and the next generation standards; • Provides coverage of industrial user needs advanced error correcting techniques. Advanced Hardware Design for Error Correcting Codes includes a foreword by Claude Berrou.
Author: K. Ashoka Reddy
Publisher: Springer Nature
ISBN: 9811985634
Category : Technology & Engineering
Languages : en
Pages : 657
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Book Description
The book is a compilation of high-quality scientific papers presented at the 4th International Conference on Computer & Communication Technologies (IC3T 2022). The book covers cutting-edge technologies and applications of soft computing, artificial intelligence and communication. In addition, a variety of further topics are discussed, which include data mining, machine intelligence, fuzzy computing, sensor networks, signal and image processing, human-computer interaction, and web intelligence.
Author: Chenxin Zhang
Publisher: Springer
ISBN: 3319240048
Category : Technology & Engineering
Languages : en
Pages : 203
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Book Description
This book focuses on domain-specific heterogeneous reconfigurable architectures, demonstrating for readers a computing platform which is flexible enough to support multiple standards, multiple modes, and multiple algorithms. The content is multi-disciplinary, covering areas of wireless communication, computing architecture, and circuit design. The platform described provides real-time processing capability with reasonable implementation cost, achieving balanced trade-offs among flexibility, performance, and hardware costs. The authors discuss efficient design methods for wireless communication processing platforms, from both an algorithm and architecture design perspective. Coverage also includes computing platforms for different wireless technologies and standards, including MIMO, OFDM, Massive MIMO, DVB, WLAN, LTE/LTE-A, and 5G.
Author: Lin Bai
Publisher: Springer Science & Business Media
ISBN: 1441985832
Category : Technology & Engineering
Languages : en
Pages : 251
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Book Description
Low Complexity MIMO Detection introduces the principle of MIMO systems and signal detection via MIMO channels. This book systematically introduces the symbol detection in MIMO systems. Includes the fundamental knowledge of MIMO detection and recent research outcomes for low complexity MIMO detection.
Author: Yu-Dong Zhang
Publisher: Springer Nature
ISBN: 981155224X
Category : Technology & Engineering
Languages : en
Pages : 495
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Book Description
This book gathers high-quality papers presented at the International Conference on Smart Trends for Information Technology and Computer Communications (SmartCom 2020), organized by the Global Knowledge Research Foundation (GR Foundation) from 23 to 24 January 2020. It covers the state-of-the-art and emerging topics in information, computer communications, and effective strategies for their use in engineering and managerial applications. It also explores and discusses the latest technological advances in, and future directions for, information and knowledge computing and its applications.
