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[Keyword] link capacity(34hit)

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  • Non-Orthogonal Pilot Analysis for Single-Cell Massive MIMO Circumstances

    Pengxiang LI  Yuehong GAO  Zhidu LI  Hongwen YANG  

     
    PAPER-Wireless Communication Technologies

      Pubricized:
    2018/10/05
      Vol:
    E102-B No:4
      Page(s):
    901-912

    This paper analyzes the performance of single-cell massive multiple-input multiple-output (MIMO) systems with non-orthogonal pilots. Specifically, closed-form expressions of the normalized channel estimation error and achievable uplink capacity are derived for both least squares (LS) and minimum mean square error (MMSE) estimation. Then a pilot reconstruction scheme based on orthogonal Procrustes principle (OPP) is provided to reduce the total normalized mean square error (NMSE) of channel estimations. With these reconstructed pilots, a two-step pilot assignment method is formulated by considering the correlation coefficient among pilots to reduce the maximum NMSE. Based on this assignment method, a step-by-step pilot power allocation scheme is further proposed to improve the average uplink signal-to-interference and noise ratio (SINR). At last, simulation results demonstrate the superiority of the proposed approaches.

  • Uplink Capacity of OFDM Multi-User MIMO Using Near-ML Detection in a Cellular System

    Masashi ITAGAKI  Tetsuya YAMAMOTO  Kazuki TAKEDA  Fumiyuki ADACHI  

     
    PAPER-Wireless Communication Technologies

      Vol:
    E95-B No:1
      Page(s):
    198-205

    Multi-user multi-input multi-output (MIMO) system has been attracting much attention due to its high spectrum efficiency. Non-linear MIMO signal detection methods with less computational complexity have been widely studied for single-user MIMO systems. In this paper, we investigate how a lattice reduction (LR)-aided detection and a maximum likelihood detection (MLD) employing the QR decomposition and M-algorithm (QRM-MLD), which are commonly known as non-linear MIMO signal detection methods, improve the uplink capacity of a multi-user MIMO-OFDM cellular system, compared to simple linear detection methods such as zero-forcing detection (ZFD) and minimum mean square error detection (MMSED). We show that both LR-aided linear detection and QRM-MLD can achieve higher uplink capacity than simple linear detection at the cost of moderate increase of computational complexity. Furthermore, QRM-MLD can obtain the same uplink capacity as MLD.

  • Estimating ADSL Link Capacity by Measuring RTT of Different Length Packets

    Makoto AOKI  Eiji OKI  

     
    LETTER-Network

      Vol:
    E94-B No:12
      Page(s):
    3583-3587

    This letter proposes a practical scheme that can estimate ADSL link rates. The proposed scheme allows us to estimate ADSL link rates from measurements made at the NOC using existing communications protocols and network node facilities; it imposes no heavy traffic overhead. The proposed scheme consists of two major steps. The first step is to collect measured data of round trip times (RTT) for both long and short packets to find their minimum values of RTTs by sending Internet Control Message Protocol (ICMP) echo request messages. The second step is to estimate the ADSL down- and up-link rates by using the difference in RTT between long and short packets and the experimentally-obtained correlated relationships between ADSL down- and up-link rates. RTTs are experimentally measured for an IP network, and it is shown that the down- and up-link rates can be obtained in a simple manner.

  • SigProbe: An Efficient End-to-End Bandwidth Measurement Technique Utilizing the Path Signatures and Graphical Analyses

    Jin Cheol KIM  Younghee LEE  

     
    LETTER-Internet

      Vol:
    E94-B No:4
      Page(s):
    1076-1080

    Internet group-based application layer services such as the overlay networks and P2P systems can benefit from end-to-end network status information. An efficient and accurate bandwidth measurement technique plays an important role in acquiring this information. We propose an end-to-end bottleneck link capacity measurement technique that utilizes path signatures combined with graphical analyses. This feature reduces the probe overhead and decreases the convergence time. We used ns-2 simulations and actual Internet measurements, which resulted in a high level of accuracy and a short probe time with low overhead.

  • A Novel Evaluation Method for the Downlink Capacity of Distributed Antenna Systems

    Wei FENG  Yifei ZHAO  Ming ZHAO  Shidong ZHOU  Jing WANG  Minghua XIA  

     
    LETTER-Fundamental Theories for Communications

      Vol:
    E92-B No:6
      Page(s):
    2226-2230

    This letter focuses on the simplified capacity evaluation for the downlink of a distributed antenna system (DAS) with random antenna layout. Based on system scale-up, we derive a good approximation of the downlink capacity by developing the results from random matrix theory. We also propose an iterative method to calculate the unknown parameters in the approximated expression of the downlink capacity. The approximation is illustrated to be quite accurate and the iterative method is shown to be quite efficient by Monte Carlo simulations.

  • Hybrid Frequency Reuse Scheme for Cellular MIMO Systems

    Wei PENG  Fumiyuki ADACHI  

     
    PAPER

      Vol:
    E92-B No:5
      Page(s):
    1641-1648

    As the demand for reliable high speed data transmission increases, the capacity of downlink cellular multiple-input multiple-output (MIMO) systems is of much interest. Unfortunately, the capacity analysis regarding the frequency reuse factor (FRF) is rarely reported. In this paper, theoretical analyses for both ergodic and outage capacities for cellular MIMO systems are presented. The FRF is considered and a hybrid frequency reuse scheme is proposed. It is shown by the numerical results that the proposed scheme can greatly alleviate the coverage problem of single-frequency-reuse cellular systems.

  • Multi-Hop Link Capacity of Multi-Route Multi-Hop MRC Diversity for a Virtual Cellular Network

    Imane DAOU  Eisuke KUDOH  Fumiyuki ADACHI  

     
    PAPER-Terrestrial Radio Communications

      Vol:
    E91-B No:5
      Page(s):
    1568-1574

    In virtual cellular network (VCN), proposed for high-speed mobile communications, the signal transmitted from a mobile terminal is received by some wireless ports distributed in each virtual cell and relayed to the central port that acts as a gateway to the core network. In this paper, we apply the multi-route MHMRC diversity in order to decrease the transmit power and increase the multi-hop link capacity. The transmit power, the interference power and the link capacity are evaluated for DS-CDMA multi-hop VCN by computer simulation. The multi-route MHMRC diversity can be applied to not only DS-CDMA but also other access schemes (i.e. MC-CDMA, OFDM, etc.).

  • DS-CDMA Downlink Site Diversity with Frequency-Domain Equalization and Antenna Diversity Reception

    Hirotaka SATO  Hiromichi TOMEBA  Kazuaki TAKEDA  Fumiyuki ADACHI  

     
    PAPER-Wireless Communication Technologies

      Vol:
    E90-B No:12
      Page(s):
    3591-3597

    The use of frequency-domain equalization based on minimum mean square error criterion (called MMSE-FDE) can significantly improve the bit error rate (BER) performance of DS-CDMA signal transmission compared to the well-known coherent rake combining. However, in a DS-CDMA cellular system, as a mobile user moves away from a base station and approaches the cell edge, the received signal power gets weaker and the interference from other cells becomes stronger, thereby degrading the transmission performance. To improve the transmission performance of a user close to the cell edge, the well-known site diversity can be used in conjunction with FDE. In this paper, we consider DS-CDMA downlink site diversity with FDE. The MMSE site diversity combining weight is theoretically derived for joint FDE and antenna diversity reception and the downlink capacity is evaluated by computer simulation. It is shown that the larger downlink capacity can be achieved with FDE than with coherent rake combining. It is also shown that the DS-CDMA downlink capacity is almost the same as MC-CDMA downlink capacity.

  • A DS-CDMA Cellular System Using Band Division and Channel Segregation Distributed Channel Allocation

    Suguru SUGAWARA  Eisuke KUDOH  Fumiyuki ADACHI  

     
    PAPER-Wireless Communication Technologies

      Vol:
    E90-B No:4
      Page(s):
    904-909

    In DS-CDMA cellular communications systems, the single frequency reuse can be utilized. Since large other-cell interference is produced, the well known soft handover or site diversity must be used. If the single frequency reuse is not utilized to avoid the other-cell interference, we will face the frequency allocation problem, similar to FDMA systems. In this paper, a DS-CDMA cellular system using band division is proposed. The available wide frequency band is divided into several narrow frequency bands and the different frequency bands are allocated to adjacent cells so as to avoid the large other-cell interference. For the frequency allocation, the channel segregation distributed channel allocation (CS-DCA) algorithm is applied. The link capacity is evaluated by computer simulation.

  • Admission Control Utilizing Region-Based Channel Capacity

    Sungjin LEE  Sanghoon LEE  

     
    LETTER-Wireless Communication Technologies

      Vol:
    E90-B No:2
      Page(s):
    417-420

    This paper presents an admission control technique for multi-carrier systems with an FRF(frequency reuse factor) of 1. The FRF of 1 is very attrative for more improved channel throughput but the forward link capacity is rapidly decreased at the cell boundary region due to the increase in the ICI(InterCell Interference). By measuring a region-based channel capacity and deriving a closed form of blocking probability, a QoS(Quality of Service) maintenance technique and mobility model can be acquired. In the simulation, the proposed scheme demonstrates a blocking probability reduction of up to 40% compared to the cell-based link capacity scheme.

  • Reverse Link Capacity Analysis over Multi-Cell Environments

    Sungjin LEE  Sanghoon LEE  

     
    LETTER-Terrestrial Radio Communications

      Vol:
    E89-B No:12
      Page(s):
    3479-3482

    This paper presents a numerical analysis of reverse link capacity by obtaining a closed form of ICI (InterCell Interference) over OFDM (Orthogonal Frequency Division Multiplexing)-based broadband wireless networks. In the analysis, shadowing factors are taken into account for determining the home BS (Base Station) of each MS (Mobile Station) over multicell environments. Under the consideration, a more accurate analysis of link capacity can be performed compared to Gilhousen's approximation. In the numerical results, it turns out that the actual interference is lower than Gilhousen's approximation with a decrease of around 20% in the interference.

  • Impact of Shadowing Correlation on Reverse Link Capacity of DS-CDMA Cellular System

    Arif JUNAIDI  Eisuke KUDOH  Fumiyuki ADACHI  

     
    LETTER-Terrestrial Radio Communications

      Vol:
    E89-B No:12
      Page(s):
    3483-3486

    Independent shadowing losses are often assumed for evaluating the link capacity of direct sequence code division multiple access (DS-CDMA) cellular system. However, shadowing losses may be partially correlated since the obstacles surrounding a mobile station block similarly the desired signal and the interfering signals. In this letter, we discuss how the shadowing correlation impacts the reverse link capacity of a power-controlled DS-CDMA cellular system, by numerical analysis.

  • Theoretical Performance Analysis of Downlink Site Diversity in an MC-CDMA Cellular System

    Arny ALI  Takamichi INOUE  Fumiyuki ADACHI  

     
    PAPER-Wireless Communication Technologies

      Vol:
    E89-B No:4
      Page(s):
    1294-1304

    The downlink (base-to-mobile) bit error rate (BER) performance for a mobile user with relatively weak received signal in a multicarrier-CDMA (MC-CDMA) cellular system can be improved by utilizing the site diversity reception. With joint use of MMSE-based frequency domain equalization (FDE) and antenna diversity combining, the site diversity operation will increase the downlink capacity. In this paper, an expression for the theoretical conditional BER for the given set of channel gains is derived based on Gaussian approximation of the interference components. The local average BER is then obtained by averaging the conditional BER over the given set of channel gains using Monte-Carlo numerical method. The outage probability is measured from the numerically obtained cumulative distribution of the local average BER to determine the downlink capacity. Results from theoretical computation are compared to the results from computer simulation and discussed.

  • Frequency Reuse Power Allocation for Broadband Cellular Networks

    Joohwan KIM  Hyukmin SON  Sanghoon LEE  

     
    PAPER-Wireless Communication Technologies

      Vol:
    E89-B No:2
      Page(s):
    531-538

    An FRPA (frequency reuse power allocation) technique by employing the frequency reuse notion as a strategy for overcoming the ICI (intercell interference) and maintaining the QoS (quality of service) at the cell boundary is described for broadband cellular networks. In the scheme, the total bandwidth is divided into sub-bands and two different power levels are then allocated to sub-bands based on the frequency reuse for forward-link cell planning. In order to prove the effectiveness of the proposed algorithm, a Monte Carlo simulation was performed based on the Chernoff upper bound. The simulation shows that this technique can achieve a high channel throughput while maintaining the required QoS at the cell boundary.

  • Forward-Link Capacity Analysis for MC-CDMA

    Hyukmin SON  Sanghoon LEE  

     
    LETTER-Network

      Vol:
    E88-B No:10
      Page(s):
    4094-4096

    OFDM-based networks utilizing the frequency reuse factor of 1 may produce the severe ICI (intercell interference) at the cell boundary even though overall cell capacity is increased and network deployment is facilitated. In the forward-link, the ICI may rise above a QoS (quality of service) threshold beyond some distance from BSs (base stations). In this paper, we analyze the forward-link capacity of an MC-CDMA system as a function of the ICI according to the distance from a cell. To achieve this goal, a closed form of the outage probability is derived and utilized to obtain the accommodated number of users and system parameters.

  • Delay Constrained Routing and Link Capacity Assignment in Virtual Circuit Networks

    Hong-Hsu YEN  FrankYeong-Sung LIN  

     
    PAPER-Network

      Vol:
    E88-B No:5
      Page(s):
    2004-2014

    An essential issue in designing, operating and managing a modern network is to assure end-to-end QoS from users perspective, and in the meantime to optimize a certain average performance objective from the systems perspective. So in the first part of this paper, we address the above issue by using the rerouting approach, where the objective is to minimize the average cross-network packet delay in virtual circuit networks with the consideration of an end-to-end delay constraint (DCR) for each O-D pair. The problem is formulated as a multicommodity network flow problem with integer routing decision variables, where additional end-to-end delay constraints are considered. As the traffic demands increases over time, the rerouting approach may not be applicable, which results in the necessity of capacity augmentation. Henceforth, the second part of this paper is to jointly consider the link capacity assignment and the routing problem (JCR) at the same time where the objective is to minimize the total link installation cost with considering the average and end-to-end delay constraints. Unlike previous research tackling this problem with a two-phase approach, we propose an integrated approach to considering the routing and capacity assignment at the same time. The difficulties of DCR and JCR result from the integrality nature and particularly the nonconvexity property associated with the end-to-end delay constraints. We propose novel Lagrangean relaxation based algorithms to solve the DCR and the JCR problems. Through computational experiments, we show that the proposed algorithms calculate near-optimal solutions for the DCR problem and outperform previous two-phase approach for the JCR problem under all tested cases.

  • Theoretical Study of Site Selection Diversity Transmission in DS-CDMA Cellular Mobile Radio

    Mahbub ALAM  Eisuke KUDOH  Fumiyuki ADACHI  

     
    LETTER-Wireless Communication Technologies

      Vol:
    E88-B No:5
      Page(s):
    2202-2206

    Single cell reuse of the same frequency, which is possible in DS-CDMA cellular systems, yields the option of site diversity to increase link capacity. In this letter, a generalized case of site diversity transmission is considered where multiple base stations (BS's) are involved in weighted transmissions with constant total transmit power to a target mobile station (MS). A general equation of conditional bit error rate (BER) is derived based on the model of weighted transmissions combined with antenna diversity reception and rake combining. It turns out theoretically that the optimum set of weights to maximize forward link capacity makes site selection diversity transmission (SSDT) the best performer. This theoretical analysis is confirmed by performance evaluation based on the Monte-Carlo simulation.

  • Performance of Cellular CDMA Systems Using SBF and TBF Array Antennas under Multi-Cell Environment

    Hyunduk KANG  Insoo KOO  Vladimir KATKOVNIK  Kiseon KIM  

     
    LETTER-Spread Spectrum Technologies and Applications

      Vol:
    E87-A No:12
      Page(s):
    3447-3451

    In cellular systems, a code division multiple access (CDMA) technology with array antennas can significantly reduce interferences by taking advantage of the combination of spreading spectrum and spatial filtering. We investigate performance of cellular CDMA systems through adopting two types of array antennas, switched beam forming (SBF) and tracking beam forming (TBF) in the base station. Through Monte-Carlo simulations, we evaluate average bit-error-rate (BER) and outage probability of the systems under log-normal shadowing channels with multi-cell environment. When we consider 2 beams and 4 beams per sector for the SBF method, it is observed that the TBF method gives at least 10% and 30% capacity improvement over the SBF method in aspects of 10-3 BER and 1% outage probability, respectively.

  • Application of Random Transmit Power Control to DS-CDMA/TDD Packet Mobile Radio

    ZhiSen WANG  Eisuke KUDOH  Fumiyuki ADACHI  

     
    LETTER-Wireless Communication Technologies

      Vol:
    E87-B No:10
      Page(s):
    3144-3149

    A random transmit power control (TPC) is applied to DS-CDMA/TDD packet mobile radio, which controls the transmit power so as to intentionally vary the received signal power in order to obtain the large capture effect. The uplink capacity with the random TPC in a frequency-selective fading channel is evaluated by computer simulation. The simulation results show that the random TPC provides larger link capacity than slow TPC.

  • The Effects of Varying Soft Handoff Thresholds in Cellular CDMA System

    Bongkarn HOMNAN  Watit BENJAPOLAKUL  Katsutoshi TSUKAMOTO  Shozo KOMAKI  

     
    PAPER-Fundamental Theories

      Vol:
    E87-B No:4
      Page(s):
    807-815

    In order to benefit from the advantages of soft handoff (SHO), it is important that the SHO parameters (the SHO thresholds; T_ADD and T_DROP are well assigned. T_ADD is the threshold used for triggering a pilot with high strength to be added to the Active Set (AS) list. The AS means the pilots associated with the forward traffic channels assigned to mobile station. In contrast, T_DROP is the threshold used for triggering a pilot with low strength to be dropped from the AS list. This paper analyzes the effects of varying SHO thresholds in a cellular code division multiple access (CDMA) system on the blocking probability based on traffic load and geometrical distances in hexagonal layout of base stations (BSs). In addition, the previously proposed traffic load equation is applied to the proposed SHO model for balancing the numbers of new and handoff calls on the forward link capacity in case of uniform traffic load. The results show that the blocking probability is more sensitive to T_DROP than to T_ADD variations.

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