Multi-Operator Mobile Relaying: Shared-Spectrum Allocation
スポンサーリンク
概要
- 論文の詳細を見る
In this paper, we introduce the concept of a multi-operator mobile relay node (RN) for cellular networks on buses or trains. The installation of RNs improves spectral efficiency because an antenna with a higher gain than that of user equipment (UE) can be installed in an RN. However, installing different RNs for different operators is not efficient because of the large amount of space needed to install multiple RNs in a bus. Thus, sharing one RN among multiple operators is a more practical approach. When we use a multi-operator mobile RN, the required amount of resource for each operator varies independently as the RN moves. Consequently, we propose a system of shared-spectrum allocation among operators for RN-UEs communication. Shared bandwidth can be allocated to operators according to link quality in order to achieve effective utilization of radio resources. However, to introduce shared-spectrum allocation, fairness among the operators and the total efficiency of the system should be taken into consideration. Using computer simulations, we evaluate shared-spectrum allocation based on the Nash bargaining solution (NBS). The results, in terms of both fairness and efficiency, indicate that total throughput can be improved by approximately 20% compared with the situation where multiple operators install different RNs individually.
著者
-
Morikura Masahiro
Graduate School Of Informatics Kyoto University
-
Yamamoto Koji
Graduate School Of Informatics Kyoto University
-
MIMURA Tomohiko
Graduate School of Informatics, Kyoto University
-
IWATA Ayako
Business Development Promotion Office, R&D Division, Panasonic Corporation
-
NISHIO Akihiko
Business Development Promotion Office, R&D Division, Panasonic Corporation
-
YAMAMOTO Koji
Graduate School of Engineering, Osaka University
-
NISHIO Akihiko
Business Development Promotion Office, R&D Division, Panasonic Corporation
関連論文
- Potential game approach for spectrum sharing with multiple higher-priority users in cognitive radio networks (アドホックネットワーク)
- B-21-17 Throughput Analysis of Wireless Multihop CSMA/CA System with Network Coding
- A 128×128 Pixel Complementary Metal Oxide Semiconductor Image Sensor with an Improved Pixel Architecture for Detecting Modulated Light Signals
- B-21-48 Stabilization of Distributed Power Control in Wireless Networks with Random Channels by Averaging
- B-21-47 Band Selection Scheme With Power/Rate Control Stability Enhancement in Cognitive Radio Networks
- Blind Image-Band Interference Canceller Based on CM (Constant Modulus) Criteria for Multimode Receivers
- Channel-Gain-Based Transmission Scheduling for Cooperative Relaying
- Capacity Analysis of Cooperative Relaying Networks with Adaptive Relaying Scheme Selection
- Performance Improvement of Wireless Mesh Networks by Using a Combination of Channel-Bonding and Multi-Channel Techniques
- Spectral Efficiency of Fundamental Cooperative Relaying in Interference-Limited Environments
- Interference Information Based Power Control for Cognitive Radio with Multi-Hop Cooperative Sensing
- EFFECT OF CARTILAGE SURFACE LAYER ON A DIRECTION DEPENDENCY OF FRICTIONAL HISTORY(2E1 Joints & Sensory Organs)
- Effects of Tribological Loading History on the Expression of Tribological Function of Regenerated Cartilage
- Optimum Practical Design of Distributed and Asynchronous Power Control for Wireless Networks with Shared Bands(Multi-dimensional Mobile Information Networks)
- B-21-8 Asynchronous Power and Rate Control Scheme for Wireless Ad Hoc Networks with Fading Channels
- B-21-24 Efficient Power Control Scheme for Multihop Radio Networks
- B-21-30 Interference-Limited Performance Study of Routing Schemes in Unidirectional Multihop Radio Networks
- Reversed-Phase HPLC of Monosaccharides in Glycoproteins Derivatized with Aminopyrazine with Fluorescence Detection
- Cell Edge Capacity Improvement by Using Adaptive Base Station Cooperation in Cellular Networks with Fractional Frequency Reuse
- Impact and Use of the Asymmetric Property in Bi-directional Cooperative Relaying under Asymmetric Traffic Conditions
- FPGA Implementation of STBC Based Cooperative Relaying System
- Resource Reduction Method for the LTE-Advanced Uplink ACK/NACK Signal and SR
- Potential Game Approach for Spectrum Sharing in Distributed Cognitive Radio Networks
- Enhancement of CSMA/CA and Network Coding in Single-Relay Multi-User Wireless Networks
- Influence of thermal expansion coefficient in laser scribing of glass
- Influence of glass substrate thickness in laser scribing of glass
- Three-dimensional thermal stress analysis on laser scribing of glass
- Game-Theoretic Approach to Capacity and Stability Evaluations of Decentralized Adaptive Route Selections in Wireless Ad Hoc Networks(Network, Ubiquitous Networks)
- A Virtual Layered Space-Frequency Receiver Architecture with Iterative Decoding
- Analysis of Reverse Link Capacity Enhancement for CDMA Cellular Systems Using Two-Hop Relaying(Reverse Link Capacity for CDMA Cellular)(Multi-dimensional Mobile Information Networks)
- Tradeoff between Area Spectral Efficiency and End-to-End Throughput in Rate-Adaptive Multihop Radio Networks(Advances in Ad Hoc Mobile Communications and Networking)
- B-5-72 Performance of Decentralized MIMO Precoder with Two-way AF Channel Estimation
- Evolutionary Game Based Access Control Protocol in Wireless Networks with Mobile Routers
- A Least Bit Error Rate Adaptive Array for MultiLevel Modulations
- B-5-54 Partitioned Vector Quantization Based Non-linear Precoding in MU-MISO Downlink
- A Reduced-Complexity Heterodyne Multiband MIMO Receiver with Estimation of Analog Devices Imperfection in a Baseband Feedback Loop
- Software Radio-Based Distributed Multi-User MIMO Testbed: Towards Green Wireless Communications
- Multi-Operator Mobile Relaying: Shared-Spectrum Allocation
- Mechanical Interaction between Vitamin E-Containing Ultrahigh Molecular Weight Polyethylene and Co-28Cr-6Mo Alloy in Water
- Virtual Continuous CWmin Control Scheme of WLAN
- Fixed-Rate Resource Exchange for Multi-Operator Pico eNodeB
- IEEE 802.11ah Based M2M Networks Employing Virtual Grouping and Power Saving Methods
- A Low Complexity Heterodyne Multiband MIMO Receiver with Baseband Automatic Gain Control
- Frequency Domain Imbalance Estimation in Heterodyne Multimode/Band Receivers with Baseband Automatic Gain Control
- Experimental Investigation of Co-channel and Adjacent Channel Operations of Microwave Power and IEEE 802.11g Data Transmissions
- Implementation and Feasibility Study of Co-channel Operation System of Microwave Power Transmissions to IEEE 802.11-Based Batteryless Sensor