Nash Bargaining Solution Allocation is Not Suitable for Datacenter Jobs

2017 ◽  
Vol 19 (01) ◽  
pp. 1750001
Author(s):  
Ilya Nikolaevskiy ◽  
Andrey Lukyanenko ◽  
Andrei Gurtov
Keyword(s):  
Bandwidth Allocation ◽  
Strategic Behavior ◽  
Nash Bargaining Solution ◽  
Nash Bargaining ◽  
Bargaining Solution ◽  
Theoretic Approach ◽  
Multiple Resources ◽  
Datacenter Networks ◽  
Game Theoretic ◽  
Game Theoretic Approach

The Nash Bargaining Solution (NBS) has been broadly suggested as an effective solution for the problem of fair allocation of multiple resources, namely bandwidth allocation in datacenters. In spite of being thoroughly studied, and provably strategy-proof for most scenarios, NBS-based allocation methods lack research on the strategic behavior of tenants in the case of proportionality of resource demands, which is common in datacenter workloads. We found that misbehavior is beneficial: by lying about bandwidth demands tenants can improve their allocations. We show that a sequence of selfish improvements leads to trivial demand vectors for all tenants. It essentially removes sharing incentives which are very important for datacenter networks. In this paper, we analytically prove that tenants can misbehave in 2- and 3- tenants cases. We show that misbehavior is possible in one recently proposed NBS-based allocation system if proportionality of demands is taken into account. Monte Carlo simulations were done for 2–15 tenants to show a misbehavior possibility and its impact on aggregated bandwidth. We propose to use another game-theoretic approach, namely Dominant Resource Fairness (DRF) to allocate bandwidth in the case of proportional demands. We show that this method performs significantly better than NBS after misbehavior.

A Game Theoretic Framework for Green HetNets Using D2D Traffic Offload and Renewable Energy Powered Base Stations

2017 ◽  
pp. 679-711
Author(s):  
Elias Yaacoub ◽  
Hakim Ghazzai ◽  
Mohamed-Slim Alouini
Keyword(s):  
Renewable Energy ◽  
Renewable Energy Sources ◽  
Nash Bargaining Solution ◽  
Base Station ◽  
Base Stations ◽  
Nash Bargaining ◽  
Bargaining Solution ◽  
Green Communications ◽  
Game Theoretic

This chapter investigates the interplay between cooperative device-to-device (D2D) communications and green communications in LTE heterogeneous networks (HetNets). Two game theoretic concepts are studied and analyzed in order to perform dynamic HetNet base station (BS) on/off switching. The first approach is a coalition-based method whereas the second is based on the Nash bargaining solution. Afterwards, a method for coupling the BS on/off switching approach with D2D collaborative communications is presented and shown to lead to increased energy efficiency. The savings are additionally increased when a portion of the small cell BSs in a HetNet are powered by renewable energy sources. Different utility functions, modeling the game theoretic framework governing the energy consumption balance between the cellular network and the mobile terminals (MTs), are proposed and compared, and their impact on MT quality of service (QoS) is analyzed.

scholarly journals Fair and Efficient Rate Allocation for Wireless-Powered Machine-Type Communication Networks

2019 ◽  
Vol 2019 ◽  
pp. 1-11
Author(s):  
Nanxing Liao ◽  
Guopeng Zhang ◽  
Jiansheng Qian ◽  
Deqiang Cheng ◽  
Kun Yang
Keyword(s):  
Communication Networks ◽  
Nash Bargaining Solution ◽  
Rate Allocation ◽  
Nash Bargaining ◽  
Bargaining Solution ◽  
Network Resource ◽  
Machine Type ◽  
Machine Type Communications ◽  
Game Theoretic ◽  
The Difference

This paper proposes a bargaining game theoretic rate allocation scheme for wireless-powered machine-type communications (MTCs). In the considered body area MTC network (MTCN), a battery-powered user equipment (UE) acting as the MTC gateway (MTCG) is responsible for collecting the information uploaded by in/on body wireless-powered MTC devices (MTCDs). By solving the Nash bargaining solution (NBS) of the proposed cooperative game, the minimum rate requirements of the MTCDs are satisfied. In addition, the network resource can be allocated to the MTCDs in a fair and efficient manner regarding the difference of their channel qualities. In comparison to other traditional resource allocation methods, the simulation results show that the proposed NBS-based method obtains a good tradeoff between the system efficiency and per-node fairness.

A Game Theoretic Mechanism for Management of IoT Resources in a Smart City

2021 ◽  
Vol 14 (4) ◽  
pp. 107-121
Author(s):  
Priya Matta ◽  
Bhaskar Pant ◽  
Sachin Sharma
Keyword(s):  
Smart City ◽  
Physical World ◽  
Point Of View ◽  
Use Case ◽  
Theoretic Approach ◽  
Major Focus ◽  
Resource Manager ◽  
Multiple Resources ◽  
Game Theoretic ◽  
Game Theoretic Approach

IoT is emerging in all the dimensions of the physical world, and smart city is one of the most promising among them. This article focuses on the efficient utilisation of resources in an IoT system. IoT resources have been identified and classified in context to a smart city. The number and type of resources may grow dynamically in a smart city, and user's demand may also vary dynamically. Therefore, to maximise the throughput of the system, the resources must be deployed, managed, and used efficiently. This manuscript has identified the concept, role, and composition of the resource manager with respect to an IoT system and presents a game theoretic approach to manage the resources from provider point of view. Using a complete and dynamic use case, including the multiple resources, it illustrates the usability of the proposed approach. The major focus is on the efficient use of IoT resources in a smart city.

scholarly journals A Game-Theoretic Approach for Electric Power Distribution during Power Shortage: A Case Study in Pakistan

2021 ◽  
Vol 11 (11) ◽  
pp. 5084
Author(s):  
Shahmir Janjua ◽  
Muhammad Umair Ali ◽  
Karam Dad Kallu ◽  
Malik Muhammad Ibrahim ◽  
Amad Zafar ◽  
...  
Keyword(s):  
Power Allocation ◽  
Transmission Lines ◽  
Power Supply ◽  
Power Distribution ◽  
Solution Concept ◽  
Nash Bargaining ◽  
Bargaining Solution ◽  
Theoretic Approach ◽  
Economic Sectors ◽  
Game Theoretic

Power supply is the cornerstone for the sustainable socio-economic development of any country. In a developing country like Pakistan, shortage of power supply is the main obstacle to its economic growth, making it a disputed and contested resource among different administrative units/provinces and socio-economic sectors. A key challenge is allocating the limited available power among provinces with conflicting and competing needs amid the supply-demand gap. In this research, the allocation of energy during a shortage is considered as a game-theoretic bankruptcy problem. Five bankruptcy rules namely the Proportional Rule, Constraint Equal Award Rule, Constraint Equal Loss Rule, Talmud Rule and Piniles Rule are used for power allocation among the provinces of Pakistan. Each province is characterized by its power demand. A new framework is also proposed for power allocation, which synthesizes the Nash bargaining solution concept with bankruptcy theory to resolve power-related disputes among the four provinces within Pakistan. Additionally, a new method is introduced in this study to compare and contrast the different allocation rules. The results suggest that the basic power demands of the provinces can be satisfied by the proposed disagreement points among the provinces, and the bargaining weights can highlight the role of different levels of power claims, lengths of transmission lines, and variations in population among provinces. The findings also suggest that, due to the lowest dispersion, the proportionate rule is the most suitable method for power allocation among the provinces. The paper combines relevant bankruptcy rules with Nash bargaining theory to propose an algorithm for addressing power sector supply-demand mismatches in Pakistan.

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