1 Guard Channel CAC Algorithm For High Altitude Platform Networks Dung D. LUONG TRAN Minh Phuong Anh Tien V. Do.

Slides:

Advertisements

Similar presentations

1 Mobility-Based Predictive Call Admission Control and Bandwidth Reservation in Wireless Cellular Networks Fei Yu and Victor C.M. Leung INFOCOM 2001.

Advertisements

Green Network Project Contract

1 EP2210 Fairness Lecture material: –Bertsekas, Gallager, Data networks, 6.5 –L. Massoulie, J. Roberts, "Bandwidth sharing: objectives and algorithms,“

LEARNING INFLUENCE PROBABILITIES IN SOCIAL NETWORKS Amit Goyal Francesco Bonchi Laks V. S. Lakshmanan University of British Columbia Yahoo! Research University.

Min Song 1, Yanxiao Zhao 1, Jun Wang 1, E. K. Park 2 1 Old Dominion University, USA 2 University of Missouri at Kansas City, USA IEEE ICC 2009 A High Throughput.

Cell Design to Maximize Capacity in CDMA Networks Robert Akl, D.Sc.

22 nd September 2008 | Tariciso F. Maciel Suboptimal Resource Allocation for Multi-User MIMO-OFDMA Systems Tarcisio F. Maciel Darmstadt, 22 nd September.

Wenye Wang Xinbing Wang Arne Nilsson Department of Electrical and Computer Engineering, NC State University March 2005 A New Admission Control Scheme under.

Subscriber Maximization in CDMA Cellular Network Robert Akl, D.Sc. University of North Texas.

Dynamic Guard Bandwidth Scheme for Wireless Broadband Networks IEEE INFOCOM 2001.

1 “Multiplexing Live Video Streams & Voice with Data over a High Capacity Packet Switched Wireless Network” Spyros Psychis, Polychronis Koutsakis and Michael.

HMM-BASED PATTERN DETECTION. Outline  Markov Process  Hidden Markov Models Elements Basic Problems Evaluation Optimization Training Implementation 2-D.

CAC for Multimedia Services in Mobile Cellular Networks ： A Markov Decision Approach Speaker ： Xu Jia-Hao Advisor ： Ke Kai-Wei Date ： 2004 / 11 / 18.

*Sponsored in part by the DARPA IT-MANET Program, NSF OCE Opportunistic Scheduling with Reliability Guarantees in Cognitive Radio Networks Rahul.

1 Token Bucket Based CAC and Packet Scheduling for IEEE Broadband Wireless Access Networks Chi-Hung Chiang

COST March 2004, Zurich Traffic Hotspots in UMTS Networks : influence on RRM strategies Ferran Adelantado i Freixer

Multiple Sender Distributed Video Streaming Thinh Nguyen, Avideh Zakhor appears on “IEEE Transactions On Multimedia, vol. 6, no. 2, April, 2004”

7C Cimini-9/97 RANDOM ACCESS TECHNIQUES ALOHA Efficiency Reservation Protocols Voice and Data Techniques - PRMA - Variable rate CDMA.

Scheduling for Wireless Networks with Users’ Satisfaction and Revenue Management Leonardo Badia*, Michele Zorzi + Speaker: Andrea Zanella + {lbadia,

Handoff in Cellular Systems. Defining Handoffs What? What? Why? Why? When? When?

Simultaneous Rate and Power Control in Multirate Multimedia CDMA Systems By: Sunil Kandukuri and Stephen Boyd.

Mariusz Głąbowski, Adam Kaliszan, Maciej Stasiak A New Convolution Algorithm of Blocking Probability Calculation in Full-Availability Group with Bandwidth.

Multiple Sender Distributed Video Streaming Nguyen, Zakhor IEEE Transactions on Multimedia April 2004.

1 Algorithms for Bandwidth Efficient Multicast Routing in Multi-channel Multi-radio Wireless Mesh Networks Hoang Lan Nguyen and Uyen Trang Nguyen Presenter:

Submission doc.: IEEE 11-12/0844r0 Slide 1 Non-linear Multiuser MIMO for next generation WLAN Date: Authors: Shoichi Kitazawa, ATR.

College of Engineering Resource Management in Wireless Networks Anurag Arepally Major Adviser : Dr. Robert Akl Department of Computer Science and Engineering.

Interleaved Multi-Bank Scratchpad Memories: A Probabilistic Description of Access Conflicts DAC '15, June , 2015, San Francisco, CA, USA.

Providing Delay Guarantees in Bluetooth Rachid Ait Yaiz and Geert Heijenk International Conference on Distributed Computing Systems Workshops (ICDCSW’03)

Time Parallel Simulations II ATM Multiplexers and G/G/1 Queues.

1 Performance Analysis of Coexisting Secondary Users in Heterogeneous Cognitive Radio Network Xiaohua Li Dept. of Electrical & Computer Engineering State.

Global versus Local Call Admission Control in CDMA Cellular Networks Robert Akl, D.Sc. Asad Parvez University of North Texas.

On QoS Guarantees with Reward Optimization for Servicing Multiple Priority Class in Wireless Networks YaoChing Peng Eunyoung Chang.

1 [3] Jorge Martinez-Bauset, David Garcia-Roger, M a Jose Domenech- Benlloch and Vicent Pla, “ Maximizing the capacity of mobile cellular networks with.

Predictive and Adaptive Bandwidth Reservation for Handoffs in QoS-Sensitive Cellular Networks IEEE Transactions on Parallel and Distributed Systems Author:

1 Call Admission Control for Multimedia Services in Mobile Cellular Networks : A Markov Decision Approach Jihyuk Choi; Taekyoung Kwon; Yanghee Choi; Naghshineh,

Elastic Threshold-based Admission Control for QoS Satisfaction in Wireless Networks with Reward Optimization for Multiple Priority Classes April 6, 2010.

Utilizing Call Admission Control for Pricing Optimization of Multiple Service Classes in Wireless Cellular Networks Authors : Okan Yilmaz, Ing-Ray Chen.

Bandwidth Reallocation for Bandwidth Asymmetry Wireless Networks Based on Distributed Multiservice Admission Control Robert Schafrik Lakshman Krishnamurthy.

Energy-Saving Scheduling in IEEE e Networks Chia-Yen Lin, and Hsi-Lu Chao Department of Computer Science National Chiao Tung University.

Congestion Control in CSMA-Based Networks with Inconsistent Channel State V. Gambiroza and E. Knightly Rice Networks Group

Optimal XOR Hashing for a Linearly Distributed Address Lookup in Computer Networks Christopher Martinez, Wei-Ming Lin, Parimal Patel The University of.

Examination Committee: Dr. Poompat Saengudomlert (Chairperson) Assoc. Prof. Tapio Erke Dr. R.M.A.P. Rajatheva 1 Telecommunications FoS Asian Institute.

Examination Committee: Dr. Poompat Saengudomlert (Chairperson) Assoc. Prof. Tapio Erke Dr. R.M.A.P. Rajatheva 1 Telecommunications FoS Asian Institute.

Advanced Spectrum Management in Multicell OFDMA Networks enabling Cognitive Radio Usage F. Bernardo, J. Pérez-Romero, O. Sallent, R. Agustí Radio Communications.

1 WP2.4 System performance employing Handoff techniques to overcome platform movement CAPANINA Virtual Meeting – July 2005 Konstantinos Katzis University.

Capacity Enhancement with Relay Station Placement in Wireless Cooperative Networks Bin Lin1, Mehri Mehrjoo, Pin-Han Ho, Liang-Liang Xie and Xuemin (Sherman)

The Extended Connection-Dependent Threshold Model for Elastic and Adaptive Traffic V. Vassilakis, I. Moscholios and M. Logothetis Wire Communications Laboratory,

Vaida Bartkutė, Leonidas Sakalauskas

Effects of Call Arrival Rate and Mobility on Network Throughput in Multi-Cell CDMA Manju Hegde, Robert Akl, Paul Min Washington University St. Louis,

An Optimal Distributed Call Admission control for Adaptive Multimedia in Wireless/Mobile Networks Reporter: 電機所鄭志川.

Energy-Efficient Data Caching and Prefetching for Mobile Devices Based on Utility Huaping Shen, Mohan Kumar, Sajal K. Das, and Zhijun Wang P 邱仁傑.

1 An Analytical Model for the Dimensioning of a GPRS/EDGE Network with a Capacity Constraint on a Group of Cells r , r , r Nogueira,

Slide 1 E3E3 ICC Beijing 21 May 2008 Simulated Annealing-Based Advanced Spectrum Management Methodology for WCDMA Systems Jad Nasreddine Jordi Pérez-Romero.

1 Admission Control for Non-preprovisioned Service Flow in Wireless Metropolitan Area Networks Liping Wang, Fuqiang Liu, Yusheng Ji, and Nararat Ruangchaijatupon.

Bluetooth: Quality of Service Reference: “QoS based scheduling for incorporating variable rate coded voice in Bluetooth”; Chawla, S.; Saran, H.; Singh,

Dynamic Bandwidth Reservation in Cellular Networks Using Road Topology Based Mobility Predictions InfoCom 2004 Speaker : Bo-Chun Wang

Dynamic Bandwidth Quasi- reservation Scheme for Real- time Services in IEEE e Networks Yin Ge,and Geng-Sheng Kuo IEEE Wireless Communications and.

Optimization-based Cross-Layer Design in Networked Control Systems Jia Bai, Emeka P. Eyisi Yuan Xue and Xenofon D. Koutsoukos.

Performance Enhancement of Multirate IEEE WLANs with Geographically Scattered Stations 1 Duck-Yong Yang, 2 Tae-Jin Lee, 3 Kyunghun Jang, 3 Jin-Bong.

QoS Guaranteed Provisioning over GPRS Wireless Mobile Links Benjamin ESHUN MSc CCN INT France.

Flexible Allocation of Capacity in Multi-Cell CDMA Networks Robert Akl, Manju Hegde, Mort Naraghi-Pour*, Paul Min Washington University, St. Louis, MO.

Joint Call Admission Control and Adaptive Bandwidth Management Scheme to Enhance QoS in Heterogeneous Wireless Networks Olabisi E. Falowo and H. Anthony.

Howard Huang, Sivarama Venkatesan, and Harish Viswanathan

EE360: Lecture 13 Outline Adaptive Techniques for Cellular

MENTER: Dynamic Traffic Engineering for MPLS Networks

Call Admission Control in Mobile Cellular CDMA Systems using Fuzzy Associative Memory Rupenaguntla Naga Satish Dilip Sarkar Computer Science University.

Yiannis Andreopoulos et al. IEEE JSAC’06 November 2006

Prestented by Zhi-Sheng, Lin

Resource Allocation Call Admission Control

QoS routing Finding a path that can satisfy the QoS requirement of a connection. Achieving high resource utilization.

Presentation transcript:

1 Guard Channel CAC Algorithm For High Altitude Platform Networks Dung D. LUONG TRAN Minh Phuong Anh Tien V. Do

2 Document Properties

3 Outline Call Admission Control (CAC) in HAP-based networks (the work done within the framework of the European CAPANINA project) The use of the guard channel algorithm in CAC for HAP-based networks to provision multiple traffic classes Computational problem Direct solution vs. proposed approximation (a new algorithm) Validation results Conclusions

4 HAP-based network scenario

5 HAP cell BS New call admitted New call blocked Blocking Batch arrival Handoff call admitted Handoff call dropped Dropping HAP cell

6 Channel Guard CAC New call Admitted Blocked Handoff call Admitted Dropped Total bandwidth (C) Channel guard (G) Existing traffic New call #1 time bandwidth New call #2Handoff call #1Handoff call #2

7 Channel guard for traffic classes Traffic classes Class 1 Class 2 Class 3 Class 4 bandwidth 0 (max. bandwidth) C G4G4 G3G3 G2G2 G1G1

8 Problem description Given Service classes with their parameters (bandwidth requirement, arrival rate, departure rate) Capacity of the system Objective: how to find optimal channel guards, so that Dropping probability is below a certain threshold Maximalize the bandwidth usage The key is To have an efficient method to calculate the dropping probability To have an algorithm to find the G i value

9 Calculation of dropping probability Two approaches can be applied Direct solution of the multi-dimensional Markov chain (time consuming) Approximation Equivalent traffic Build up an one-dimensional Markov-chain  steady state distribution Find dropping probability for each state Calculate dropping probability

10 Multi-dimensional Markov chain 0,N 2 0,N 2 -10,10,02,01,11,02,11,N 2 1,N 2 -12,N 2 2,N 2 -1N 1 -1,0N 1 -1,1N 1 -1,N 2 N 1 -1,N 2 -1N 1,0N 1,1N 1,N 2 N 1,N 2 -1 …… … …

11 Calculation of dropping probability (2) Equivalent traffic Build up a Markov-chain  steady state distribution Find dropping probability for each state Calculate dropping probability

12 Calculation of dropping probability (3) Equivalent traffic Build up a Markov-chain  steady state distribution Find dropping probability for each state Calculate dropping probability 012HiHi H i +1 ……

13 Calculation of dropping probability (4) Equivalent traffic Build up a Markov-chain  steady state distribution Find dropping probability for each state Calculate dropping probability Remaining bandwidth exp. val. of bandwidth requirement of a batch

14 Calculation of dropping probability (5) Equivalent traffic Build up a Markov-chain  steady state distribution Find dropping probability for each state Calculate dropping probability Dropping probability Steady state distribution Conditional dropping probability, when there are j calls in the system

15 Calculation of the Channel Guard vector Search between possible channel guard values For all searched value, calculate dropping probability Find the largest value to ensure maximum bandwidth usage Example: dropping threshold = 1% Linear searchBinary search channel guard dropping probability channel guard

16 Validation Dropping threshold Simulation G 1 Simulation G 2 Model G 1 Model G

17 Conclusions The application of guard channel algorithms for HAP- based networks We proposed a fast method To approximate optimal channel guards Takes batch hand-offs into account Future work Calculate approximation errors Calculate confidence intervals