Presentation is loading. Please wait.

Presentation is loading. Please wait.

Research Projects at Rits Ubiquitous Computing in the Streets: Through Vending Machine Network to N-1 Network Simulation Nobuhiko Nishio Department of.

Published byChastity Webster Modified over 9 years ago

Similar presentations

Presentation on theme: "Research Projects at Rits Ubiquitous Computing in the Streets: Through Vending Machine Network to N-1 Network Simulation Nobuhiko Nishio Department of."— Presentation transcript:

1 Research Projects at Rits Ubiquitous Computing in the Streets: Through Vending Machine Network to N-1 Network Simulation Nobuhiko Nishio Department of Computer Science, Ritsumeikan University

2 Outline Ubiquitous Computing & Communication Laboratory Personnel Related Projects Future Focus

3 UCCL and Related Projects Ubiquitous Computing and Communication –United Spaces Ubiquitous service architecture Location information service –Improvised Network Vending Machine Networking N-1 Network Simulation

4 Personnel Post-Doctoral –Gaute Lambertsen: Improvised Network Ph.D. student –Eiji Takimoto: N-1 Network Simulation M.S Student –Kazuhiro Suzuki Undergraduate Students –Minoru Matsui: United Spaces –Tomoaki Moriyama: United Spaces

5 United Spaces Project Nobuhiko Nishio Department of Computer Science, Ritsumeikan Univeristy

6 Software Architecture for Smart Spaces (Yet another…) Collaboration with Uchida Inc. (Furniture company) Software for SmartPAO and mobile host: –SmartLaboratory –SmartMeeting –SmartPresentation

7 Key issues is Space Management Key chain obtained by space login Operations on multiple spaces –Connection: between remote spaces –Fusion: between local spaces –Multi-space login Secure service proxy –Dynamic GUI generation with expiration

8 Building Applications Robust to Node-Mobility in Downtown Improvised Sensor Networks Eiji Takimoto 1,2 Gaute Lambertsen 1 and Nobuhiko Nishio 1,2 1 Japan Science and Technology Agency 2 Ritsumeikan University

9 Sensor Networks Improvised Among Downtown Users A spontaneous realization of ad-hoc network of wireless sensor nodes. Sensor nodes are people carrying mobile devices –e.g. cell-phones or PDA equipped with short-range wireless communication –Or cars equipped with wireless communication devices Our research project aims: –To effectively run third party applications unnoticed by node owner. –Applications like advertisement delivery, personal navigation and outdoor game entertainment etc.

10 Vending Machine Networking Coca Cola, KEPCO, etc. Fiber networking vending machines –Landmark and sink-node Cooperation with mobile nodes Novel services and applications: –Navigation/tour guidance –Security surveillance –Local traffic information casting –Etc.

11 Hybrid Network with Vending Machine Network and MANET Fiber Network Infrastructure

12 : Traveling Node : Next Landmark Node : Current Neighbor Node : Other Mobile Node One Navigation Step : Previous Landmark Node Hot-zone cluster Qualified paths

13 N-1 Network Simulation: A Mixed- Reality Approach for Wireless Ad-hoc Network Performance Evaluation Nobuhiko Nishio nishio@cs.ritsumei.ac.jpnishio@cs.ritsumei.ac.jp Eiji Takimoto takimoto@sol.cs.ritsumei.ac.jptakimoto@sol.cs.ritsumei.ac.jp Gaute Lambertsen gaute@jotu.cs.ritsumei.ac.jpgaute@jotu.cs.ritsumei.ac.jp Japan Science and Technology Agency PRESTO 21: Precursory Research for Embryonic Science and Technology Ritsumeikan University, Dept. of Computer Science 1-1-1 Noji-Higashi, Kusatsu-shi, Shiga 525-8577, Japan Tel. +81-77-566-1111 (Ext. 7466), Fax. +81-77-561-2669

14 N-1 Network Simulation: Representation of a real node in a virtual world REPRESENTATION OF REAL NODE SIMULATED OBJECTS

15 Evaluation of ideas Moving from simulations to experiments –So far, evaluation by network simulators –However, real node evaluation is also important Difficulties in managing experiments –All nodes are mobile –A large number of mobile nodes –Experimentation environment –Inference with other networks We are constructing a test-bed using real nodes in a practical fashion

16 N-1 Network Simulation N-1 nodes are implemented in the simulation (virtual nodes) 1 node is implemented on an actual node Packets from virtual nodes to the real node –Spoofed by the simulator host and transmitted over the wireless interface Packets from the real node to the virtual nodes –The simulator host retrieves all packets, and transmits it to the nodes in the simulation with virtual packets

17 N-1 Network Simulation Real world Simulated world Virtual packet Real packet from simulated world Simulator host Real mobile host Correspondent host Virtual packet into real world Virtual packet from real world Real packet into simulated world

18 N-1 implemented over ns-2 platform Network simulator 2 (ns-2) emulation functionality –Real-time scheduler –Packets retrieved by Tap object –Packets transmitted by Network agent Wireless network extensions –Examination of packet arrival –Support for node mobility Input of node mobility Reflection of node mobility in the simulation –Reflection of radio signal strength

19 Simulator host, IP: 10.10.10.100, MAC: PCMAC… Actual node IP: 10.10.10.10 MAC: … Virtual reflection Simulator node 2 Simulator node 1 ID1 IP: 10.10.10.1 ID2 IP: 10.10.10.2 Zaurus PCMAC: SimIP ID:ID(MAC) --------------- :ID(MAC) Ad-hoc wireless interface

20 Simulator host, IP: 10.10.10.100, MAC: PCMAC… Actual node IP: 10.10.10.10 MAC: … Virtual reflection Simulator node 2 Simulator node 1 ID1 IP: 10.10.10.1 ID2 IP: 10.10.10.2 Zaurus PCMAC: SimIP ID:ID(MAC) --------------- :ID(MAC) Ping Reply Ad-hoc wireless interface

21 Simulator host, IP: 10.10.10.100, MAC: PCMAC… Actual node IP: 10.10.10.10 MAC: … Virtual reflection Simulator node 2 Simulator node 1 ID1 IP: 10.10.10.1 ID2 IP: 10.10.10.2 Zaurus PCMAC: SimIP ID:ID(MAC) --------------- :ID(MAC) Ad-hoc wireless interface Reply Create header (ether, ID, ICMP) Retrieve and analyze packets for ID1 and ID2 ARP request ARP response Ping

22 Future work Static -> Mobile virtual nodes –Simulation nodes move –Reflection of variations in signal strength inside the simulator Mobility support for the real node –Simulated mobility through the user interface Additional wireless signal interfaces Virtual mobility reflected by changes in received signal strength Simulator platform Real node Wireless interfaces Variation in distance/signal strength over wireless link

23 Demo@MobiCom2003

24 Future Focus Inter-Ubiquitous Networking –Operations on multiple Smart Spaces –Connection, fusion, extraction, etc… Enter into a space A wearing the other space B TV conference by connecting multiple spaces –Heterogeneous policy resolution User authentication Media/Service description Communication hand-off

Download ppt "Research Projects at Rits Ubiquitous Computing in the Streets: Through Vending Machine Network to N-1 Network Simulation Nobuhiko Nishio Department of."

Similar presentations

Network Layer IPv6 Slides were original prepared by Dr. Tatsuya Suda.

Network Layer IPv6 Slides were original prepared by Dr. Tatsuya Suda.
Knowledge Fusion Research Workshop St. Michaels, Maryland October 19-22, 2004 KMCOE Surveillance Imagery Over An Agent-Based Platform Dr. Willie Thompson,

Knowledge Fusion Research Workshop St. Michaels, Maryland October 19-22, 2004 KMCOE Surveillance Imagery Over An Agent-Based Platform Dr. Willie Thompson,
Simulation and Analysis of DDos Attacks Poongothai, M Department of Information Technology,Institute of Road and Transport Technology, Erode Tamilnadu,

Simulation and Analysis of DDos Attacks Poongothai, M Department of Information Technology,Institute of Road and Transport Technology, Erode Tamilnadu,
Mohamed Hefeeda 1 School of Computing Science Simon Fraser University, Canada Multimedia Streaming in Dynamic Peer-to-Peer Systems and Mobile Wireless.

Mohamed Hefeeda 1 School of Computing Science Simon Fraser University, Canada Multimedia Streaming in Dynamic Peer-to-Peer Systems and Mobile Wireless.
Vivaldi Coordinate Service Justin Ma, Patrick Verkaik, Michael Vrable Department of Computer Science And Engineering UCSD CSE222A, Winter 2005.

Vivaldi Coordinate Service Justin Ma, Patrick Verkaik, Michael Vrable Department of Computer Science And Engineering UCSD CSE222A, Winter 2005.
1 GENI: Global Environment for Network Innovations Jennifer Rexford Princeton University

1 GENI: Global Environment for Network Innovations Jennifer Rexford Princeton University
Security Awareness: Applying Practical Security in Your World

Security Awareness: Applying Practical Security in Your World
A Study of Mobile IP Kunal Ganguly Wichita State University CS843 – Distributed Computing.

A Study of Mobile IP Kunal Ganguly Wichita State University CS843 – Distributed Computing.
1 Reminding - ARP Two machines on a given network can communicate only if they know each other’s physical network address ARP (Address Resolution Protocol)

1 Reminding - ARP Two machines on a given network can communicate only if they know each other’s physical network address ARP (Address Resolution Protocol)
COS 461: Computer Networks

COS 461: Computer Networks
5-1 Data Link Layer r What is Data Link Layer? r Wireless Networks m Wi-Fi (Wireless LAN) r Comparison with Ethernet.

5-1 Data Link Layer r What is Data Link Layer? r Wireless Networks m Wi-Fi (Wireless LAN) r Comparison with Ethernet.
26th May, 20061 Middleware or Simulator for Autonomic Communications Yang Qiu Networking Laboratory Helsinki University of Technology

26th May, Middleware or Simulator for Autonomic Communications Yang Qiu Networking Laboratory Helsinki University of Technology
Www.ciscopress.com Copyright 2003 CCNA 1 Chapter 7 TCP/IP Protocol Suite and IP Addressing By Your Name.

Copyright 2003 CCNA 1 Chapter 7 TCP/IP Protocol Suite and IP Addressing By Your Name.
Smart Learning Services Based on Smart Cloud Computing

Smart Learning Services Based on Smart Cloud Computing
21.1 Chapter 21 Network Layer: Address Mapping, Error Reporting, and Multicasting Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction.

21.1 Chapter 21 Network Layer: Address Mapping, Error Reporting, and Multicasting Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction.
EstiNet Network Simulator & Emulator 2014/06/03 602430017 尉遲仲涵.

EstiNet Network Simulator & Emulator 2014/06/ 尉遲仲涵.
1 Integrating a Network IDS into an Open Source Cloud Computing Environment 1st International Workshop on Security and Performance in Emerging Distributed.

1 Integrating a Network IDS into an Open Source Cloud Computing Environment 1st International Workshop on Security and Performance in Emerging Distributed.
Protocol Headers Pre DA SA 0800h … version H L 6 TCP Header Data FCS

Protocol Headers Pre DA SA 0800h … version H L 6 TCP Header Data FCS
FI-WARE – Future Internet Core Platform FI-WARE Interface to Networks and Devices (I2ND) July 2011 High-level description.

FI-WARE – Future Internet Core Platform FI-WARE Interface to Networks and Devices (I2ND) July 2011 High-level description.
Adapted from: Computer Networking, Kurose/Ross 1DT066 Distributed Information Systems Chapter 6 Wireless, WiFi and mobility.

Adapted from: Computer Networking, Kurose/Ross 1DT066 Distributed Information Systems Chapter 6 Wireless, WiFi and mobility.

Similar presentations

Ads by Google