wiki:Other/Summer/2015/cMF3

Version 10 (modified by mrhohn, 9 years ago) ( diff )

Real-Time Cyber Physical Systems Application on MobilityFirst

Table of Contents

  1. 2015 Winlab Summer Internship
    1. Projects
    1. Indoor Localization
    2. Introduction
      1. Motivation
      2. What is ORBIT Lab?
      3. Overall Approach
      4. Resources
      5. Procedure
      6. Plan of Action
      7. Weekly Presentations
      8. Team
    1. SDR in ORBIT: Spectrum Sensing
      1. Introduction
      2. Team
      3. Objectives
      4. Weekly Progress
      5. Experiments
    1. LTE Unlicensed (LTE-U)
      1. Introduction
      2. Objectives
      3. Theory
      4. Analyzing Tools
      5. Experiment 1: Transmit and Receive LTE Signal
      6. Experiment 2: The Waterfall Plot
      7. Experiment 3: eNB and UE GUI
      8. Experiment 4: Varying Bandwidths
      9. Experiment 5: Working with TDD or FDD
      10. Experiment 6: TDD with Varying Bandwidths
      11. Experiment 7: TDD Waterfall Plot
      12. Poster
      13. Members
      14. Materials
      15. Resources
    1. Distributed Simulation of Power Grid
      1. Introduction
      2. Objectives
      3. People
      4. Resources
    1. Context-Aware IoT Application on MobilityFirst
      1. Introduction
      2. Objectives
      3. System Architecture
      4. Network Diagram
      5. Experiment Tools
      6. Results
      7. Future Work
      8. Team member
    1. Real-Time Cyber Physical Systems Application on MobilityFirst
      1. Introduction
      2. Preliminary Goal
      3. Outline of the Project
      4. Tasks
      5. Team
    1. GNRS Assited Inter Domain Routing
      1. Introduction
    1. GNRS Management
      1. Introduction
      2. Work Milestones
    1. Effective Password Cracking Using GPU
      1. Introduction
      2. Objectives
      3. GPU
      4. Experiment
      5. Tools and Resources
  11. Body Sensor Networks
    1. Introduction
    2. Project Overview
    3. Data Collection
      1. Initial BCI data
    4. Data Analysis
    5. Tools/ Resources
    1. Unity Traffic Simulation
      1. Introduction
      2. Objectives
      3. People
    1. Mobile Security
      1. Introduction
      2. Motivation
    2. Resources
  14. Dynamic Video Encoding
    1. Introduction
    2. Goals
    3. Background Information
      1. Anatomy of a Video File
      2. What is a CODEC?
      3. H.264 Compression Algorithm
      4. Scalable Video Coding
      5. Network Emulator Test Results
      6. DASH Multi-Bitrate Encoding
      7. DASH Content Generation
      8. Bitrate Profiles
      9. Video Encoding Algorithms
      10. GPAC
    4. Presentations
    5. People

Introduction

Most Cyber Physical Systems (http://en.wikipedia.org/wiki/Cyber-physical_system) are characterized by stringent network requirements both in terms of latency (i.e. less than 100 msec response time) and scalability (i.e. Trillion-order scalability for CPS devices/objects ).

MobilityFirst, thorugh its name based Virtual Network Architecture used to provide Application Specific Routing to services and applications, can be exploited in the attempt of assisting these applications to meet their requirements.

The goal of the project is to implement a CPS Application based on computer vision (i.e. object recognition) that will be used in conjunction with MobilityFirst’s Virtual Network to showcase the benefits of the network service.

Preliminary Goal

preliminary-goal

Outline of the Project

outline

Tasks

  • Part A: Cyber Physical System (Higher Priority Tasks)
    • Get familiar with camera system available
    • Implement application that transmits video over the network in standard format. Requirements:
      • Control of frame per second transmitted over the network
      • Potentially start with transmitting single frames (i.e. still pictures)
    • Implement server application for object recognition. Standard libraries are available. Random references:
    • Collect training set of objects/buildings
    • Implement simple graphical interface to display processing results
  • Part B: MobilityFirst
  • Integration
    • CBS application port to the MobilityFirst API. Two options:
      • Through IP-to-MF proxy and vice-versa
      • Replacement of network logic through native MF implementation (preferred option)
    • Test on Orbit MF topology
    • Run on top of MobilityFirst VN with ASR

Team

  • Karthikeyan Ganesan, Electrical and Computer Engineering, Rutgers University
  • Wuyang Zhang, Electrical and Computer Engineering, Rutgers University
  • Zihong Zheng, Electrical and Computer Engineering, Rutgers University

Kathic-portrait Wuyang-portrait Zihong-portrait

     Karthikeyan Ganesan                  Wuyang Zhang                          Zihong Zheng

Attachments (20)

Note: See TracWiki for help on using the wiki.