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Courseware - Mobile Computing

  • Overview of the history, evolution, and compatibility of wireless standards
  • The special problems of wireless and mobile computing
  • Wireless local area networks and satellite-based networks
  • Wireless local loops
  • Mobile Internet protocol
  • Mobile aware adaption
  • Extending the client-server model to accommodate mobility
  • Mobile data access: server data dissemination and client cache management
  • Software package support for mobile and wireless computing
  • The role of middleware and support tools
  • Performance issues
  • Emerging technologies
  • ACIA Autobot: (ASU, Carl Hayden High School, Intel)
  • Material Type:

    Demo / Simulation

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    Technical Format:

    PDF document

    URL:

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    Location:

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    Date Added:

    01/24/2011

    Date Modified:

    01/24/2011

    Author

    Yinong Chen, Arizona State University
    Description:

    ASU School of Computing, Informatics, and Decision Systems Engineering is partnering with Intel and Carl Hayden High School to create autonomous robots for different applications, including office patrolling, home automation, and high school robotics competitions. ACIA is based on Intel embedded and multi-core technologies. ASU team uses Service-Oriented Computing (SOC) paradigm to create a development environment supporting Visual Programming Language VPL, which is easy enough for high school students to program auto-nomousrobots and to learn computing concepts.

    Recommended Audience:

    Beginning programmers, Secondary School students, Undergraduate students

    Language:

    English

    Keywords:

    robot, atom, VPL
  • Assuring Mobile Physical Services for the New Generation of Networks (ASU)
  • Material Type:

    Article / White paper

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    Technical Format:

    PDF document

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    Date Added:

    01/13/2011

    Date Modified:

    01/13/2011

    Author

    Yinong Chen, Arizona State University
    Description:

    The development of computing and communication systems has gone through a spiral cycle of centralization and decentralization schemas. The earliest telephone network used decentralized point-to-point connections. It moved to centralized switching system as the number of devices increased. The centralized computing and communication systems further moved into a decentralized paradigm, as devices expand and dependability of large systems becomes a dominating factor. The current cloud computing and communication systems appear to be a centralized system where computing and communication resources are not in the client computers but in an integrated infrastructure. Nevertheless, the implementation of the centralized infrastructure is equipped with decentralized and redundant resources, which makes the system more dependable as any internal failures can be tolerated internally. However, the terminal devices and their interfaces to the centralized infrastructure remain vulnerable to the single-point-of-failures. This paper focuses on terminal devices and their interfaces to the new generation of assurance network and presents the challenges of making the devices and the interfaces as dependable as the assurance network. The idea of achieving the goal is through a pool of Mobile Physical Services (MPS) that can connect to multiple networks and can be shared by neighboring users.

    Recommended Audience:

    Advanced programmers, Graduate students, Undergraduate students

    Language:

    English

    Keywords:

    Cloud, robot, networking, services
  • Wireless Systems Instructional Design
  • Material Type:

    Lecture / Presentation, Homework, Quiz / Test

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    Technical Format:

    RTF document, zip archive, .htm, PDF document

    Location:

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    Date Added:

    10/28/2010

    Date Modified:

    10/28/2010

    Author

    Narayan Mandayam, Wireless Information Network Laboratory (WINLAB) at Rutgers University
    Badri Nath, Wireless Information Network Laboratory (WINLAB) at Rutgers University
    Dipankar Raychaudhuri, Wireless Information Network Laboratory (WINLAB) at Rutgers University
    Ivan Seskar, Wireless Information Network Laboratory (WINLAB) at Rutgers University
    Description:

    The Wireless Systems Instructional Design Course utilizes a multidisciplinary approach to foster understanding and hands-on design of wireless systems with emphasis on crosslayer issues. This course combines graduate elements of both Electrical and Computer Engineering (ECE) and Computer Science (CS) Courses.

    Topics covered include: wireless systems and technologies: standards, spectrum and evolution; radio propagation, interference and PHY layer issues; design and protocols of MAC layer, network layer; challenges & opportunities in application designs for resource and cost constrained mobile terminals; impact and interaction of PHY, MAC and network layers; challenges of crosslayer design; challenges in simulation and emulation of wireless system design; software and hardware packages in the instructional laboratory (e.g. SPW, Spectrum Analyzer, ns2, OPNET, etc).

    Recommended Audience:

    Advanced programmers, Beginning programmers, Undergraduate students

    Language:

    English

    Keywords:

    wireless systems, spectrum and evolution, radio propagation, PHY layer issues, design and protocols of MAC layer, network layer
  • Intel® Software Development Tools for Intel® Atom™ Processor and Moblin Powered Devices
  • Material Type:

    Lecture / Presentation

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    Technical Format:

    Powerpoint presentation

    Location:

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    Date Added:

    08/19/2010

    Date Modified:

    08/19/2010

    Author

    Intel China, Intel
    Description:

    This material is developed for the pioneer workshop held at China Zhejiang University for professors from China's top 26 universities as a part of embedded platform curriculum development initiative, which is to support embedded platform curriculum updates and lab resource development in China.

    This lecture note covers the following areas:

    • Intel’s Software Development Tools for System Development
    • System cross development and Intel’s tools offering
    • Bootprocess, Bootloaders
    • OS Kernel Development
    • Kernel Modules and Device Drivers

    Recommended Audience:

    Undergraduate students

    Language:

    English

    Keywords:

    Bootprocess, Bootloaders, System Development, Kernel Modules, Device Drivers
  • Intel Atom Platform Software and Hardware Specifications(Embedded Platform Workshop at China Zhejiang Univ. )
  • Material Type:

    Lecture / Presentation

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    Technical Format:

    PDF document

    Location:

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    Date Added:

    08/19/2010

    Date Modified:

    08/19/2010

    Author

    China Shenzhen , Up-Tech
    Description:

    This material is developed for the pioneer workshop held at Zhejiang for professors from China's top 26 university as a part of embedded platform curriculum development initiative, which is to support embedded platform curriculum updates and lab resource development in China.

    This lecture covers:

    • Intel ® Atom™ Platform hardware specifications
    • Embedded OS including Moblin V2, system software and development tools specifications
    • ROI analysis for X86 architecture based Atom platform and future perspective.

    Recommended Audience:

    Beginning programmers, Undergraduate students

    Language:

    Chinese

    Keywords:

    embedded platform, hardware specifications, Embedded OS
  • Intel Atom Platform Embedded Solution (Embedded Platform Workshop at China Zhejiang Univ.)
  • Material Type:

    Lecture / Presentation

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    Technical Format:

    Powerpoint presentation

    Location:

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    Date Added:

    08/19/2010

    Date Modified:

    08/19/2010

    Author

    He Wang, Intel China
    Description:

    This material is developed for the pioneer workshop held at Zhejiang for professors from China's top 26 university as a part of embedded platform curriculum development initiative, which is to support embedded platform curriculum updates and lab resource development in China.

    This lecture covers Intel ® Atom™ Processor for Embedded Market analysis, Atom™ Processor Power Optimization Intel ® System Controller Hub (SCH), Video and Graphics and Atom™ Platform for Embedded Applications.

    Recommended Audience:

    Advanced programmers, Undergraduate students

    Language:

    English

    Keywords:

    embedded platform
  • Lab: Intel Atom Platform System Configuration (Embedded Platform Workshop at China Zhejiang Univ. )
  • Material Type:

    Lecture / Presentation

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    Technical Format:

    Word document

    Location:

    Go to materials

    Date Added:

    08/19/2010

    Date Modified:

    08/19/2010

    Author

    China Shenzhen , Up-Tech
    Description:

    This material is developed for the pioneer workshop held at Zhejiang for professors from China's top 26 university as a part of embedded platform curriculum development initiative, which is to support embedded platform curriculum updates and lab resource development in China.

    This lab manual covers:

    • Touch-screen driver installation and testing
    • WiFI Driver installation and testing
    • GPIO Port testing
    • Serial Port Communication and testing using Serial Port testing software

    Recommended Audience:

    Advanced programmers, Beginning programmers, Undergraduate students

    Language:

    Chinese

    Keywords:

    embedded platform, WiFI Driver installation, GPIO Port testing
  • Wireless Networks and Mobile Systems
  • Material Type:

    Lecture / Presentation, Homework

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    Technical Format:

    .htm, zip archive

    Location:

    Go to materials

    Date Added:

    08/19/2010

    Date Modified:

    08/19/2010

    Author

    Luiz DaSilva, Bradley Department of Electrical and Computer Engineering, Virginia Polytechnic Institute and State University
    Scott Midkiff , Bradley Department of Electrical and Computer Engineering, Virginia Polytechnic Institute and State University
    Description:

    The Wireless Networks and Mobile Systems Course is a multidisciplinary, project-orientated design course that integrates topics at all layers of wireless and mobile systems, from wireless physical layer constraints through mobile application design. The course emphasizes "hands-on' learning through experiments, case studies and design projects.

    This course is focused at upper level undergraduates or an overview course for graduate students. The class utilizes a multi-level approach to instruction by combining weekly lectures, in-class lab sessions, at-home exercises (one week assignments) and longer projects (one month assignments). This comprehensive teaching approach is designed to produce students with a working knowledge of the topic and a true understanding of the presiding standards. Please utilize the Class Schedule to understand how these elements work together.

    Recommended Audience:

    Graduate students

    Language:

    English

    Keywords:

    wireless and mobile systems, wireless physical layer constraints, mobile application design
  • Wireless Systems Instructional Design (Rutgers University)
  • Material Type:

    Homework, Quiz / Test, Coding example

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    Technical Format:

    RTF document, zip archive, .htm, PDF document

    Location:

    Go to materials

    Date Added:

    08/19/2010

    Date Modified:

    08/19/2010

    Author

    Professors Narayan Mandayam, Wireless Information Network Laboratory (WINLAB) at Rutgers University
    Badri Nath , Wireless Information Network Laboratory (WINLAB) at Rutgers University
    Dipankar Raychaudhuri , Wireless Information Network Laboratory (WINLAB) at Rutgers University
    Ivan Seskar, Wireless Information Network Laboratory (WINLAB) at Rutgers University
    Description:

    The Wireless Systems Instructional Design Course utilizes a multidisciplinary approach to foster understanding and hands-on design of wireless systems with emphasis on crosslayer issues. This course combines graduate elements of both Electrical and Computer Engineering (ECE) and Computer Science (CS) Courses.

    Topics covered include: wireless systems and technologies: standards, spectrum and evolution; radio propagation, interference and PHY layer issues; design and protocols of MAC layer, network layer; challenges & opportunities in application designs for resource and cost constrained mobile terminals; impact and interaction of PHY, MAC and network layers; challenges of crosslayer design; challenges in simulation and emulation of wireless system design; software and hardware packages in the instructional laboratory (e.g. SPW, Spectrum Analyzer, ns2, OPNET, etc).

    Recommended Audience:

    Graduate students

    Language:

    English

    Keywords:

    wireless systems and technologies, radio propagation, challenges of crosslayer design, design and protocols of MAC layer, interference and PHY layer issues
  • Open Source Software and Moblin for Intel Atom Platform
  • Material Type:

    Lecture / Presentation

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    Technical Format:

    Powerpoint presentation

    Location:

    Go to materials

    Date Added:

    08/13/2010

    Date Modified:

    08/13/2010

    Author

    Intel China, Intel
    Description:

    This material is developed for the pioneer workshop held at China Zhejiang University for professors from China's top 26 universities as a part of embedded platform curriculum development initiative, which is to support embedded platform curriculum updates and lab resource development in China.

    This document provides analysis to the prerequisite for mobile Internet in China and opportunity for open source software Moblin. It also covers Mobline v2.0's user interface, functionality, system structure, and application

    Recommended Audience:

    Advanced programmers, Beginning programmers, Undergraduate students

    Language:

    Chinese

    Keywords:

    embedded platform, mobile Internet, Moblin
  • Lab: Linux Red Hat Embedded OS Kernel for Intel Atom Platform (Embedded Platform Workshop at China Zhejiang Univ.)
  • Material Type:

    Lecture / Presentation

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    Technical Format:

    Word document

    Location:

    Go to materials

    Date Added:

    08/09/2010

    Date Modified:

    08/09/2010

    Author

    China Shenzhen , Up-Tech
    Description:

    This material is developed for the pioneer workshop held at China Zhejiang University for professors from China's top 26 universities as a part of embedded platform curriculum development initiative, which is to support embedded platform curriculum updates and lab resource development in China.

    This lab manual covers 10 practical labs on Intel Atom platform with Redhat Linux Embedded OS kernel 2.4:

    • Lab 1: Process Build under Linux
    • Lab 2: Multi-processes communication under Linux
    • Lab 3: Thread Build under Linux
    • Lab 4: Multi-threads communication under Linux
    • Lab 5: Linux network programming: TCP
    • Lab 6: Linux network programming : UDP
    • Lab 7: Linux GUI programming : QT installation
    • Lab 8: Linux GUI programming: QT Command Line programming
    • Lab 9: Linux GUI programming: Designer programming
    • Lab 10: Linux Device Driver programming

    Recommended Audience:

    Advanced programmers, Beginning programmers, Undergraduate students

    Language:

    Chinese

    Keywords:

    Thread Build under Linux, Multithreads communication under Linux, Multiprocesses communication under Linux, QT Command Line programming