date_range Débute le 2 mai 2016
event_note Se termine le 13 juin 2016
list 6 séquences
assignment Niveau : Introductif
chat_bubble_outline Langue : Anglais
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Les infos clés

credit_card Formation gratuite
timer 48 heures de cours

En résumé

In this MOOC, we will learn how to apply patterns and frameworks to alleviate the complexity of developing concurrent applications on mobile devices running Android that connect to popular cloud computing platforms.

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Le programme

This MOOC is organized into the following sections (all of which contain a mixture of pre-recorded videos and all of which are subject to change):

  • Section 0: Course Introduction
    • Part 1: Course Organization and Topics
    • Part 2: Course Prerequisites, Workload, and Learning Strategies
    • Part 3: Concurrency Motivations
    • Part 4: Concurrency Challenges 
    • Part 5: Overview of Patterns and Frameworks 
    • Part 6: Overview of Android Layers
  • Section 1: Overview of Concurrency for Android and Java
    • Part 1: Java Threading Mechanisms
    • Part 2: Java Built-in Synchronization Mechanisms
    • Part 3: Java Semaphores
    • Section 2: Android Concurrency Frameworks: Programming
      • Part 1: Overview of Android Concurrency Framework Classes
      • Part 2: Overview of the Threaded Downloads Application
      • Part 3: Overview of  Handlers, Messages, and Runnables (HaMeR) Framework
      • Part 4: Overview of the AsyncTask Framework
      • Part 5: Evaluating Android Concurrency Frameworks
    • Section 3: Android Concurrency Frameworks: Internals
      • Part 1:  Android Looper
      • Part 2: Android Handler 
      • Part 3: Posting and Processing Runnables with the Android HaMeR Framework
      • Part 4: Sending and Handling Messages with the Android HaMeR Framework
      • Part 5: Blackbox and Whitebox Frameworks with AsyncTask
    • Section 4: Communication Patterns in Android
      • Part 1: Overview of Android Concurrency Framework Patterns
      • Part 2: Coordinating Concurrent Access with the Monitor Object Pattern
      • Part 3: Ensuring Only One Looper Per Thread with the Thread-Specific Storage Pattern
      • Part 4: Passing Commands to Handlers with the Command Processor Pattern
      • Part 5: Passing Messages to Handlers with the Active Object Pattern
      • Part 6: Decoupling Synchronous and Synchronous Processing with the Half-Sync/Half-Async Pattern

    Throughout this MOOC we'll focus on pattern-oriented software architecture, with an emphasis on concurrent programming in the context of Android middleware systems programming mechanisms, such as synchronous and asynchronous concurrency models. We illustrate by example how key pattern and framework concepts and relationships are applied in Android from both an application and infrastructure perspective. Many code examples are shown throughout using Java, with case study projects used to reify the key points throughout all the material in this MOOC.

    The PDF versions of all the slides used in the MOOC will be available online as the videos become available on the MOOC website.


    Les intervenants

    • - Electrical Engineering and Computer Science

    Le concepteur

    Vanderbilt University, located in Nashville, Tenn., is a private research university and medical center offering a full-range of undergraduate, graduate and professional degrees.

    La plateforme

    Coursera est une entreprise numérique proposant des formation en ligne ouverte à tous fondée par les professeurs d'informatique Andrew Ng et Daphne Koller de l'université Stanford, située à Mountain View, Californie.

    Ce qui la différencie le plus des autres plateformes MOOC, c'est qu'elle travaille qu'avec les meilleures universités et organisations mondiales et diffuse leurs contenus sur le web.

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