The Complete Bluetooth / IoT Design Course for iOS

Front-to-back design of iOS Bluetooth application and embedded ARM Cortex M3 micro-controller

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The Complete Bluetooth / IoT Design Course for iOS

What You Will Learn!

  • Front-to-back (iOS-to-embedded) design process for Bluetooth™/IoT solutions
  • How to design a Bluetooth™ enabled iOS application
  • How to implement custom UI controls with gesture support
  • How to implement Apple interoperability requirements for embedded Bluetooth™ micro-controllers
  • Programming an ARM Cortex-M3 embedded device
  • Programming in a real-time OS (RTOS) environment
  • Designing a device driver from the data sheet up; control it from iOS
  • Programming a Direct Memory Access Controller (DMAC)
  • Programming high-speed serial interface

Description

This course leads students through the complete process of designing and building a Bluetooth™-enabled iOS application that connects to an embedded ARM Cortex M3 micro-controller running a real-time operating system.  The embedded micro-controller is used to drive up to two strings of 60 RGB LEDs (120 LEDs maximum); the IOS application connects to the micro-controller to control the colour of the LEDs.  An ambient light sensor provides the means to control the on/off state of the LEDs based on the light level.

The course avoids the use of pre-supplied libraries and drivers thus exposing students to deep detail on how the technology actually works.  For iOS, using the Swift programming language, students design and implement a state-machine approach for the Bluetooth™ interface as a component of a model-view-controller (MVC) application architecture.  The embedded micro-controller application is developed using the C programming language running on top of the TI-RTOS real-time operating system.  To design the LED driver code, students start with the LED data sheet and, from this, develop the requirements for the micro-controller's Synchronous Serial Interface (SSI) and Direct Memory Access (DMA) peripherals both of which are programmed at the register level.  The ambient light sensor provides students with the opportunity to learn how the micro-controller's Analogue-to-Digital Converter (ADC) peripheral works and how it is programmed.

The course is appropriate for students with a basic understanding of C and Swift; students will need to have a functional iOS programming environment using Xcode.

Who Should Attend!

  • iOS developers who want to learn about embedded system design
  • Embedded developers who want to skill up on mobile design and development

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Tags

  • Internet Of Things

Subscribers

795

Lectures

128

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