the alife home system
DESCRIPTION
The aLife Home System. The aLife Home System. Home automation with a different approach Market flooded They all take the same approach: GUI’s that wait for user input aLife is event driven based on Temperatures Security Energy. aLife Example Event. Project Goals And Objectives. - PowerPoint PPT PresentationTRANSCRIPT
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The aLife Home System
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The aLife Home System
Home automation with a different approach
Market flooded They all take the same approach: GUI’s that
wait for user input aLife is event driven based on
Temperatures Security Energy
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aLife Example Event
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Project Goals And Objectives
#1 goal: Embedded Android Create a smart and customizable system Little to no learning curve Focus on active user interface Easy integration with any home Integrate with 3rd party devices Low cost
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Project Block Diagram
ZigBee Base
Base Station
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Remote Module
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Remote Modules - Communications
Module Communication Network– Wireless ZigBee More reliable, robust than wired Flexibility in module installation location Acceptable data rate (up to 250kbps) Acceptable transmission range (up to 75m) Open source, abundance of cheap
hardware and software available
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Remote Modules – Block Diagram
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Remote Modules – Schematic pg1
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Remote Modules – Schematic pg2
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Remote Modules – Schematic pg3
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Remote Modules – Power Supply
Power Supply Requirement Specifications 3.3VDC output, <= 20mV peak to peak ripple Source >= 250mA Efficiency >= 80% Work off of both 120VAC and battery
Implementation – National Semi LM2841XMK-ADJL switching buck DC-DC converter 3.3VDC output, 2mV peak to peak ripple
(simulated) 300mA max 83% efficiency (simulated)
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Remote Modules – Power Supply
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Remote Modules – MCU
MCU Requirement Specifications: Built in ZigBee transceiver Available ZigBee Consumer protocol stack Operate at >= 15MHz >= 32kB built in FLASH, >= 2kB built in
RAM Features: digital I/O, PWM, ADCs, UART,
12C
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Remote Modules – MCU
MCU Design Implementation Freescale MC13213R2
Built in ZigBee transceiver 20 MHz 60kB FLASH, 4kB RAM 8x ADC, 2x UART, 1x I2C, 5x PWM, 22x GPIO
BeeStack Zigbee 2007 compliant protocol stack
Program firmware in C using CodeWarrior IDE
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Remote Modules – MCU
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Remote Modules – Base Comms
Communication with Android Base Requirement Specs Must use a standard that is compatible with
both Android base and remote module hardware
Implementation RS232 using TI SN65C3221EPWR
transceiver Up to 1M baud rate 15kV ESD protection No hardware handshaking
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Remote Modules – Base Comms
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Remote Modules – Type 1 Functions
120VAC Power Sensor Requirement Specifications Measure up to 1800W (max power rating
for a standard wall outlet) Resolution down to 5W at 3% accuracy < 10m Ohms AC impedance >2kV electrical isolation between AC and
digital side Ability to disconnect AC output to save
appliance power
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Remote Modules – Type 1 Functions
Power Sensor Design: Allegro Micro ACS709LLFTR-20BB-T Hall effect
based AC current sensor – exceeds specs AC peak detector circuit for current sensor
output On Semi MC33072ADR2G instrumentation amplifier Gain controlled via ADI AD5241BRZ1M 1M Ohm, 256
step digital Pot for power ranging from 3W up to 1700W
Theoretical resolution down to 3W at 2% accuracy (still needs to be tested)
In series software controlled relay
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Remote Modules – Type 1 Functions
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Remote Modules – Type 1 Functions
Temperature Sensor Requirement Specs: Accurate to within +/- 2 degrees Celsius Range of -30 to +100 degrees Celsius I2C interface Remote temperature sensor loop (type 2
function) Implementation
NXP SA56004ED,118 temperature sensor Meets the above requirements
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Remote Modules – Type 1 Functions
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Remote Modules – Type 2 Functions
Type 2 Requirement specifications: 2 DAC and digital outputs – Lighting, motor
control 2 ADC inputs – Remote current sensor input 1 Temperature sensor loop – measure
outdoor temp 1 Software controlled relay – garage door
control Surge and short circuit protection for all I/O
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Remote Modules – Type 2 Functions
Type 2 Function Implementation Digital and DACs outputs- PWM fed into low
pass op amp circuits using Micron MCP665-E/UN dual op amp chip Can change from gnd to 3.3V in 3ms Output can drive +/- 90mA
2 ADC inputs Surge protection - 400W TVS, clamp at 7.3V Short protection - 70mA hold, 130mA trip PTCs 10A relay
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Remote Modules – Type 2 Functions
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Remote Modules – Type 2 Functions
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Remote Modules – ZigBee Transceiver
ZigBee Transceiver Requirement Specifications Transmission range of >= 30m ZigBee 2007 compliant protocol
ZigBee Transceiver Design Single port antenna design to minimize
components Transmission range still unknown pending
antenna development Will use Freescale’s BeeStack Zigbee 2007
protocol, specifically designed for this MCU
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Remote Modules – ZigBee Transceiver
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Remote Modules – PCB
PCB implementation: We will generate a layout from our
schematic in Altium and manufacture our own custom PCBs with the following target specs: 2-4 layer boards 3”x3” or smaller outside dimensions Double sided component placement to
minimize board area
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Base Station Hardware
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Design decision - Functionality
Need a board to be able to run the android operating system.
Has to be able to handle multiple clients accessing it at the same time (up to 5).
Supports serial communication to interact with the ZigBee devices on the network
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Design decision - Practicality
It’s a wall mounted unit, so the overall weight should be less than 5 pounds
Should be able to be wall mounted Needs to be powered off a wall outlet LCD should be bigger than 2 inches to be
considered easy to interact with
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Processor
i.MX51processor board
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i.MX51 Specifications
Processor – ARM Cortex A8 Runs anywhere from 600 MHz – over 1GHz Meets the minimum android system
requirements of 200 MHz Supports Ethernet Connectivity Contains multiple interfaces that we
needed to interact with our system
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Picture of Complete System
Included in this picture:Processor boardLCD ScreenExpansion board
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Communication Scheme
Serial Communication is the main way this board talks to the network
Problem – Android OS doesn’t support communication over serial ports!
After some difficulty implementing serial comm., we decided on using some lower level C code as an intermediary
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Format for the C code
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Base Station Software
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Specifications and Requirements
Functional:
Base station must be able to accept up to 5 simultaneous service request on a first come first serve basis
Multiple request to service the same notification must only be serviced once
Must be able to add/remove/update a row in database with 98% reliability
Security:
All user must have unique login; Allowed 5 unsuccessful attempts before lockout
Only registered remote client devices may have service request fulfilled by the base station
Notifications:
All notifications must have a unique notification ID Users shall only receive notifications that they are registered to receive
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Design Approach and Implementation
V-Model Proven and well structured Allows for redesign
Android Operation System Supports notifications Supports secure socket communication Database support
Eclipse IDE w/ Android Development Tools (ADT) Plug-in Free Best support for Android Development
V – Model
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Design Decision Database Management System
(DBMS)
SQLite Needed the use of a database for our software Had several choices, but implemented SQLite:
Extensive native support provided by Android platform.
Will run on Base Station, no need for additional hardware
No need for purchase server space. Relatively fast compared to other DBMS
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Software Block Diagram
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Software Block Diagram – Background Services
Fields: PowerNotif (Boolean): Field tells whether a powered device notification is set up SecurityNotif (Boolean): Field tells whether a security device notification is set up ControlNotif (Boolean): Field tells whether a control device notification is set up ActiveDevices(Device [ ]): Array of active devices in the network RequestedService (String): String representation of a request
Methods: BaseStation ():Constructor to create the GUI interface for our system. getActiveDevices(): Takes in no parameters. Returns all active devices in database. addDevice(Device X): Adds specified device to network and database. No return. removeDevice(Device X): Removed specified device from network and database. No
return. setNotifications(): Takes no parameters. Sets all initial notifications booleans. These will
dictate which notifications will be checked for continuously throughout the program. pollDevices(ActiveDevices): Takes in all active devices and updates their information in
the database tables. Returns nothing. socketParser (ByteStream): Takes in a socket byte stream and returns the requested
service in string format. requestService (Device X, RequestService): This method will take in a device and service
request and will fulfill the said service. Returns nothing.
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Software Block Diagram – Devices Class
Fields: ID (Int) : Device's ID Name (String): Name provided by user for device Status (Boolean): Provides status of device, on or off
Methods: getID(): Takes in no parameters. Returns an Int, the value of the devices ID. setID(Int ID): Takes in an Int and updates ID field. Does not return anything. getName(): Takes in no parameters. Returns a String, the value of the devices
Name. setName(String name): Take in a String and update Name field. Does not return
anything. getStatus(): Takes in no parameters. Returns Status of device setStatus(Boolean Status): Takes in a boolean and updates Status of device. Does
not return anything.
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Software Block Diagram – PowerDevice
Fields: TotalWatts (Int): Provides total watts used by device SetWatts (Int): Provides user defined limit for watt usage CurrentTemp (Int): Provides current temperature information SetTemp (Int): Provides user defined limit for temperature PollTime (Int): Time the information was polled SetTime (Int): Set time for notification purposes Timeframe (Int): Timeframe for power information i.e. 7 days or 30 days
Methods: PowerDevice(): Constructor to create object. Will have generic and specific constructors. turnOn(): Takes in no parameters. Sends message to ZigBee device to turn on turnOff(): Takes in no parameters. Sends message to ZigBee device to turn on getTemp(): Takes no parameters. Polls ZigBee device for temperature. setTemp(Int Temp): Sets ZigBee device with provided temperature. Does not return
anything. getWatt(): Takes no parameters. Polls ZigBee device for wattage. getTimeframe(): Takes in no parameters. Returns the timeframe field. setTimeframe(Int Timeframe): Sets the timeframe field. Does not return anything.
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Software Block Diagram – SecurityDevice
Fields: SetTime(Int): Provides set time for any notifications
Methods: SecurityDevice(): Constructor to create object. Will have generic and specific constructors. isOpen(): Takes in no parameters. Returns true if ZigBee device is open. IsLocked(): Takes in no parameters. Returns true if ZigBee device is locked.
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Software Block Diagram – ControlDevice
Fields: SetTime(Int): Set time for notification purposes
Methods: ControlDevice(): Constructor to create object. Will have generic and specific
constructors. turnOn(): Takes in no parameters. Sends message to ZigBee device to turn on turnOff(): Takes in no parameters. Sends message to ZigBee device to turn on
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Database Structure
The SQLite database will be utilized to store information about current users, devices, power history, notification history, and notification set ups. Each of these elements will be have their own table in our database with their own specified fields.
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Remote Client Device (RCD)
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Specifications and Requirements
Reliability No crashes 90% Notification Rate with connection
Usability Easy to answer notifications
Unobtrusive Notifications only when needed
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Specifications and Requirements
Android Phone Secure Connection Seamless transition between WiFi and
Cell Network Fast notifications
<10 sec with a connection
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Research and Design Decisions
Minimal focus on control Prevent detraction from the standard
practices
Notifications based on events Untapped market Cost savings
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Notifications Packet Structure
Type 1 (Power)
Type 2(Power)
Type (Power)
Type 4 (Temperature)
Type 5 (Temperature)
Notification type
Notification type
Notification Type
Notification Type
Notification Type
Notification Level
Notification Level
Notification Level
Notification Level
Notification Level
Notification ID# Notification ID# Notification ID# Notification ID# Notification ID#
Button 1 Text Button 1 Text
Button 2 Text Button 2 Text
Button 3 Text Button 3 Text
Current Temp
Current Set Point
Current HVAC Mode
Page Flip Page Flip Page Flip Page Flip Page Flip
Display State with Control Options
Display History with Notification Options
Display History with Notification Options
Display State with Control Options
Display History with Notification Options
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Class Structures
Android Notification Service
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Class Structures
aLife Menu System
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Design Approach and Implementation
GUI
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Testing – Base Station
Hardware Verified communication serially Could interact with the screen and it be user
friendly Software
Tested the adding of users and devices to the DB. Checked for concurrency issues among multiple
clients Tested that the software would generate a
notification whenever it received a signal to do so
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Testing – Remote Client and Wireless Network
Remote Client Showed that we can populate information
from the Base Station’s database Can interact with the Base Station through
notifications Maintain TCP/IP connection with the system
Wireless Network No real testing, unable to get the protocol
stack configured correctly
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Budgeting
Base Station Freescale i.MX51: $0.00 (on loan from
Advantor Systems) Remote Client
HTC Dream Android smartphone: $0.00 (owned by a group member)
Samsung Captivate Android smartphone: $0.00 (owned by a group member)
Remote Modules – per module costs on following table
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Budgeting – Per Remote Module
Remote Modules Freescale MC13213 – $0.00 (sampled from
Freescale)
Item Type Manufacturer
Part Number Cost/1 Multiple
MCU Freescale MC13213R2 $0.00
Dual op amps Micron MCP665-E/UN $1.46
Temp Sensor NXP SA56004ED,118 $0.85
Relay Tyco PB114006 $1.18 2
Terminal Block Tyco 1-284093-0 $2.21
DC-DC Converter
National LM2841XMK-ADJL
$3.90
Transformer Pulse BV030-7136.0 $3.36
Current Sensor Allegro ACS709LLFTR-20BB-T
$4.46
Instrum Amps On Semi MC33072AD $1.10
Digital Pot ADI AD5241BRZ1M $2.33
Balun Murata LDB212G4005C-001
$0.42
Crystal AVX CX3225SB16000E0FPZ25
$3.30
Misc $5.00
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Budgeting – Remote Module Component Costs
Total per module: $100.00 Additional costs for ZigBee base module
RS232 transceiver – TI SN65C3221EPWR, $2.63
DB9 connector - Norcomp 171-009-113R911, $3.00
No terminal block – -$2.21 Bare PCBs (6 sq inch) – $60.00 each Total cost of 4 remote modules: $640.00
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Budgeting - Summary
Total budge allowance - $600 Base Station - $0.00 Remote Client - $0.00 Remote Modules - $640
Total = $640 Slightly over budget, but we had a
good estimation from the start
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Milestone
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Successes/Difficulties
Successes Working high level product from the base
station to user notification Successfully manipulated our embedded
platform to handle the requests that we wanted
Difficulties Zigbee Serial Port Communication
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Questions
Any questions or comments?