First Results with eBlocks: Embedded Systems Building Blocks - PowerPoint PPT Presentation

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First Results with eBlocks: Embedded Systems Building Blocks

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Department of Computer Science and Engineering. University of California, Riverside ... Oops! Garage door. left open. at night. Frank Vahid, UC Riverside. 4 ... – PowerPoint PPT presentation

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Title: First Results with eBlocks: Embedded Systems Building Blocks


1
First Results with eBlocks Embedded Systems
Building Blocks
  • Susan Cotterell, Frank Vahid, Walid Najjar and
    Harry Hsieh
  • Department of Computer Science and Engineering
  • University of California, Riverside
  • Also with the Center for Embedded Computer
    Systems at UC Irvine
  • http//www.cs.ucr.edu/vahid
  • This work is being supported by the National
    Science Foundation and a Department of Education
    GAANN Fellowship

2
Introduction A Typical Problem
Garage door
3
Introduction A Typical Problem
Garage door left open at night
Oops!
4
Introduction Solution Simple Embedded System
  • Blink LED in the bedroom if garage door is open
    at night
  • Homeowner sees LED before sleep
  • Components needed
  • Light sensor
  • Contact switch
  • Logic (no light AND switch open)
  • Wireless transmitter
  • Wireless receiver
  • LED

5
Introduction Solution is not so easy
  • Find components
  • Parts catalogs, from different vendors, many
    varieties
  • Intended for specialists
  • Read datasheets to understand components
  • 10s to 100s of pages
  • Intended for specialists

6
Introduction Solution is not so easy
  • Program microcontrollers
  • Software
  • Tool
  • Interfacing/communication
  • Debug
  • Hardware
  • Breadboard or PCB
  • Debug
  • Other Issues...
  • Battery drains in 2 days
  • Need packets - requires networking skills

7
Introduction Solution is not so easy
  • We gave this as a project in an upper-division
    embedded systems university course, several years
    in a row
  • Three week project
  • Students already took courses, from various
    universities, involving digital design,
    microcontrollers, electronics, and interfacing
    with sensors/displays
  • Overall, 50 students attempted the project
  • Only 20 completed the project
  • Problems
  • Misunderstanding (or vague) data sheets
  • Interfacing errors
  • Debugging difficulties
  • No way a regular person could build this
    seemingly simple, useful system

Completed 29
Not Completed 71
8
Introduction Not Just Garage Doors
  • Home monitoring
  • Garage door open, side fence open, visitor at
    front door, pool occupied
  • Inventory
  • Restaurants, stores, storehouses
  • Assistance for disabled
  • Hard of hearing (vibration when sound), vision
    impaired, object locators
  • Doorbell type applications
  • Proximity doorbell (carpoolers), temporary
    building usage, silent doorbells, customer
    detection
  • Logging/tracking applications
  • Log temperature, humidity, customer traffic, car
    speeds
  • Ad-hoc security
  • Voting systems
  • Countless more applications that today either
    dont exist, or are too costly
  • Low volume, or custom designed

9
Introduction Solution Mass-produced
easy-to-use monitor/control system building blocks
  • Shrinking processor cost and size enables new
    solution
  • Put intelligence in every sensor, in every output
    device, etc.
  • Proposed solution
  • Define matchbox-sized building blocks with
    accompanying standards, protocols, etc.
  • Easily connected, no programming/electronics
    experience, battery powered
  • Like connecting LEGOs

tx
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10
Design Issues
  • Categories of blocks
  • Sensors, Outputs, Communication, Logic/Timing
  • Presently Boolean only (yes/no) now extending to
    integers
  • Presently about 10 items in each category
  • Enough to build huge variety of systems
  • Working iteratively with users to refine and
    create new blocks
  • Definition of compute and communicate protocols
  • Main constraints good response, but 2-3 year
    battery
  • Everything is inter-related, difficult problem
  • Traditional separation of concerns
    (compute/comm., and networking layers) too
    inefficient
  • Need tools to automate exploration

11
Defining Basic eBlocks Partial Catalog
eBlock Diagram Description Interface
Magnetic Contact Switch Determines when contact between two sensors is made. yes contact between sensors no no contact between sensors
Light Sensor Sensor detects presence of light. yes light detected no no light detected
Button Indicates whether button is pressed or not. yes button pressed no button not pressed
LED Device blinks a light when input is a yes. Device emits no light when input is no. yes blink LED no turn LED off
Splitter Device receives a signal and replicates that signal on each output. yes output yes signal no output no signal
Toggle An input of yes toggles (inverts) the current value outputted by the device. yes toggle previous output value no do nothing
 2-Input Logic Block  Configurable logic block programmed by the user via DIP switch. For each of the possible outcomes of a and b, there is a corresponding switch which can be set so the resulting output is a yes or no for that particular combination.
12
Defining Basic eBlocks How to Implement Logic?
  • Logic to detect motion at night
  • Motion sensor output A yes, light sensor output
    B no
  • Motion at night A AND (NOT B) A B
  • Equations too hard for regular person, plus how
    to enter it?
  • In general, regular people very weak with logic
  • Cant create unique eBlock for every unique
    2-input logic function
  • Create one 2-input logic block
  • User must configure that block
  • Solution print truth table on block, user sets
    switches for each possible input
  • Not ideal, but sufficient for now

13
Building eBlocks Systems
  • Build the Garage Door Open at Night System Using
    eBlocks

Plug pieces together and the system is done!
14
Current Status Working Prototypes
Garage Door Open at Night (wired solution)
15
eBlock System Implementations
  • Cafeteria Food Alert

16
Battery Lifetimes
eBlocks Energy/day (J/day) Energy/day (J/day) Lifetime
eBlocks PIC HW Lifetime
Button 2.722 0 20 years
Light Sensor 2.722 44.5 1 year
LED 2.678 14.4 3 years
Green/Red LED 2.678 28.8 2 years
Beeper 2.678 27 2 years
2-Input Logic Block 2.766 0 19 years
Toggle 2.722 0 20 years
Prolonger 2.722 0 20 years
  • Off the shelf 9V battery
  • Power down PIC when it is idle
  • Use sampling techniques to reduce HW energy cost

17
eBlock Design Experiment
  • Gave garage door project in embedded systems
    course
  • 3-page eBlock catalog that included basic
    examples (30 minutes to read)
  • All 22 students successfully designed the system
  • In less than one hour
  • Students built numerous additional designs during
    remaining two hours

18
Conclusions and Future Work
  • eBlocks
  • Can be used by regular people to construct useful
    class of embedded systems
  • No programming or electronics experience
  • Can be mass produced to be cost effective
  • Boolean eBlock prototypes shown to be effective
  • Essentially creating higher-level digital
    components
  • Illusion of continuous time, but event-based
    packet network underneath
  • Only recently made possible due to low-cost,
    low-power, tiny processors
  • Will be useful with complementary efforts
  • Intelligent homes, UPnP, IEEE smart sensor
    standard
  • All need sensors that people can actually use
  • Sensor networks
  • Can serve as basic sensor input system (most
    research focuses on networking infrastructure)
  • Future work
  • Timing model definition wireless protocol
    definition power sharing methods
  • Extend to integer eBlocks, with arithmetic blocks
    too Usage experience
  • Automatic synthesis of eBlock systems from
    specifications
  • Optimization of eBlock systems use of eBlocks as
    a form of spatial programming
  • eBlocks for those with programming experience
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