Make it comm lesson (#331)

* integrating lego lesson

* fixed link

* adding various solutions

* updatring to 3.4.6

* using play sound effect until done

* revert pxtversion

* fixing link
This commit is contained in:
Peli de Halleux 2018-02-21 06:43:53 -08:00 committed by GitHub
parent 3a67190914
commit 6613607503
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23
6 changed files with 180 additions and 11 deletions

View File

@ -20,9 +20,9 @@
},
{
"name": "Make a System that Communicates",
"description": "TBD",
"imageUrl": "/static/lessons/make-a-system.png",
"url": "/design-engineering/make-it-move",
"description": "A robot that tells you what it is doing.",
"imageUrl": "/static/lessons/make-it-communicate.png",
"url": "/design-engineering/make-it-communicate",
"cardType": "side"
}
]

View File

@ -0,0 +1,164 @@
# Make A System That Communicates
## Connect
### Design Brief
Design, build and program a robotic system that follows a path and communicates its position at least twice along the way.
https://www.youtube.com/watch?v=6piMI1JPDQc
* Robotic systems are built from smaller, related subsystems. Look at the automobile system shown in the video. What subsystems can you see?
* What kinds of robots follow a path?
* What kind of system do you want to make?
### Brainstorm
Discuss different solutions to the design brief.
Think about:
* What kind of motorized mechanism can be used to control the movements of a robot?
* How can the robot sense where it is along the path?
* How can the robot communicate its position?
![EV3 + LEGO Bricks](/static/lessons/make-it-communicate/hero.png)
## Construct
### Build
You can start by tinkering with the LEGO elements in the picture and then build on.
More building ideas:
* [EV3 Frames](https://le-www-live-s.legocdn.com/sc/media/files/support/mindstorms%20ev3/building-instructions/design%20engineering%20projects/ev3%20frames-5054ee378e624fb4cb31158d2fc8e5cf.pdf)
* [Tracks](https://le-www-live-s.legocdn.com/sc/media/files/support/mindstorms%20ev3/building-instructions/design%20engineering%20projects/tracks-32d7554813af3f25cf5012d54a4bad2b.pdf)
* [Color Sensor 2](https://le-www-live-s.legocdn.com/sc/media/files/support/mindstorms%20ev3/building-instructions/design%20engineering%20projects/color%20sensor_v2-e7fd54b6fa3cdfe36f414c1d2510f9cb.pdf)
Build a path for your robot to follow. You can use electrical tape on a floor, or marker on paper. You can use objects as milestones to indicate a path that can be detected by either the Touch Sensor, Color Sensor, or Ultrasonic Sensor.
## Program
Before you program, think about:
* How will you program the robot to follow a path?
* How will you program the robot to communicate its position?
* Which programming blocks will you use?
### ~ hint
Explore the different Motor and Sensor blocks in the programming menu.
### ~
### Sample Solution
[Video: EV3 Track Rover](/static/lessons/make-it-communicate/trackrover.mp4)
The Track Rover follows a path using the color sensor. It identifies two locations by color.
[Building Instructions](https://le-www-live-s.legocdn.com/sc/media/lessons/mindstorms-ev3/ev3-dep/building%20instructions/track-rover-bi-6aadb1b053df0c58a0dea108b5ce0eea.pdf)
### Sample Program Solution
This program works with the Track Rover. If you create a different robot, adjust the program to fit your solution.
#### Program summary:
* If the Color Sensor sees black, Motor B runs at -50 power and Motor C turns off.
* If the Color Sensor sees white, Motor B turns off and Motor C runs at -50 power.
* If the Color Sensor sees green, all motors stop and the green sound plays.
* The robot waits one second, then motors move forward.
* If the Color Sensor sees red, all motors stop, and the red sound plays.
* The robot waits one second, then motors move forward.
* Loops unlimited.
```blocks
forever(function () {
if (sensors.color3.color() == ColorSensorColor.Black) {
motors.largeB.run(-50)
motors.largeC.run(0)
} else if (sensors.color3.color() == ColorSensorColor.White) {
motors.largeC.run(-50)
motors.largeB.run(0)
} else if (sensors.color3.color() == ColorSensorColor.Green) {
motors.stopAll()
music.playSoundEffectUntilDone(sounds.colorsGreen)
motors.largeBC.run(-50)
} else if (sensors.color3.color() == ColorSensorColor.Red) {
motors.stopAll()
music.playSoundEffectUntilDone(sounds.colorsRed)
motors.largeBC.run(-50)
} else {
}
})
```
```blocks
sensors.color3.onColorDetected(ColorSensorColor.Black, function () {
motors.largeB.run(-50)
motors.largeC.run(0)
})
sensors.color3.onColorDetected(ColorSensorColor.White, function () {
motors.largeB.run(0)
motors.largeC.run(-50)
})
sensors.color3.onColorDetected(ColorSensorColor.Green, function () {
motors.stopAll()
music.playSoundEffect(sounds.colorsGreen)
pause(1000)
motors.largeBC.run(-50)
})
sensors.color3.onColorDetected(ColorSensorColor.Red, function () {
motors.stopAll()
music.playSoundEffect(sounds.colorsRed)
pause(1000)
motors.largeBC.run(-50)
})
```
### Download and test
Click Download and follow the instructions to get your code onto your EV3 Brick. Press the center button on the EV3 Brick to run the program.
## Contemplate
### Test and Analyze
As you work on your solution:
1. Describe one part of your design that worked especially well.
2. Describe one design change that you had to make.
3. What will you try next?
### Review and Revise
Take a moment to reflect on your robot solution.
### Think about:
* Can the robots movement be more accurate?
* What are some ways that others have solved the problem?
Describe two ways you could improve your robot.
## Continue
### Personalize your project
* Add/remove LEGO elements to improve the way your robot moves.
* Click on the JavaScript tab and experiment with changing the values in the code.
* Add a custom image or sounds by adding blocks from the Brick or Music menus.
## Communicate
Here are some ideas:
* Create a video of your project, especially your final presentation and your robots performance.
* Explain some important features of your software program.
* Produce a building guide for your model by taking a series of photographs as you deconstruct it.
* Include an image of your program with comments.
* Add a team photograph!
Congratulations! What will you design next?

Binary file not shown.

After

Width:  |  Height:  |  Size: 83 KiB

Binary file not shown.

After

Width:  |  Height:  |  Size: 83 KiB

Binary file not shown.

View File

@ -19,21 +19,21 @@ enum LightIntensityMode {
}
const enum ColorSensorColor {
//% block="none" jres=colors.none
//% block="none" jres=colors.none blockIdentity=sensors.color
None,
//% block="black" jres=colors.black
//% block="black" jres=colors.black blockIdentity=sensors.color
Black,
//% block="blue" jres=colors.blue
//% block="blue" jres=colors.blue blockIdentity=sensors.color
Blue,
//% block="green" jres=colors.green
//% block="green" jres=colors.green blockIdentity=sensors.color
Green,
//% block="yellow" jres=colors.yellow
//% block="yellow" jres=colors.yellow blockIdentity=sensors.color
Yellow,
//% block="red" jres=colors.red
//% block="red" jres=colors.red blockIdentity=sensors.color
Red,
//% block="white" jres=colors.white
//% block="white" jres=colors.white blockIdentity=sensors.color
White,
//% block="brown" jres=colors.brown
//% block="brown" jres=colors.brown blockIdentity=sensors.color
Brown
}
@ -318,6 +318,11 @@ namespace sensors {
//% blockId=colorSensorColor block="color %color"
//% group="Color Sensor"
//% weight=97
//% color.fieldEditor="gridpicker"
//% color.fieldOptions.columns=4
//% color.fieldOptions.tooltips=true
//% color.fieldOptions.hideRect=true
//% color.fieldOptions.width=268
export function color(color: ColorSensorColor): ColorSensorColor {
return color;
}