Configure Your Own Internet Router

Hook Up Your Raspberry Pi

Connecting all your devices to the Raspberry Pi is very easy, but you want to do it in a specific order so it can recognize all your devices when it boots up. First, connect your HDMI cable to your Raspberry Pi and your monitor, then connect your USB devices. If you’re using an Ethernet cable to connect to your router, go ahead and connect that as well.  Finally, once everything is connected, go ahead and plug in your power adapter. The Raspberry Pi does not have a power switch, so once you connect the power adapter, it’ll turn on all by itself.

Connect to Your Wi-Fi Network

Connecting to your Wi-Fi network works the same in Raspbian as it does it any modern operating system.

  • Click the network icon (it’s the one with two computers) in the top right corner.
  • Select your Wi-Fi network name, and enter your password.

That’s it, you’re now connected to Wi-Fi. This will work in both the command line and in the graphical interface, so you only need to set it once. If you have an older Pi and you’re using a Wi-Fi adapter like this, the process is the same.

You have several devices connected to your WiFi router, so how can you tell the outside where you are serving-up Raspberry Pi?

Getting Online

The following section assumes you have an updated and upgraded Raspberry Pi 3 or equivalent, and installed L.A.M.P. (Linux.Apache.MySQL.PHP.)  Excellent article for getting started and RaspberryPi.org’s installing LAMP.

You have several devices connected to your WiFi router, so how can you tell the outside where you are serving-up Raspberry Pi?

Use a service like dataplicity OR DIY:  Let’s get familiar with our router’s advanced settings in your router manufacturer’s configuration tool.  Most home networks use one of these common IP addresses for their gateway to the Internet:

place-wifi-router

You will need to login to your router’s configuration tool.  The username and password should have been assigned at the time of setup.  First, we need to reserve an IP address for our Raspberry Pi to use on a regular basis.  Typically, the router will have a DHCP (Dynamic Host Configuration Protocol) Settings section, List and Bindings, etc.  The Raspberry Pi and all other devices on your LAN should be listed here.  Hopefully, your router will have a somewhat intuitive interface that will make sense as to how to assign an IP address to a device or MAC address.  If all else fails, consult your manufacturer’s instructions.

decapi-slider-raspberry-pi-casenetwork-782707_1280-980x637

The default port for web requests is 80.  You can leave the default unless your Internet Service Provider doesn’t allow port 80.  Next step in your router’s configuration is to have the router forward all incoming requests on port 80 to the Raspberry Pi.  Typically referred to as, Port Forwarding or Port Range Forwarding.  You will want to associate the Raspberry Pi’s IP address so that it will receive all incoming requests on port 80 or whatever port you find most appropriate.  (The most secure web server is one that is not connected to the Internet 😉  The default port for SSL is port 443.  Next step in your router’s configuration is to have the router forward all incoming requests on port 443 to the Raspberry Pi.  Motion Web-Cam Streaming:  The default port for motion is port 8081.  Next step in your router’s configuration is to have the router forward all incoming requests on port 8081 to the Raspberry Pi.

You could also allow Telnet, FTP, SSH, VNC, etc but I do not recommend unless you are familiar with the security risks associated with such services.

Get Yourself A Domain Name

http://www.YOUR_CUSTOM_DOMAIN.ddns.net

Check for the DDNS ( Dynamic Domain Name Service ) Setting in your Router’s advanced configuration settings.  Most routers will support one or more of the following, http://www.dyn.comhttp://www.noip.com, many others search Google for “Dynamic DNS”.  The service will offer the ability to register a domain name to associate with the Dynamic IP address that is assigned to you by your Internet Service Provider.  Typically, your router or a software plugin that you download and install will update the Dynamic DNS service’s database when your assigned IP address changes.

Secure Socket Layer

https://letsencrypt.org/

Let’s Encrypt our connection with the Raspberry Pi.

Install

Rather than apt-get Cerbot, I download the latest version directly from its repo:

sudo git clone https://github.com/certbot/certbot /etc/letsencrypt

Easy SSL through Automation

Certbot has a fairly solid beta-quality Apache plugin, which is supported on many platforms, and automates both obtaining and installing certs:

sudo /etc/letsencrypt/certbot-auto

 

Your domain name for your hydroMazing should now be secure.

Wired or Wireless?

Electricity replaces the sun, wind, and some natural processes as the dependency for plants to grow indoors.  

Starting a Smart Indoor Garden

The first glaring problem with the typical indoor garden is that extension wires are annoying and a potential safety hazard.  On the other hand, wireless communications can lack the reliability of the wired variant.  Going further, should the system be available to the local network or should it be connected to the Internet?

Since plants do not need Internet access in order to grow then we are potentially creating an additional dependency that the plant doesn’t want. The Internet is useful for providing access to your system, but security is questionable, how much control or data should be available?  A connection to the Internet can become another dependency if the system cannot operate without communication to a cloud-based or otherwise remote server. If something can fail; we should plan for the eventual occurrence of that possibility as best as possible. If a long electrical outage were to occur it would be prudent to have a backup generator, or solar rechargeable battery storage system.  If we can have better reliability with a wired connection, then it makes sense to use a combination of wired and wireless.

Next:  Getting Wired and Wireless

Communication options such as i2c, which is great for communicating with another microcontroller or Raspberry Pi and the many wireless options: WiFi, bluetooth, etc.

  • Remote Control using a RF 315MHz / 433MHz
  • Lightweight Bluetooth ( nRF24L01 )
  • Bluetooth ( HC-05 )
  • WiFi Module ( ESP8266 / CC3000 ) etc.

More Info:

Please share with friends and follow to receive a notification when I publish a new article.

 

Why Arduino when you can Pi?

Arduino
Arduino ProMini, Uno, and Nano on expansion board.

Why Arduino?

The greatest advantage to using the Arduino family of microcontrollers for DIY electronics projects, is that they are ubiquitous.  Since they are so available, they are inexpensive and you can find open-source software to get started.

If you’ve ever had the opportunity to work with an Arduino Uno microcontroller board, then you’ve probably executed the flashing LED example.  Going further, you might attach a button, or switch, to trigger the LED or to turn it off making the project interactive.  There are many sensors that could be connected to the Arduino Uno and setup to trigger events, such as the LED flashing, using threshold values that we would need to experiment with in order to figure out what settings work best for creating the effect we want.

While the examples that come with the Arduino software and the examples included with libraries are an excellent start to a project; the Arduino family of microcontrollers is often grossly underutilized in many projects.  Sure microcontrollers are limited in how many instructions they can run; hitting the program size limit doesn’t take very long when you want to control more than a few blinking LEDs.  Even with creative variable handling and custom libraries, eventually, there is a need for another microcontroller or to move to a larger one, even a Raspberry Pi.

In my Alien Invasion Slot Machine project, I tried to push the Arduino closer to its limits.

Time Management and state and trigger flagsf0zk2etiagml1az-medium

At its most basic, a microcontroller loops through a set of instructions handling each action with the focus of The Red Eye of Sauron from Lord of the Rings.  There are a few interrupts that can be configured should an event be so important to receive the full attention of the microcontroller.  Using some form of time management creates a state machine. If x amount of time has passed since x event, then do something and so on…

“The behavior of state machines can be observed in many devices in modern society that perform a predetermined sequence of actions depending on a sequence of events with which they are presented. Simple examples are vending machines, which dispense products when the proper combination of coins is deposited, elevators, whose sequence of stops is determined by the floors requested by riders, traffic lights, which change sequence when cars are waiting, and combination locks, which require the input of combination numbers in the proper order.” https://en.wikipedia.org/wiki/Finite-state_machine

There are rare instances where: RTOS, AI, neural networks exist on microcontrollers, but that’s best left to software-oriented systems such as a Raspberry Pi.

After trying many different timer and time management libraries I felt they were either too much or not enough of what I was wanting in my timers.  A set of timers that are easy to set, keep track of their own state, and each have their own trigger flags.

Button assumptions

buttons

Interacting with an electronics device such as a microcontroller or computer system is relatively easy and typically provided as an example for developers looking to use the device in their project.  Press a button and an LED illuminates. A button or switch may seem like a simple sensor input, but it’s not.

The device’s system resources are consumed waiting and watching for a button press. When we use a button in a project we typically think of it being activated when pressed.  Then what? What should happen if the user holds the button in the active position? Will the button be counted as pressed once, or is the program going to count each second, or x amount of time, as another button press?  Does the program need to know that the button has been released?

Hardware and wiring

wiring harness

Rather than using the Arduino Uno and a protoboard or breadboard for this project, I’m using the Arduino Nano on an expansion board.  Keep it simple using common wiring colors, keep it modular so connections can be made with ease, keep your project sustainable; a part can be replaced rather than the entire system.  The DuPont wire connectors that come with prototyping starter kits makes it easy to create your own custom wiring connections. The wires are easy to solder when a more permanent connection is needed.  I make custom wiring harnesses for neater, cleaner, and more easily connectable modules.

 

Raspberry Pipi3

The latest version of the Raspberry Pi v3 uses a Linux OS and is a computer that can do so much more than an Arduino Uno, why not just use it for everything?  While it is possible to do many of the same tasks as you would do with the Arduino Uno or variant, it’s not always best.  The Arduino Uno and variant microcontrollers are best for doing the same actions, over and over again, such as reading a sensor and doing something with the value.

As I mentioned previously, you can do a lot with a Raspberry Pi, and depending on how much you are doing, it won’t take too long before you discover it has limits.  When the Pi overheats, it will either freeze or shutdown, hopefully, the processor has a heatsink.

More Info:

Please share with friends and follow to receive a notification when I publish a new article.

Why DIY when you could buy?

You value the project because you are able to customize and experience the process of its creation, both physically and mentally.

Practical Reasons:

  • Integrity and dependency on specific vendor:  Complete packages are limited in capability and scalability, also they often include unwanted strings attached, i.e. Advertisements; company owns your data for purposes of profiting by selling for marketing purposes.  Mass produced products are typically not designed for longevity. Can the equipment be repaired or is it disposable?
  • People have complex preferences and want more customizable, possibly less expensive solutions, typically with the trade-off related to labor, can be improved or perform to preferred standards
  • Interest in learning and/or educating others:  You enjoy or have an interest in the activities associated with the process of a subject.
  • Necessity:  Resources and costs vary by region.
  • What else?

Cost considerations

Many items can be purchased locally or sourced from the Worldwide market through the Internet.  I don’t know about you, but I rarely have money to spend on projects and whenever possible reusing and re-purposing junk is ideal.  Many of my projects contain parts I’ve purchased at local dollar stores and items found through eBay online vendors. Online researching, reviewing, and sourcing materials

Time

It takes time to learn how to use tools and equipment successfully, let alone, have the time to actually make the project meet your expectations.  Will you take the time to safely use the equipment necessary to complete the project?  Are you able and willing to troubleshoot problems as they arise?

Time used for the project is time that could be spent with family, friends, learning something more important, etc.

Skill and Ability

Even though it may pain me to swallow my pride, I try not reinvent the wheel.  If I don’t have direct experience performing a task, I take the time to research how others have approached similar problems.  It is best to learn from others before making a serious mistake simply because I don’t want to appear stupid. Practice makes permanent. We cannot expect to become experts on a subject overnight, it’s okay not to know how to do something, try to find someone who can help, take small simple steps towards achieving the goal.

Resources for DIY Hacking Electronics:

For electronics projects, reliably wiring the hardware and designing the software to operate using an Arduino variant or Raspberry Pi, is a challenge.  Hacking Electronics – Simon Monk ( link to Amazon ).  Regardless of your experience level, this book is an excellent resource, what tools are needed, when and how to solder, and many basic fundamentals of working with modern electronics.  The second edition, includes Raspberry Pi.

More Info:

Please share with friends and follow to receive a notification when I publish a new article.

Using a Raspberry Pi and USB Camera

You have a Raspberry Pi, or are comfortable with the idea of using one, and you want to use it to capture video or images using a USB camera.  Even though the Raspberry Pi has a port designed specifically for using a camera, it’s not as low-cost, nor as convenient as the USB corded camera.

CanaKit Raspberry Pi 3 B+ (B Plus) Starter Kit (32 GB EVO+ Edition, Premium Black Case)

It would be a lot nicer if you had a web interface to access, view, and manage the content you’ve capture using the USB camera.  Learn to set up a LAMP (Linux, Apache, MySQL, PHP) stack on your Raspberry Pi and configure it to work as a web server and set up a basic website which you can access on any device on the same network as your Pi.  This is a link to a nice tutorial for setting-up a L.A.M.P. server on your Pi, the WordPress portion is optional, you can stop after installing PHP. 

Motion

Motion is the tool that you will want to use if you want to live stream, record video, capture motion, and grab a lot of snapshots.  More options means a lot more configuration options making setup more complex.

download and install:

  • sudo apt-get update
  • sudo apt-get upgrade
  • sudo apt-get install motion

usage:  See /etc/motion/ for configuration file(s).  The documentation for Motion is contained within the file motion_guide.html.

The offline version of this file is available in the doc/motion directory. The online version of the motion_guide.html file can be viewed here

growrm2

fswebcam

fswebcam is a simple tool for grabbing snapshots using a USB connected camera and  can be configured to execute routinely using the operating system’s cron job scheduler.

download and install:

  • sudo apt-get update
  • sudo apt-get upgrade
  • sudo apt-get install fswebcam

usage:  https://www.raspberrypi.org/documentation/usage/webcams/

More:

 

Make a Touch Screen Kiosk

touch screen

Raspberry Pi 7″ Touchscreen Display

AND

SmartiPi Touch case for The Official Raspberry Pi 7″ Touchscreen Display – Adjustable Angle

Power to the People!

We believe you shouldn’t need expensive gadgets and technical expertise to be a successful gardener. We are committed to a greener planet!

A handy IndoorGardeningChecklist – print yourself a copy!


Image Credits: Power to the People, Patrick Nygren 2014.
Creative Commons Commercial Use License.