Month: July 2015
Hummingbird tutorial I: The Hardware
Overview
Hummingbird is a hardware scheme designed to interface with a free data-analysis engine: VivaPlanet (http://www.vivaplanet.io/) . Hummingbird will send information about the health of it’s environment to the VivaPlanet data-analysis engine to allow the user to predict and better understand the health of the environment of Hummingbird. Anyone can use an ethernet, GPRS or WiFi enabled Internet of Things or wearable device to interface with the VivaPlanet data analysis engine. These are the instructions on how to build a simple serial interface to this engine.
There are three major parts to this project. There is the free VivaPlanet data-analysis engine, the coordinator node and the sensor node. The senor node(s) send information to the coordinator node. The coordinator node manages inputs from various sensor nodes and sends this data periodically to VivaPlanet. The user can then go look at the big data analytics on their free VivaPlanet website.
We choose GHI (https://www.ghielectronics.com/) and Seeed (https://www.seeedstudio.com/) to purchase a lot of the hardware. GHI uses .NETMF capable hardware which is great. I’m using .NetMF 4.2 for this project.This means I can write embedded code in C# and have it cross-compile in Visual Studio 2012 and run on the GHI hardware. This is really great because I get all of the power and flexibility of C# when coding. There is some overhead in this on the hardware side but for a light weight application like this it is a really great way to quickly prototype.
Figure 1: This is an overview of how Hummingbird could be used to send information to VivaPlanet.
Step 1: Building the sensor node
A functional test can be easily constructed with 2 XBees and a BJT Oscillator (more details on how to do this are here: http://meca-labs.blogspot.com/2014/05/fun-with-xbe…) The sensor node is the easiest node to assemble it is shown in Figure 2 below. We hacked into a solar powered light and added a moisture sensor to the bottom. Then we ran a wire up to the top and stored the XBee (series 2) and power system. The XBee has 4 ADC converters and we used one of these to poll the moisture sensor and send the information to the coordinator node. We just used XTCU to program the sensor node.
Figure 2: Functional example of 2 XBees sending ADC data from a BJT Oscillator to a coordinator node.
Figure 3: Sensor node deconstructed
Figure 4: Sensor node in action
Step 2: The coordinator node
The coordinator node is also the same solar power set but it consists of a GHI CerbuinoBee an XBee (series 2) and some sort of way to connect to the internet. We’ve demonstrated this project with a GHI GPRS module, shown in figure 5, and a USB-Serial Module. Using the Serial interface in C# is really simple and that’s what we’ll focus on here. Getting the GPRS working is tricky and is another project in itself.
Figure 5: Coordinator node with a SIM900 GPRS Module.
Step 3: Connect to VivaPlanet
Connecting to VivaPlanet is easy and mostly a software based task.
I’ll post the code in github and link it here. But for now there is a tutorial: https://blazestonetechnologies.com/2015/07/06/hummingbird-tutorial-ii-visual-c-netmf-4-2-and-zigbee-series-2/
Overview
Hummingbird is a hardware scheme designed to interface with a free data-analysis engine: VivaPlanet (http://www.vivaplanet.io/) . Hummingbird will send information about the health of it’s environment to the VivaPlanet data-analysis engine to allow the user to predict and better understand the health of the environment of Hummingbird. Anyone can use an ethernet, GPRS or WiFi enabled Internet of Things or wearable device to interface with the VivaPlanet data analysis engine. These are the instructions on how to build a simple serial interface to this engine.
There are three major parts to this project. There is the free VivaPlanet data-analysis engine, the coordinator node and the sensor node. The senor node(s) send information to the coordinator node. The coordinator node manages inputs from various sensor nodes and sends this data periodically to VivaPlanet. The user can then go look at the big data analytics on their free VivaPlanet website.
We choose GHI (https://www.ghielectronics.com/) and Seeed (https://www.seeedstudio.com/) to purchase a lot of the hardware. GHI uses .NETMF capable hardware which is great. I’m using .NetMF 4.2 for this project.This means I can write embedded code in C# and have it cross-compile in Visual Studio 2012 and run on the GHI hardware. This is really great because I get all of the power and flexibility of C# when coding. There is some overhead in this on the hardware side but for a light weight application like this it is a really great way to quickly prototype.
Step 1: Building the sensor node
Figure 2: Functional example of 2 XBees sending ADC data from a BJT Oscillator to a coordinator node.
Step 2: The coordinator node
The coordinator node is also the same solar power set but it consists of a GHI CerbuinoBee an XBee (series 2) and some sort of way to connect to the internet. We’ve demonstrated this project with a GHI GPRS module, shown in figure 5, and a USB-Serial Module. Using the Serial interface in C# is really simple and that’s what we’ll focus on here. Getting the GPRS working is tricky and is another project in itself.
Step 3: Connect to VivaPlanet
I’ll post the code in github and link it here. But for now there is a tutorial: https://blazestonetechnologies.com/2015/07/06/hummingbird-tutorial-ii-visual-c-netmf-4-2-and-zigbee-series-2/