[Vegard Paulsen] created a solder iron that reports its usage and temperature to ThingSpeak and alerts him when it was left on. He uses an NodeMCU / ESP8266 Wi-Fi module to collect the data and post it to his ThingSpeak channel. Once the data is on ThingSpeak, he is able to send push notifications to his phone using the ThingSpeak React App.
Hackaday.com wrote an article about Vegard’s soldering iron connected to the Internet of Things. Here’s what they had to say:
The data pushes out to the ThingSpeak server which handles pushing data out to the bigger network, and data representation (like the cool Google gauge…). The best part: [Vegard] gets a phone notification when he accidentally leaves his soldering iron on. How perfect is that?
That looks a lot like our desks… wires, microcontrollers, pliers, cutters, Wi-Fi modules, and soldering irons. And now, the soldering iron is on the Internet of Things.
[via Vegard Paulsen / Hackaday.com]
ThingSpeak user, Spencer, adapted a humidifier that sits in his basement. He is solving a common issue about humid basements. If your dehumidifier fails, you get wet things you have stored and then mold. Spencer created a humidity board using the DHT22 that measures humidity and then reports the data to his ThingSpeak Channel via the ESP8266 Wi-Fi module. Once the data is stored in ThingSpeak, he uses ThingSpeak React to update Twitter when things get out of whack.
We are growing so quickly and adding a ton of new functionality that we don’t want to lose the User Experience (UX). We want you to be able to build Internet of Things projects in 5 minutes and gain insights, share data, and explore its potential without our software getting in the way.
To help us understand what you are thinking, we created a card sort activity. If you click the link, you can sort out our current functionality into categories. We will use the results over many ThingSpeak users to help us organize and improve our website and UX.
Thanks for your feedback!
What does an adorable hamster need? Internet of Things, but of course. Using ThingSpeak, ESP8266 Wi-Fi, and Arduino, Ángel from San Sebastián built a monitoring system for his hamster which is dubbed “RunnerHam“.
RunnerHam Tweets his distance and time when he takes a run on his wheel, “I’m done! 57.62m at 0.61m/s”. You can also check out his ThingSpeak Channel where he records lots of data about his day.
Ángel also released an Instructables explaining his “pet project” so you can make your own and make your own enhancements. Just imagine what you can do with some sensors, connectivity, and ThingSpeak Web Services!
Do you maintain Windows Servers? If so, you might want to track server resources. ThingSpeak accepts data from anything and fits perfectly for server monitoring, visualization, and analysis. [NotHans] released a PowerShell Script to report Windows Server disk free space to ThingSpeak. Once in ThingSpeak, use a ThingSpeak to visualize server resources and send alerts to low disk space with ThingSpeak React. Use this PowerShell Script as a starter script to send data to ThingSpeak from Windows-based systems. Check out the open source script on GitHub.
Head over to Instructables to learn how to make your plants Tweet using Spark Wi-Fi and ThingSpeak. Gregory Fenton created a project that monitors his plant’s soil moisture and then notifies him via Twitter when it is time to water it.
Greg built the project out of necessity to help his plants suffering from “localized drought”. Let’s hope his plants get proper watering and that other ThingSpeak users can quickly and easily build this project. Thanks for sharing!
A really awesome Kickstarter campaign called Blynk has came to our attention as users from their community and ours were asking if our systems could work together.
Blynk is an Android / iOS app that allows for a 5 minute, out-of-the-box experience for Internet of Things projects. Blynk already supports Arduino, Raspberry Pi, and in the future Electric Imp, Spark, The Airboard, Wildfire by Wicked Device, Tiny Duino, and ESP8266 Wi-Fi.
ThingSpeak offers the Internet of Things stable data storage, fast retrieval, data processing, data visualizations, and hooks to every web service possible. We are thrilled that Blynk is planning to support the open APIs of ThingSpeak to extend any IoT project with ThingSpeak web services.
The Blynk Kickstarter campaign ends at 12pm EST on February 14th. You have less than 48 hours to support Blynk! $20+ pledges will also get free 1 year premium account at Codebender.
Over the past few months, we have seen the ESP8266 Wi-Fi Module take the DIY Internet of Things makers by storm. The main reason is the ESP8266 is less than $5US includes Wi-Fi connectivity and the ability to be programmed like a microcontroller. Another trend that we are seeing is that many of the ESP8266 modules are being connected to ThingSpeak web services. We are getting a lot questions every day, so we wanted to setup a new forum in our ThingSpeak Community dedicated to the ESP8266 Wi-Fi Module. Feel free to ask questions about ThingSpeak support with your ESP8266, we will do our best to provide answers and solutions on how to get the ESP8266 up and running quickly with ThingSpeak.
>> ThingSpeak ESP8266 Forum <<
With over 20,000 active streams of “Internet of Things” data, the servers that make up ThingSpeak.com are humming. We recently made extensive upgrades to the database system that stores all of data generated by things from all around the world.
“We switched to SSD drives for all of our database servers,” said Lee Lawlor, Lead Engineer of ThingSpeak. “All of the upgrades are live and available to the entire ThingSpeak Community!”
The improvements decreased response time dramatically and improved large data set retrieval by ten times.
[Chris Forsberg] created an example Internet of Things project to track luggage using ThingSpeak, an Adafruit GSM Module, and an Arduino. He built a simple system to send data to ThingSpeak, such as latitude, longitude, and status data. ThingSpeak exposes a data channel API for any system like this to being able to store data and then process the data.
The idea is that it is frustrating waiting for luggage at the airport and wondering where it is and why it is not on the baggage carousel. With this project, you can track luggage from start to finish. The advantages are not only for the traveler, the airlines could track luggage as well and get quality statistics for each airport. And, the base system has many applications outside of travel such as the Automotive Industry.
Chris explains the project really well on his blog and with a YouTube video.