Sensors Expo 2016 took place in San Jose, California from June 21-22
LAST week’s trip to Sensors Expo 2016 was fun and thought-provoking. We held a workshop with one of our partners, Texas Instruments, and got an exciting look at innovations in sensor technology.Naturally there was a lot of buzz about the latest and greatest in the Internet of Things, but one topic that presenters kept bringing up was less about the technology itself than the thought put into its implementation.
Efficiency Begins with Clear Questions
The case studies many expo presenters shared reflected what we have witnessed in our own customers’ means to success: they have clear questions that need timely answers, such as “is this gas line leaking?”. If well-considered, even a single data point brings a remarkable amount of value to their business. Starting small with sensor applications can result in big shifts in operational efficiency. First steps in improving a business with IoT don’t have to be huge, just smart.
Even the smallest IoT application can have a vital impact on efficiency.
A Single Data Point Can Make a Difference
Even the smallest IoT application can have a vital impact on efficiency. In fact, many powerful IoT implementations consist of just one sensor reporting data. One company that recycles restaurant fry oil installs a float sensor inside each of their clients’ oil tanks to monitor the oil level. Their application dispatches an alert only when there’s something the company needs to act on. It sends alerts when the personnel in charge of emptying the tank needs to do their job, and when an unexpected change to the level occurs, possibly indicating an oil theft.
It goes to show that more data more often doesn’t automatically equal better data, and the hardware involved doesn’t need to be complex. It’s all about having a specific question in need of a specific answer.
Texas Instruments blogged about their thoughts on Sensors Expo 2016, too—take a look.
Sensor companies showing off their latest developments on the exhibit floor
Two weeks ago, we introduced a set of Temboo tools for programming machine-to-machine networks. Today, we wanted to take a bit of a deeper look at what exactly we did, and why we decided to do it.
So what does M2M do, and how does it do it?
M2M networks are great for situations in which distributed devices need to communicate with one another—for example, in a manufacturing facility where multiple machines are working together on different parts of a product. M2M protocols allow the devices in the network to gather and transmit data from sensors or to act on their environment without having to maintain an Internet connection, even if some Internet connectivity is necessary for processing data or issuing commands. A gateway-edge model, in which distributed edge devices communicate with a gateway device using an M2M protocol and the gateway device communicates with cloud services using the Internet, enables a low power local network to interact with the Internet.
There are quite a few different protocols out there for enabling M2M communication. We chose three: MQTT, CoAP, and HTTP. In general, we make an effort to remain hardware, software, and protocol agnostic so that people who use Temboo have as much choice as possible in what they build, and it was important to us that we support more than one M2M protocol. Of the protocols that we considered, these three seemed to be the most promising; the technology surrounding the Internet of Things is evolving rapidly, so there’s a good chance that it won’t be long before more protocols join that group.
Specifically, we liked MQTT and CoAP because they are excellent for lightweight devices that have constrained memory and that consume little power, which are exactly the sorts of devices that will connect distributed sensors and objects to the Internet and make them smarter as the Internet of Things matures. We included HTTP due to memory considerations as well; an HTTP gateway will allow for HTTPS connections to devices that normally would not have enough memory to implement them.
Pick a protocol
The different protocols are useful for different situations, and any decisions regarding which one to use should be informed by what it is that you are trying to do. MQTT uses a publisher-subscriber communication model, allowing clients to send commands to many other devices with one message (or, conversely, enabling one device to “listen” for commands from many different devices). This might come in handy on an assembly line, for instance, where it would be important for a machine that is experiencing a problem to inform machines upstream that they should pause until the issue is resolved.
CoAP, in contrast, uses a client-server model, which enables two-way communication: clients can send requests to servers, and also receive responses and commands from servers. A network of devices communicating using CoAP would be ideal in a scenario requiring both monitoring and control, such as an energy usage management system in a multi-unit commercial building. Data on energy consumption could be sent by edge devices to a gateway, which would then use the data to determine where lights, heating, or air conditioning should be on or off.
Finally, HTTP is useful for situations in which secure communication is required, but the devices involved do not have the memory needed to support encryption. A local HTTP gateway can forward messages securely using HTTPS.
M2M + Temboo = the best of both worlds
Temboo’s M2M support is designed to marry the low power and low memory benefits of M2M networks with the processing power and flexibility of the Internet. For systems involving many devices spread over a wide area, an M2M model is often the most practical option available; connecting each device to the Internet can become prohibitively difficult and expensive as the network grows. However, an Internet connection is often the best way for devices to communicate with the world outside of their local network, and for many applications, the ability to send information to or receive commands from a remote agent, whether human or digital, is crucial.
Temboo M2M allows people who are using a network of connected sensors or machines to achieve the benefits of low power devices without sacrificing the benefits of Internet connectivity. It also brings M2M into our IoT software stack, making it much easier to integrate features such as data streaming and remote reprogramming into multi-device applications using automatically generated Temboo code.
As M2M networks become more common, we expect a wide variety of industries to discover and correct new points of inefficiency in their business or production models—not only will the M2M networks themselves make communication between different parts of complex systems faster and cheaper, they will also make it easier to monitor different parts of those systems so that better decisions can be made. The proliferation of M2M networks will also create new opportunities for developing more sophisticated maintenance capabilities: network managers will need ways to efficiently modify and update the devices that they oversee so that they can effectively adapt to changing circumstances.
The maturation of M2M technology is an exciting development that is going to play a large role in driving the Internet of Things forward in the next several years. If you’re interested in learning even more about it, there are some links to further reading below, and you can try out Temboo’s M2M programming tools by signing up for a free account here.
Two weeks ago, we introduced a set of Temboo tools for programming machine-to-machine networks. Today, we wanted to take a bit of a deeper look at what exactly we did, and why we decided to do it. So what does M2M do, and how does it do it? M2M networks are great for situations in […]
We just made IoT Mode an even more powerful tool for building hardware applications by adding some brand new Conditions features. With Conditions, you can now use IoT Mode’s visual interface to specify how you want the pins on your Arduino or Texas Instruments LaunchPad boards to interact with the web services you are using, and what you specify will be reflected in a complete, production-ready program generated instantly in your browser. Conditions make it quick and easy to build a massive range of IoT applications—check out the video to learn more!
We just made IoT Mode an even more powerful tool for building hardware applications by adding some brand new Conditions features. With Conditions, you can now use IoT Mode’s visual interface to specify how you want the pins on your Arduino or Texas Instruments LaunchPad boards to interact with the web services you are using, […]