White House Maker Faire showcases offbeat innovations | Washington Post
As the Internet of Things develops, device data becomes increasingly valuable to businesses and the need to integrate a new kind of data into existing processes. That’s why we built The Social Machine– to enable companies to integrate their machine-generated data into salesforce.com.
Bringing device data directly into the CRM can create new service offerings and generate new revenue. Additionally, customer support teams have the ability to remotely access machine data, decreasing case handling time and improving the quality of service.
“The solutions selected for the M2M Evolution Product of Year Awards reflect the diverse range of innovation driving the machine-to-machine (M2M) market today. It is my honor to congratulate Etherios for their innovative work and superior contribution to the rapidly evolving M2M industry,” said Carl Ford, CEO of Crossfire Media, a co-publisher of M2M Evolution Magazine.
Companies are quickly realizing the value of their machine data and how to apply it to their business. See how ATEK is using The Social Machine to transform their tank monitoring solution into a full-service end-to-end solution.
You’ll find a complete list of M2M Product of the Year winners here.
The International M2M Council (IMC) brings together M2M solutions providers with adopters of M2M technology to share the business impact of connected solutions. Digi’s CMO, Jeff Liebl, serves on the council’s board of governors alongside numerous industry experts. With over 1,000 Adopter Members, including AT&T, Deutsche Telekom, Oracle and Iridium. IMC is the largest trade association dedicated to the IoT/M2M sector.
The group serves as a resource by providing case studies that demonstrate the value of M2M applications in verticals such as healthcare, retail, transportation and more. Members of the IMC also conduct research on the industry to develop industry best practices and determine metrics for measuring M2M success.
In addition to providing educational resources, the IMC focuses on assisting government and regulatory bodies in developing policy related to M2M. The council has established a working relationship with the Federal Trade Commission and is assisting in privacy and security projects. Future goals for the IMC are aimed at developing more relationships with regulatory groups across the globe.
Today, the IMC is working on a number of initiatives to spread awareness of M2M technology. A number of newsletters focused on verticals are helping improve awareness across industries where M2M can have the greatest impact. The IMC is currently in the process of collaborating with developers to create a professional education programs for M2M adopters, which will be introduced later this year.
To learn more about how M2M is solving business problems check out the International M2M Council’s website here.
The Internet of Things is developing and buzzing all around us. Throughout the week we come across innovative projects, brilliant articles and posts that support and feature the innovators and companies that make our business possible. Here’s our list of favorites from this week’s journey on the Web.
Makerland Tutorials: Your First Step with the Internet of Things | EBook (Free Download)
The ABCs of the Internet of Things | Computerworld
5 Technologies Driving the Internet of Things | Business 2 Community
This Tech Tip is brought to you by Digi Applications Engineer Mark Grierson. It is Part 1 in a 3-part series focusing on the XBee Wi-Fi module.
Be sure to answer the XBee Puzzler at the end of this entry for a chance to win an XBee Wi-Fi Development Kit!
In this tech tip, we are going to see just how easy it is to send serial data through from one XBee Wi-Fi radio module to another.
In order to complete this exercise, you’ll need:
- 2 XBee Wi-Fi(S6B) radio modules
- 2 USB interface boards. These can be the development boards contained in the XBee Wi-Fi Cloud Kit, any XBIB-U or XBIB-U-DEV interface board, or any third party USB XBee interface board such as the Parallax XBee USB adapter board
- PC (or Mac) running Next Generation XCTU
Sending transparent serial data between 2 XBee Wi-Fi modules.
First we will need to connect 2 Wi-Fi Modules to a Wi-Fi access point that has access to the internet. For brevity, if you need assistance connecting you modules to an access point, please refer to the Quick Start Guide: XBee Wi-Fi Cloud Kit for assistance.
Note: For the purposes of this article, a basic understanding of XCTU is assumed. For specific help in working with XCTU please see the help section of the XCTU program.
- Connect the radio modules to the PC using the interface boards and launch 2 instances of XCTU.
- In each instance of XCTU connect to one of the XBee Wi-Fi modules:
- Click on the Add Radio icon
- Select the correct com port
- Ensure data settings are correct (Radio default is 9600, 8, N,1)
- Click Finish
- Now click on the radio module in each instance of XCTU to read its settings.
- Once you have the 2 instances of XCTU running, verify that the radios have received IP addresses from your DHCP server and then address each radio’s Destination IP address (DL) to match the Module IP Address (MY) of the other radio as shown below.
- You will also want to ensure that the Device Options (DO) setting is set to 0. This will ensure that the serial data is not sent to the cloud.
- Go to the “Consoles” mode of each XCTU by clicking the terminal icon at the top of XCTU.
- Open the serial connection to the modules by clicking the “Open Serial Connection” icon on each XCTU instance. The Icon will change to a connected status and the background changes to green.
- You can now type text directly into one of the console log screens and see it appear in red of the other consoles screen.
- If you would rather send an entire string at once, this can be accomplished by creating a packet by clicking on the “Add New Packet” icon. This packet builder also lets you select ASCII or Hex data to be sent.
Using the packet builder, you can create a series of serial strings to transmit from the radio.
As you complete this exercise, it will become apparent just how easy it can be to connect your XBee Wi-Fi module to any serial sensor or device and have that data sent to any other device connected to another XBee Wi-Fi module. Of course this is just a simple example of how transparent serial data can be transmitted around an XBee Wi-Fi network. XBee modules have many more advanced features including a full API mode to allow your applications to efficiently move data to any IP addressable device worldwide.
In our next issue we will demonstrate sending data back and forth between a host connected to an XBee Wi-Fi module such as XCTU and a non-XBee network client application on a local area network. Until then, have fun experimenting with all of the varied capabilities of these remarkable radio modules.
Which statement best describes how a passive high gain antenna works?
- A high gain antenna adds energy to a radio to enhance its range.
- A high gain antenna does not add or subtract overall energy to a radio transmission, but rather focuses or re-shapes the radiation pattern in a certain direction.
- A high gain antenna removes energy from a radio’s radiation pattern.
- A high gain antenna has no effect on the range of a radio link
Submit your answer below. The deadline for entries is June 12, 2014. Three winners will be randomly selected from the correct submissions. Winners will be notified by email. Employees of Digi and its subsidiaries are not eligible for the prize drawing. Good luck!
This XBee Puzzler contest is now closed. The correct answer is: 2. A high gain antenna does not add or subtract overall energy to a radio transmission, but rather focuses or re-shapes the radiation pattern in a certain direction.
In this video, Digi’s Chief Innovator, Rob Faludi, shows you how easy it is to build a Wi-Fi enabled hardware prototype and develop an application for the Internet of Things with the XBee WiFi Cloud Kit. The kit wirelessly connects with Device Cloud by Etherios out of the box, so you can build custom widgets that interact with your cloud-connected hardware.
Bald Eagles have returned to Pittsburgh after a long absence. Their return has received a large amount of attention as this is seen as a sign of the improved environment in the Pittsburgh area. The nest of the once endangered raptors sits on a steep bluff above the Monongahela River in Hays near Pittsburgh’s Southside. PixController and the Pennsylvania Game Commission are streaming live video, so you can watch the eaglets grow up every day and at any hour. They even received a feature on NBC Nightly News, which you can watch below.
The Eagles hatched in early April and they’re growing quickly, so make sure you check out the live stream before they fly away. Click here to watch the live feed.
Digi helped build a similar solution for the Wildlife Research Institute to aid their study of bear hibernation. Read more about that project here.
Happy National Robotics Week! This week, we came across tons of fun stories and articles showcasing robots and the amazing things they are doing for us. Here are some of our favorites from a week filled with tons of robo-stories, which include an update on NASA’s Robonaut, a kangaroo robot, and even robots made out of paper!
10 Heroes of Robot History | Enable Education
[Video] How Robots Are Making Us Happier | FW Thinking
MIT is Destroying the Cost of Robotics by Building Robots out of Paper | Business Insider