At face value, the project deals with a Rube Goldberg-style vending machine. In reality, it is designed to provide a wireless controller sandbox that can be used by someone to refine their building, programming and communication skills. The use of wireless makes it relatively easy for anyone to add, extend or replace modules.
Smart Stitches Send Doctors Information on Wounds as They Heal
Modern medicine has come a long way thanks to IoT, and researchers at Tufts University who are working towards pushing the limits even further with the development of “smart stitches”. Learn how these “smart stitches” are designed to close wounds while simultaneously updating doctors on the healing progress.
GRAB THINGS WITH AN ARDUINO ROBOTIC GRIPPER
The robotic gripper built by high school graduates, Sam Baumgarten and Graham Hughes, use Digi XBee for transmitting singles from the control glove to the gripper. Watch below the impressive robot gripper in action.
DIY Sleep Apnea Monitoring
With hundreds of people suffering from sleep apnea everyday, we can all appreciate Marc Merlin’s Sleep Apnea Monitoring rig that collects data through Digi XBee. Although we do not endorse Digi DIY projects, we are very impressed with Merlin’s dedication and research.
Connected Healthcare: Internet of Things Examples in Health Care
The IoT influence in the healthcare industry is not only changing lives but saving them as well by adjustable patient monitoring, enhanced drug management, augmented asset monitoring and tracking, early intervention and so much more. Visit Cardiauvergne to learn more about how the remote healthcare monitoring system came to life with Digi ConnectPort.
As a leading supplier of communications solutions for POS, kiosk, banking, and ATM markets for three decades, Digi knows the criticality of safeguarding credit and debit card transactions.
Still, confusion on how to meet the Payment Card Industry (PCI) Data Security Standards (DSS) remains. For example, for the most part, there are no specific PCI certifications for network devices. This begs the question: what is PCI compliance and how is it achieved?
To find the answers, Digi offers the PCI-Compliant 4G LTE Networking with Digi Enterprise Routers white paper. This paper demystifies PCI certification and addresses meeting compliance with the Digi TransPort® family of 4G LTE routers. It presents an overview of PCI-DSS and the standard’s 12 key technical and operational requirements that merchants, processors, and service providers must satisfy.
It then introduces Digi TransPort 4G LTE Routers and how they comply with all 12 requirements, making them the world’s most secure commercial cellular routers.
Using Digi solutions, you can build PCI-compliant applications that protect credit card data processing and transmission.
Reading PCI-Compliant 4G LTE Networking with Digi Enterprise Routers, you’ll understand what’s needed for PCI-DSS compliance and how Digi offers the industry’s strongest support for this rigorous standard.
In most Internet of Things (IoT) deployments, it’s good practice to authenticate anyone trying to access your device – typically through the Ethernet, WiFi, or other network protocol. But there’s a more subtle, and dangerous, way to get into your device: through a JTAG debug port. If someone gains physical access, he can create much more havoc because JTAG takes you to the low-level heart of a board or chip, where an expert hacker can take complete low-level control of the system – even replacing firmware with a rogue code.
In this contributed article for Embedded Computing Design, Digi’s Mike Rohrmoser explains the pluses and minuses of the use of Secure JTAG keys. Regardless of the approach you choose, Digi TrustFence™ security framework includes tools for manufacturing and maintenance, including Secure JTAG.
The zero-emission taxicab of the future will soon be on the streets of London – and Digi is playing a key role in making it happen. That’s because Frazer-Nash, the electric-car pioneer founded in 1922, has selected Digi’s ConnectCore 6 system-on-module to create a complete digital experience for driver instrumentation and touchscreen passenger infotainment inside its range-extended electric vehicle (REEV) Metrocabs. The ConnectCore 6 will also enable wireless connectivity to in-cab Internet, GPS navigation, and revenue-producing interactive displays.
The ConnectCore 6 is less than 2 inches square and includes all the power and connectivity you would expect from a PC, including a cellular adapter, 1080p graphics, Wi-Fi and Bluetooth, and up to 64GB of flash memory. The decision to utilize ConnectCore 6 was a change for Frazer-Nash, which traditionally develops all technologies in-house. In fact, the ConnectCore 6 is the only component in the Frazer-Nash Metrocab that was not designed and created by the company itself.
In this new Frazer-Nash “cab of the future,” drivers can monitor the cab’s key systems as well as optimize routes, fuel, and battery efficiency. What’s more, Digi offers secure remote management and web services capabilities through the scalable Digi Device Cloud™ so Frazer-Nash can monitor all of its cabs remotely and deploy updates over cellular networks.
Frazer-Nash has been in the forefront of electric powertrain development and designs and builds all of its own components. By using the ConnectCore 6, Frazer-Nash reduced costs and accelerated its time-to-market while offering new services and deliver a connected cab. The Metrocab is just one example of the incredible development opportunities for Digi customers and partners, brining computing power to new classes of innovative applications.
Digi XBee® is the world’s #1 RF module because our common footprint is shared across protocols and frequencies. Anything is possible with Digi XBee – from the small science project in the lab to NASA monitoring payloads on a rocket, Digi XBee gives you the tools and flexibility you need to rapidly innovate. The latest example in this broad line of modules is the Digi XBee S2C 802.15.4 which is now available with the Silicon Labs Ember® EM35x transceiver.
This latest module is ideal for applications requiring low latency and predictable communication timing. The Digi XBee S2C 802.15.4 is also ideal when your application requires robust multipoint wireless connectivity with reduced power consumption, support for the over-the-air firmware updates, and an upgrade path to DigiMesh® or ZigBee® Mesh protocols.
New Digi XBee S2C 802.15.4 Offered in Through-Hole & SMT Form Factors
Anyone deploying Digi XBee can swap one Digi XBee for another. You don’t have to design a printed circuit board to take advantage of Silicon Labs’ latest chip – Digi has done it for you on the Digi XBee platform saving you time and giving you the confidence to get connected quickly and easily. Providing quick, robust communication in point-to-point, peer-to-peer, and multipoint/star configurations, Digi XBee S2C 802.15.4 products enable robust end-point connectivity with ease. Whether deployed as a pure cable replacement for simple serial communication, or as part of a more complex hub-and-spoke network of sensors, Digi XBee 802.15.4 modules maximize performance and ease of development.
Digi XBee is a special product because of our customers: the innovators, the hackers, the problem-solvers — whatever you call yourself, Digi is dedicated to providing you with everything you need to quickly create wireless connectivity solutions. Let your imagination run wireless!