This Tech Is Quietly Saving Lives – IoT in Healthcare Explained
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The future of healthcare isn’t in hospitals — it’s in your home. Thanks to IoT-powered remote patient monitoring (RPM), doctors can now track patients in real time using wearable sensors, smart devices, and AI-driven alerts. This video explores how the Internet of Things is improving healthcare through easier and more effective remote patient monitoring. See real-world examples of smart devices enhancing patient health, and learn about the advantages and challenges of employing this digital health technology. We will also discuss internet of things healthcare and other healthcare iot applications.
The National Museum of Emerging Science and Innovation, simply known as the Miraikan, is a museum created by Japan's Science and Technology Agency. It was opened in 2001. It is situated in a purpose-built building in the Odaiba District of Tokyo. In the video, I am visiting Miraikan, the National Museum of Emerging Science and Innovation in Tokyo, Japan. I explore various exhibits spread across multiple floors of the museum, focusing on emerging technologies and scientific innovations. The first floor introduces the museum, showing a ticket purchase and an overview of the building. I take an escalator to the next floor where I check descriptions of the different floors and their themes. I am excited about the exhibits and mention a gift shop. The second floor is described as a special floor not accessible to the public, while the third floor features a kids' zone and information stands. I explore the "Create Your Future" exhibit, which focuses on envisioning a prosper...
When it comes to building a reliable smart home or IoT network, Zigbee and Z-Wave are two names you can't avoid. Both offer mesh networking. Both prioritize low power consumption. Both promise simple device-to-device communication. But which one is better for your needs? Let's break it down clearly. 1. Frequency Band Zigbee: Operates mainly at 2.4 GHz (globally) but can use sub-GHz in some regions. Z-Wave: Works at sub-GHz frequencies (around 800-900 MHz depending on the region). Impact: Z-Wave’s lower frequency means less interference (since Wi-Fi and Bluetooth crowd 2.4 GHz). Zigbee's 2.4 GHz can face more noise but offers higher data rates. 2. Device Ecosystem Zigbee: Huge ecosystem. Brands like Philips Hue, Amazon Echo, and Samsung SmartThings rely on it. Z-Wave: Smaller, but highly curated ecosystem with strict interoperability standards. Impact: Zigbee offers more choices, but sometimes devices from different vendors don't play perfectly together. Z-Wave has...
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