HealthyPi is the first fully open-source, full-featured vital sign monitor. Using the Raspberry Pi as its computing and display platform, the HealthyPi add-on HAT turns the Raspberry Pi into a vital sign monitoring system.
The simple, highly integrated design of the HealthyPi results in ease of manufacturing, more reliability, and lower cost. Nonetheless, some of the analog chips used here are the same ones present in professional patient monitoring systems.
We have ensured that the entire system is easy to use, makes it easy to add features, easy to customize, and easy to reproduce too, if you wish. The PCB design itself is simple and the software design is simpler.
You can get as deep into the technical details of the HealthyPi as you want. Just want to use it as a data monitor? Perform the default install and you’re ready to start using it right away. Are you a serious software hacker trying to make the software more efficient and the algorithms more intelligent? You can do that too.
The HealthyPi was designed with not just one application in mind, but a variety of them. While it does function as a vital sign monitor for traditional patient monitoring applications, it can also be used for several other applications. You can use it with a Raspberry Pi using a display; use it with a Raspberry Pi with the official touchscreen using our "Complete Kit," or you can use it standalone by connecting it to any computer’s USB port. The software is compatible across all platforms.
Utilizing the Raspberry Pi 3’s built-in Wi-Fi and Bluetooth capability, the HealthyPi is ready to connect to the internet of things. This makes it very easy to get data into the cloud for any kind of analysis and/or decision-making. The built-in MQTT client in the processing GUI can send realtime vital signs data to any MQTT client/server with minimum overhead.
Below is a screencap of the HealthyPi sending data to Adafruit’s io.adafruit.com IoT platform. The latest version of the GUI has built-in support for MQTT and can push data to any platform you want. Check out our update regarding this for more information.
All the hardware schematics, layout, and BOM are available on our GitHub repo. This means you can modify, improve, and/or generally just hack the hardware. The hardware designs are all in Eagle, which makes it easily accessible and editable without spending a lot on expensive PCB design software. Also, unlike certain open source hardware, we don’t just give you the schematic, but the Eagle schematic, layout files and BOM. We make it easier for you to take our design and use it for your own.
At the heart of the HealthyPi is the Atmel/Microchip ATSAMD21 microcontroller with an ARM Cortex M0 core. This is the same chip in the Arduino M0/Zero, which makes it automatically programmable with Arduino. You wrote a better algorithm for noise removal? Just edit the code to include the new program and upload it using the on-board USB port. If you want to skip using Arduino totally and just program the on-board processor directly with a JTAG programmer, there is also a JTAG header available. We will have the code for Atmel Studio 7 also.
Processing is a great piece of open-source software that allows you to create any kind of desktop application with Java code. Processing itself is open-source and also has several user-contributed libraries. The software is platform agnostic and works equally well on Windows/MacOS/Linux and, of course, Linux-ARM, which is on the Raspberry Pi. Below is a screencap of the HealthyPi GUI running on a Raspberry Pi and connected to a real subject.
If you wish to make changes to the Raspberry Pi code or connect the Raspberry Pi to your Wi-Fi network or anything else, you will need a keyboard and mouse which plugs into the Raspberry Pi. Touchscreen includes an on-screen keyboard also. If you wish to power your HealthyPi from a battery, you can use any standard USB power bank (NOT included) to power the system. We actually recommend the use of a power bank for providing power as it is safer and minimizes noise.
There is provision on the board for connecting two UART-based external devices or sensors. There is a future plan to integrate a blood pressure sensor as well as a glucometer. These are in the works and will directly plug into the current HealthyPi board when available.
HealthyPi takes power from the 5 V power present on the Raspberry Pi’s 40-pin expansion header. Depending on your application, you can power your Raspberry Pi + HealthyPi in several ways:
You can now buy the Battery HAT on this same page under the pledge levels.
We have our own assembly and testing facility for low volume (100 pcs) production. This includes a small pick-and-place machine, ovens, and microscope inspection equipment. We also have our own team with testing and inspection expertise at our office/assembly facility/warehouse in Bangalore, India.
All the components for this products are from authorized, well-known vendors, primarily Digi-Key and Texas Instruments. This includes even smaller components such as capacitors and resistors to ensure we get consistent signal quality and reproducibility of signals each time, every time.
We have already successfully manufactured and sold hundreds of HealthyPi v2 boards to customers all over the world. So, we are in the know about manufacturing challenges and system performance and can plan appropriately. HealthyPi v3 is a huge overhaul of our earlier versions and is more stable. We are already all set for the manufacturing run for the first 100 units.
All orders will be shipping from our office in Bangalore, India. We try to keep just enough inventory of components so that we can do quick assembly, while at the same time optimizing our manufacturing costs (because we don’t stock a lot of components at a time).
We have very preferential negotiated shipping rates with UPS Express and DHL Worldwide Express. For this reason, we are able to offer free shipping worldwide. All orders will be shipped using UPS or DHL (depending upon your location), and will be insured and trackable.
Customs import duty and taxes may apply for certain countries and certain customers. All the clearance procedures will be performed by the courier, but the customer is responsible for paying any import duties/taxes, if applicable.
The first 100 units of the HealthyPi v3 (board only or complete kit) will be shipped about 10-12 days after the campaign end date. Orders received for additional units will ship within 24 days of the campaign end date. Since we have already manufactured and shipped several products, we are able to confidently give specific shipping schedules and stick to them. Also, the components used have a steady supply chain with active production and we’re confident of getting all of them at any given time.
Important Warning: Although this has all the features of a medical grade patient monitoring system, this does NOT have any certifications (FDA/CE/IEC) and is NOT approved for MEDICAL or diagnostic use. It is your responsibility to ensure your safety when using the device. Never power the device from an non-isolated power source.
"The open source Healthy Pi v3 is a highly affordable solution for DIY home health monitoring or healthcare in emerging nations, and can also be used in education, research, and medical device prototyping."
"Bangalore based ProtonCentral has launched the third version of Healthy Pi, a vital sign monitor using the Raspberry Pi as its computing and display platform, and capable of measuring body temperature, oxygen saturation, and ECG/respiratory data."
"[HealthyPi] also looks to have excellent open source credentials, with hardware schematics, layout, and bill of materials all being made available on GitHub, alongside a fully open source Arduino firmware, and Processing-based GUI display software."
"This multi-parameter patient monitoring HAT kit features temperature, pulse oximetry, and ECG/respiration sensors, as well as 20 adhesive electrodes."
Produced by ProtoCentral in Bengaluru, India.
Sold and shipped by Crowd Supply.
The basic kit includes the HealthyPi-v3 board plus temperature, pulse oximetry, and ECG/respiration sensors with 20 adhesive electrodes. Plug this board into your Raspberry Pi and touchscreen or use standalone through USB.