Smart Mask

Project Title

Smart Mask

Project Area of Specialization Wearables and ImplantableProject Summary

We are developing a mask which will have various sensors to help the user equipped with useful data. It will be made of HEPA filters which is not only a very good filter material but it will also make it more durable.

The temeprature sensor and display on the mask will keep the user informed of its temperature. Distance sensor will help him maintain the neccessary distance between him the the other person. The air quality sensor will keep him informed about the quality of air he is inhaling. All these features will help the user get rid of the worries of getting these data but some external equipments.

The chargeable feature of the mask will help get rid of the germs on the surface of the mask by the help of UV lights. This increase life of our mask will also prevent large amount of disposals of masks to the environment.

The mask can be connected to the application on your phone via Bluetooth system of the smart mask, to give the user all the data.

Project Objectives

1. To sense temperature and displays it on the small screen of the mask.
2. To beep or ring an alarm in case if someone comes closer than 6-feet.
3. To make it easily openable for the purpose of eating and drinking.
4. To make it durable for up to 6-8 months.
5. To make it Chargeable.
6. To show its Charging display.
7. UV lights which will kill the germs on the surface of the mask when charged.
8. To detect quality of air, Air quality sensor will be used.

Project Implementation Method

There are two phases in which we will design and develop our project.

1. Interfacing the mask.
2. Developing an application.

The mask uses two microprocessors PSoC4 and PSoC5. The PSoC5 is the more
powerful chip and handles the communication and data collection of each sensor.
It then sends the data to the second processor, PSoC4 which has Bluetooth
capabilities and therefore it is used to send data to smartphone containing our
application.

We will first form the two layers of the mask from HEPA material. These layers will do the filtration and provide the rigidity needed for the mask to hold its circuitry. Then the interfacing of the components will begin.

Distance sensor will need to be programmed for a 6-feet range. Temperature and air quality sensor will then be added and all these sensors will be interfaced using PSOC 4
and PSOC5 microcontrollers. The phone application will be developed in the last phase.

Benefits of the Project

The main benefits of our project are to make a wearable mask containing all the necessary features in the palm of the person wearing it. 

When the person is wearing the smart mask, it will automatically displays the temperature of the person on the screen given on the mask. The air quality sensor will help the person know the quality of air he is breathing.

 A considerate amount of distance has to be maintained between the 2 people due to the pandemic situation, therefore the mask will alarm/beep incase the 2 people come very near to each other.

The mask can be connected to the application on your phone via Bluetooth system of the smart mask, to give the user the details of all the data.

Because the mask will be made chargeable, hence when its charged, it will be able to get rid of all the germs present on the surface of the mask using the UV lights.

To increase the durability, the mask will be made
up of H11 HEPA filter which filters out 95% of the virus sized particles. The durability of our mask will also prevent large amount of disposals of masks to the environment.

Technical Details of Final Deliverable

Our Mask is consist of 2 layers. To increase the durability, the mask will be made up of H11 HEPA filter which filters out 95% of the virus sized particles.

i. The 1 st layer of the filter is made up of polypropylene (PP) which provides filtration ability to HEPA filter.
ii. The 2 nd layer of the filter is made up of polyethylene terephthalate (PET)
which provides rigidity to the filter.

With the special UV base system of our smart mask we can charge our mask and
while it is charging it will kill all the germs on the surface of the mask.

Main components of the mask are distance sensor, air quality sensor and temperature sensor. A phone based application will be made which will show all the details if the sensors. The application can provide you with real time information about the air quality you
breathe in, its humidity, your temperature and the distance between you and the other person.

The mask uses two microprocessors PSoC4 and PSoC5. The PSoC5 is the more powerful chip and handles the communication and data collection of each sensor.
It then sends the data to the second processor, PSoC4 which has Bluetooth capabilities and therefore it is used to send data to smartphone containing our
application.

Final Deliverable of the Project HW/SW integrated systemCore Industry HealthOther IndustriesCore Technology Wearables and ImplantablesOther TechnologiesSustainable Development Goals Good Health and Well-Being for PeopleRequired Resources

Item Name	Type	No. of Units	Per Unit Cost (in Rs)	Total (in Rs)
			Total in (Rs)	65200
RTD sensor	Equipment	2	1800	3600
Air quality sensor	Equipment	2	4900	9800
LiDAR sensor	Equipment	2	6500	13000
PSoC4 Microcontrollers	Equipment	1	26000	26000
PSoC5 Microcontrollers	Equipment	2	3150	6300
Battery	Equipment	1	500	500
UV Lights	Equipment	2	3000	6000