Health Emergency Rescue Operation

Project Title

Health Emergency Rescue Operation

Project Area of Specialization Internet of ThingsProject Summary

Several thousands of people die day to day due to the time lag taken by the Ambulance service to reach the accident spot. This happens due to traffic jam, congestion in the city .Thus, it is necessary to introduce a distinct means that would take the objective of "saving human life" one step closer. A flying Drone which can reach the fatal cases faster than a normal ambulance which saves time and is designed to measures the different health parameters using its measuring devices. When a phone call is given to the emergency number, the emergency operator tracks the location and navigate using global positioning system using mobile application. The ambulance drone enters the scene in the instant time. The drone consist of a mini patient monitoring system which comprises of variant sensors which can be conveniently attached to the victim body and the important parameters is measured and it is immediately sent to the doctors and doctor also communicate with the attendent of the victim through Audio using Mobile App and global positioning system. The particular result helps the paramedics as well as the doctors to evaluate the situation quicker with better diagnostic and therapeutic choices. Therefore, the goal is to develop an all purpose drone to deliver an AED in out of hospital cardiac arrest may be safe and feasible. By using a model appropriate for placement of UAVs, an AED compact drone may have the potential to reduce time to defibrillation in out of the hospital cardiac arrest. "Let's use drones for a good purpose, let's use drones to save lives". 

Project Objectives

1.saving human life:

In the modern era, we have faced many problems related to our project, for example, Emergencies like Major or Minor accidents, Heart attack, or other problems. Due to traffic jams or other problems, paramedical staff reaches the destination in some time. In this situation, we have used this GPS navigation drone. The Drone will reach accident place in minimum time with first aid to provide first aid to the affected people. The witness who will be present at that incident place. He will pick up the first aid kit from the drone and provide the first aid to injured people. Due to the use of this Drone in Emergencies save many lives.

2.Delivered blood sample in Hospital:

Drones could deliver medicine to the bedside of a patient from the pharmacy, thus eliminating some human steps. This would lead to more rapid and less error prone administration of medications. Nurses and pharmacists can work more efficiently as supplies can be summoned to the bedside instead of the time-consuming task of gathering necessary items.Drones could deliver medications and supplies to patients being cared for in the home instead of a hospital-based setting. The future will see more outpatient care and even home-based care that used to be delivered in the hospital. For many conditions, drone technology may make it easier and safer to provide this home-based care. When a provider rounds on a home patient, blood can be drawn and immediately sent by drone to the lab to be tested. Medications, antibiotics and treatments ordered by the provider may be delivered to the home by drone.

Project Implementation Method

As Robotics has always been an emerging field due to which it provides a gateway and shows adaptability of new and revised research and development methodologies. The development life cycle of our product consists 6 phases:

requirment gathering:

The first phase involves understanding what need to be design and what is its function, purpose etc. Here, the specifications of the input and output.

System Design:

The requirement specifications from first phase are studied in this phase and system design is prepared. System Design helps in specifying hardware and system requirements and also helps in defining overall system architecture. The
software code to be written in the next stage is created now.

Implementation:

With inputs from system design, the system is first developed in small programs called units, which are integrated in the next phase. Each unit is developed and tested for its functionality which is referred to as Unit Testing.

Integration and Testing:

All the units developed in the implementation phase are integrated into a system after testing of each unit. The software designed, needs to go through constant software testing to find out if there are any flaw or errors. Testing is done so that the client does not face any problem during the installation of the software.

Deployment of System:

Once the functional and non-functional testing is done, the product is deployed in the customer environment or released into the market.

Maintenance:

This step occurs after installation, and involves making modifications to the system or an individual component to alter attributes or improve performance.These modifications arise either due to change requests initiated by the customer, or defects uncovered during live use of the system. Client is provided with regular maintenance and support for the developed Hardware and Software.

Project Model Diagram

Benefits of the Project

1. The first minutes after an accident are critical and essential to provide the right care to prevent escalation. Speeding up emergency response through our Drone can prevent deaths and accelerate recovery dramatically.
2. This is notably true for heart failure, drowning, traumas and respiratory issues. Lifesaving technologies such as an Automated External Defibrillator (AED),medication,Cardiopulmonary Resuscitation (CPR) aids can be designed compact enough to be carried by a drone. In this situation, we have used this GPS navigation drone controlled by mobile app.
3. The Drone will reach accident place in minimum time with first aid to provide first aid to the affected people. The witness who will be present at that incident place. He/She will pick up the first aid kit from the drone and provide the first aid to injured people .Due to the use of this Drone in Emergencies save many lives.
4. The drone will autonomously flow the track from launch site to emergency site just by giving the Patient location Through Mobile Application.
5. we will use it in farms for seed spreading and  spraying pesticides just by changing modules .
6.  Delivery companies will also used it for delivering their parcels in minimum time and resource friendly manners. 

Technical Details of Final Deliverable

In this modern age of technology, Drone has become one of the most popular inventions in the field of science. A Drone, also known as UAV (Unmanned Aerial Vehicle) uses four propellers or six propellers for lift and stabilization. The rotors are directed upwards and they are placed in a square formation with equal distance from the center of mass of the Drone. The Drone is controlled by adjusting the angular velocities of the rotors which are spun by electric motors. Nowadays, Drone has received considerable attention from researchers as the complex phenomena of the Drone has generated several areas of interest.

Mobile Application :-

1. Mission Planning Auto follow the track
2. Mobile Application.
3. Smart Altitude Hold.
4. Auto return to home or launch position(RTL).
5. Autonomous Flight.
6. Failsafe protection.
7. Real time video transmission
8. 32% faster than Local Ambulance.
9. Drone can travel at the speed of 70 km/h within the radius of 2km.
10. show all the parameters like speed, battery ,altitude direction and flight time.

HARDWARE :-

1. HexaCopter Drone.
2.  First Aid Kit or defibrillator Module.

Final Deliverable of the Project HW/SW integrated systemCore Industry HealthOther Industries Transportation Core Technology Internet of Things (IoT)Other Technologies Robotics, Wearables and ImplantablesSustainable Development Goals Good Health and Well-Being for People, Industry, Innovation and InfrastructureRequired Resources

Item Name	Type	No. of Units	Per Unit Cost (in Rs)	Total (in Rs)
			Total in (Rs)	80000
Frame	Equipment	1	7000	7000
Battery 6200mah	Equipment	1	7500	7500
PixHawk 4 Controller	Equipment	1	19500	19500
900kv motors	Equipment	7	750	5250
ESC 30 A	Equipment	7	650	4550
Arduino uno + starter Kit	Equipment	1	5600	5600
ultra sonic sensors	Equipment	4	200	800
Battery Charger	Equipment	1	2400	2400
flySky Fs-i6x	Equipment	1	9500	9500
camera	Equipment	1	5200	5200
propellers	Equipment	10	200	2000
Print Report,Poster ,brochures.	Miscellaneous	1	10000	10000
Adapter 14V 5A	Equipment	1	700	700