IOT of Doctor Robot

Scope, Introduction and Background of the Project: Doctors are usually needed to work at every hospital and emergency Centre every now and then. But it is not feasible for every doctor to be available at every place at desired time. The problem with video calling is that video calls need to b

Project Title

IOT of Doctor Robot

Project Area of Specialization

Robotics

Project Summary

Scope, Introduction and Background of the Project:

Doctors are usually needed to work at every hospital and emergency Centre every now and then. But it is not feasible for every doctor to be available at every place at desired time. The problem with video calling is that video calls need to be done from a PC or laptop on a desk. This limits the doctors capacity to view patient or around operation theatre at will or even move through hospital rooms as needed.

To help solve this issue we here develop a virtual doctor robot that allows a doctor to virtually move around at a remote location at will and even talk to people at remote location as desired. This robot provides a whole lot of advantages for doctors:

Doctors ability to be at anyplace anytime

Doctors can move around in operation theatres

Doctors can move around the patient with ease

Doctors can see medical reports remotely via video calls

Doctors can move around in other rooms at will

The system makes use of a robotic vehicle with 4 wheel drive for easy navigation. The robot also includes a controller box for circuitry and a mounting to hold a mobile phone or tablet. The mobile or tablet is used to hold live video calls.

The doctor can use an IOT based panel to control the robot. The control commands sent sent online are received by the robot controller. The robot controller operates over wifi internet. The received commands are received in real time and the robot motors are operated to achieve the desired movement commands. Also the root has other functions including battery status alert to remind of battery charging on time.

Project Objectives

Aim and Objectives of Project

The purpose of this article is to explain the design and development of the future robot that can act as a personal physician. The purpose of this robot is to work interactively with the user while it is connected to the cloud as well as human doctors. The robot can be used for real-time health monitoring as well as provide basic health instructions to the user. The ultimate goal is to create a robot in the form of a personal / social creature where everyone can benefit from it at home or in the office. This article describes the early stages of Dr. Robot's development, and our goal in the future is to improve this report in the aspects of design, architecture, interaction and functionality.Telepresence is one of the emerging fields in robotics. The objective of the work is to enhance the Telepresence Robot to Telepresence Robot Doctor which can allow direct connection to medical sensors, such as electronic heart pulse rate sensors and temperature sensor for transmitting medical data to the remote physician. The physician can thus discuss mode of treatment and can communicate with patients remotely. This helps to improve the efficiency of medical diagnosis and treatment plans during non-life threatening emergencies. This project has contributed in the doctor-robot interface where the doctor/user can control the robot reliably via regular internet connection from a different location.

Project Implementation Method

Expected Tools and Technology Requirements:

• Basic Mechanical Components (Bolts, nuts, rods, etc)

• Electronic Components (Resistors, Switches, Relays, Microcontrollers, etc)

• DC Motor

• Wifi Module

• Wheels

• Antenna

• Switch and electrical Wiring

• Physical Frame

Benefits of the Project

Problem Identification:

The ethical issues of application of artificial intelligence methods in medicine are discussed and the assumption is made that the methods of artificial intelligence will solve the main ethical problem of medicine—the appointment of drugs, courses of treatment and prevention of diseases will stop without preliminary computer modeling of their consequences and optimization of given prescriptions and recommendations. The methods of creation of dynamic intellectual systems capable not only to make current diagnoses of diseases, but also to model development of diseases in time are briefly described. The latter allows you to optimize the prescribed courses of prevention and treatment of diseases. It is reported about the experience of creating a robot-doctor who performs diagnosis of diseases of the cardiovascular system, predicting the development of diseases, giving recommendations for optimizing the lifestyle and taking some medications. An example of the work of a robot-doctor is given. The robot-doctor diagnoses and predicts the development of cardiovascular diseases for three patients who differ, differing in age and sex characteristics, way of life and history. As follows from the forecasts, the same recommendations can have a different effect for each individual patient. It is noted that the robot-doctor when issuing forecasts and recommendations, takes into account the characteristics of the patient’s body, which is not always able to do a natural doctor.

Technical Details of Final Deliverable

Robotics is a branch of mechanical engineering, electrical engineering and computer science that deals with the design, construction, operation, and application of robots, as well as computer systems for their control, sensory feedback, and information processing. In this technological era Robotic technology used in many fields with different applications, use of Robot in medical field is one of them. Medical robots assist with surgery, streamline hospital logistics, and enable providers to give more direct attention to patients. Robots in the medical field are transforming how surgeries are performed, streamlining supply delivery and disinfection, and freeing up time for providers to engage with patients.

Final Deliverable of the Project

Hardware System

Core Industry

Health

Other Industries

Medical

Core Technology

Robotics

Other Technologies

Internet of Things (IoT)

Sustainable Development Goals

Good Health and Well-Being for People

Required Resources

If you need this project, please contact me on contact@adikhanofficial.com