Introduction
Today, hospitals have accomplished much, but they have also suffered from a work overload, and a spread in bacterial germs. There has not been many ways to screen for emergent viruses, leading to misdiagnoses, and in some cases—death. Over 2,000,000 people get infected in hospitals, which costs them 30.5 billion dollars. Also, insurance premiums rose by 77% last year, partly due to inefficiencies in hospitals. The JETAA™HEALTHCARE SQUAD solves it all. We have a JETAA™ FORKLIFT, JETAA™ SANIBOT, & the highly renowned DR. JETAA™! The forklift robots moves materials throughout the hospital, increasing efficiency. The SANIBOT cleans and sanitizes the entire building, keeping everyone safe. For quick transportation, we use the JETAA Gondolas that travel through key areas of the city which are separated by mountains, rivers and urban fabric too dense to allow any other method of transportation. These robots transport patients in emergencies and necessities such as blood and organs between hospitals. The cable cars are fast and efficient, and they are extremely cost-effective. For efficient distribution of supplies to individual rooms in the hospital, we have employed the JETAA Sorter to sort out all the items such as bandages, medicine, clothing, needles, etc. Finally, the doctor bot scans all the patients for viruses. Now let’s see how the JETAA™ HEALTHCARE SQUAD has taken over the healthcare industry!
Key Features of the robots
The JETAA™ HEALTHCARE SQUAD has many key features. Starting with the JETAA™ FORKLIFT, it NEVER gets lost since it uses the JNS or JETAA™ Navigation System. This system basically supplies the robot with a constantly updating map of the hospital allowing the robot to navigate even the most difficult parts of the hospital.
The JETAA™ SANIBOT features the JETAA™ UVC System (JETAA™ Ultraviolent Cleaning System), which uses strong ultraviolet light to destroy germs and make the hospital completely clean. There is a giant mop in the back to clean dust. The SANIBOT navigates using the JNS.
DR. JETAA™ is equipped with the JETAA™ NANO ARM (JNA). The JNA features a nano laser with an infrared camera. It also has an ultrasonic sensor. The nano laser scans the blood noninvasively for any bacteria or viruses. The infrared camera checks the body temperature of the patient. In addition, the ultrasonic sensor inspects the respiratory conditions and the heart rate. With all this information, it alerts a human doctor, a peer robot, and a central system for further action.
The JETAA™ SANIBOT features the JETAA™ UVC System (JETAA™ Ultraviolent Cleaning System), which uses strong ultraviolet light to destroy germs and make the hospital completely clean. There is a giant mop in the back to clean dust. The SANIBOT navigates using the JNS.
DR. JETAA™ is equipped with the JETAA™ NANO ARM (JNA). The JNA features a nano laser with an infrared camera. It also has an ultrasonic sensor. The nano laser scans the blood noninvasively for any bacteria or viruses. The infrared camera checks the body temperature of the patient. In addition, the ultrasonic sensor inspects the respiratory conditions and the heart rate. With all this information, it alerts a human doctor, a peer robot, and a central system for further action.
Science Concepts
The SANIBOT uses ultraviolet rays to disinfect all surfaces, materials, and rooms. Ultraviolet rays have a higher frequency than visible light and colors. The frequency of ultraviolet light is 10 to the 16th power Hz, which has enough energy to damage the DNA of viruses, thus preventing their reproduction and destroying them. It also kills 99.99% of bacteria, making the environment safe.
The servo motors use electromagnets. First, electricity from the batteries of the EV3/NXT Brick flows through a wire into the motor. Next, the current flows through a metal electromagnet, which causes the motor to spin. It turns many gears in the motor case which in turn spins the wheels/treads.
Dr. JETAA™ uses nano-lasers to vibrate any pathogenic bacteria/virus in the blood. Every bacterium/virus reacts to the laser in a unique way. This way it can detect all pathogens and immediately alert a human doctor, a peer robot, and a central system for further action.
The JETAA™ Navigation System’s central computer employs Wi-Fi technology to communicate with the robots to determine their positions using radio frequencies. Radio signals are constantly transmitted allowing the robot to travel and do its job.
The JETAA™ Sorter uses RFID tags to detect the items and sort them out for distribution. This allows for accurate sorting.
Math Concepts
We had to figure out the exact amount of rotations for the motor to spin in order for the forklift robot to lift and drop objects. The number of rotations is 0.4 backwards for lifting an object and 0.4 rotations forwards for dropping an object.
When creating the floorplan of the hospital, we had to measure the length and angle of the line in order to create a perfect path for the robot. For Dr. JETAA, we used 130 degree angles, so that the robot would turn accurately.
We had to figure out the exact amount of rotations for the motor to spin in order for the forklift robot to lift and drop objects. The number of rotations is 0.4 backwards for lifting an object and 0.4 rotations forwards for dropping an object.
When creating the floorplan of the hospital, we had to measure the length and angle of the line in order to create a perfect path for the robot. For Dr. JETAA, we used 130 degree angles, so that the robot would turn accurately.
For the forklift to lift the containers, we had to measure the length and height of the platform under each container in order for the fork to fit under the box. The platform is 1 inch tall and 5 inches long.
Dr. JETAA™’s JNA swings for a specific duration (4 seconds) to scan the whole body of the patient.
New Features
Dr. Jetaa will now be able to send a live video feed of patients to the human doctors so that they can monitor the patients' recovery in real-time. Also, patients can call the Jetaa Forklift to bring food or amenities using a bedside remote control.
Dr. Jetaa will now be able to send a live video feed of patients to the human doctors so that they can monitor the patients' recovery in real-time. Also, patients can call the Jetaa Forklift to bring food or amenities using a bedside remote control.
Conclusion
Robots will definitely solve the problems of today’s hospitals—be it the spread of infectious diseases, huge numbers of misdiagnoses, or rising healthcare costs. They have the ability to transport materials and perform repetitive tasks effectively, sanitize the entire hospital, flawlessly detect viruses, efficiently distribute supplies to rooms, and provide speedy world-class ambulance services. This will revolutionize the health industry. On a final note, we plan to bring out many more improvements to the healthcare industry such as surgical robots and DNA nanobots in the coming years.
Thank you.
Robots will definitely solve the problems of today’s hospitals—be it the spread of infectious diseases, huge numbers of misdiagnoses, or rising healthcare costs. They have the ability to transport materials and perform repetitive tasks effectively, sanitize the entire hospital, flawlessly detect viruses, efficiently distribute supplies to rooms, and provide speedy world-class ambulance services. This will revolutionize the health industry. On a final note, we plan to bring out many more improvements to the healthcare industry such as surgical robots and DNA nanobots in the coming years.
Thank you.