Futuristic Patient Assistant Robot Enhancing Healthcare
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Presented by :
1- Amira Ibrahim Sayed
2-Asmaa Mohamed Saad
3-Amna Ahmed Mohammed
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Absrtact
Tries
Hardware
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purpose of the experiment to help the owners of
infectious diseases and to isolate them from healthy
people until recovery.
Procedures : We started doing the robot , which is
helping patients with some tasks that are difficult for
them to do ,, and also bring them food and medicine at
specific times .
Data : This robot goes to every patient room to
provide him with food and water and needed
medication. It also measures the patient's temperature
, if necessary, and give him medicine to reduce the
temperature if the temperature is higher than usual.
Also doing other tests for the patient
.
*
manufacture our own robot, which consist of base
which carry model of robot with a tool to lift and carry
things to their delivery to the patient.
*
robot movement is performed using dc motors and
stepper motors (DC Motors : Fast, continuous
rotation motors – give high RPM ,,a stepper motor
has positional control ) .
*
control this robot by computer using GUI which send
orders from computer to robot through wireless
communication.(we use this method for easy control
over awide distance )
*
use ic type mega (atmega16 ) in programming (as
we want to learn writing codes by ourselves)
*
In the future, all hospital services will depend on the robot,
which will make business owners interested in robots.
They will pay attention to the development of the robot to
get to the most efficient and least expensive robot .
*
*
We aspire to develop the robot to be able to work the
necessary tests for the patient . On the basis of these tests
gives him the right medicine . The robot also follow up the
patient on a regular basis until recovery.
*
*
set up a hospital for people suffering from infectious
diseases , which depends entirely on robots in all services
pertaining to patients to provide them with the necessary
assistance during the treatment period until recovery
7- DMOS Microstepping Driver with
Translator and Overcurrent Protection
8- DC motor
9- L298 Dual Motor Driver Module 2A
10-ultrasonic
11-LM35 (Temperature sensor )
12-Wireless Module Serial UART
(200M Range-433 Mhz)
13-USB-XBEE Adapter
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Switched reluctance motors
are very large
stepping motors with a reduced pole count,
and generally are closed-loop commutated.
Stepper motor
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Five different step resolutions: full-step, half-
step, quarter-step, eighth-step, and sixteenth-
step
Adjustable current control lets you set the
maximum current output with a
potentiometer.
Over-temperature thermal shutdown, under-
voltage lockout, and crossover-current
protection
Short-to-ground and shorted-load protection
Features and Benefits
Low R DS(ON) outputs
Automatic current decay mode detection/selection
▪ Mixed and Slow current decay modes
Synchronous rectification for low power dissipation
Internal UVLO
Crossover-current protection
3.3 and 5 V compatible logic supply
Thermal shutdown circuitry
Short-to-ground protection
Shorted load protection
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DC motors were the first type widely used,
since they could be powered from existing
direct-current lighting power distribution
systems.
A DC motor's speed can be controlled over a wide
range, using either a variable supply voltage or by
changing the strength of current in its field windings.
Small DC motors are used in tools, toys, and
appliances. The
universal motor
can operate on
direct current but is a lightweight motor used for
portable power tools and appliances. Larger DC
motors are used in propulsion of electric vehicles,
elevator and hoists, or in drives for steel rolling
mills. The advent of power electronics has made
replacement of DC motors with
AC motors
possible
in many applications
1. Sign-Magnitude PWM – For sign-magnitude PWM operation, 2
control signals are used to
control the speed and direction of the motor. PWM is feed to the PWM
pin to control the
speed while DIR pin is used to control the direction of the motor.
2. Locked-Antiphase PWM – For locked-antiphase PWM operation,
only 1 control signal is
needed to control the speed and direction of the motor. PWM pin is
connected to logic high
while the DIR pin is being feed with the PWM signal. When the PWM
signal has 50% duty
cycle, the motor stops running. If the PWM has less than 50% duty
cycle, the motor will turn
CW (or CCW depending on the connection). If the PWM signal
has more than 50% duty
cycle, motor will turn CCW (or CW depending on the connection).
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Operating Voltage: 4-20V
3 pins: VCC, GND, SIGNAL
SIGNAL pin changes voltage according to the temprature
LM35 is a 3 pin temperature sensor which requires a VCC and
GND and in return the remaining third pin gives us an analog
output. For its pin configurations refer to the Circuit Diagram
below. This output is then provided to the ADCs present in
AtMega 16 IC which according to a formula calculate the
temperature in °C format.
The LM35 series are precision integrated-circuit temperature
sensors, whose output voltage is linearly proportional to the
Celsius (Centigrade) temperature. The LM35 thus has an
advantage over linear temperature sensors calibrated in °
Kelvin.
This wireless UART module is a new-generation
multi-channel embedded wireless data transmission
module. Its wireless working frequency band is 433.4-
473.0 MHz, multiple channels can be set, with the
stepping of 400KHz, and there are 100 channels in
total. The maximum transmitting power of module is
100mW(20dBm), the receiving sensitivity is -117dBm
at baud rate of 5000bps in the air, and the
communication distance is 1000m in open space.
There is MCU on the module, and program is
needed to utilize the module. In transparent
transmission mode, the module act like normal
receiving and sending serial port data,
so it is convenient to use. The module adopts
multiple serial port transparent transmission
modes, and user could select them by AT
command according to user's requirements.
The average working current of three modes
FU1, FU2 and FU3 in idle state is 80µa, 3.5mA
an 22mA respectively, and the maximum
working current is 100mA (in transmitting state).
AT
Send this command, will return to OK characters
Example: hair AT return OK
AT + V
Module to return to version information
Example: hair AT + V to return to HC-11 _V1.9
AT + Bxxxx
The baude rate set to XXXX. This value is 0960 0192 00384 00576
2400480 00115 200. Ex 1: hair AT + B4800 return OK-4800 Example 2: hair
AT + B115200 return OK-115200
AT + Cxxx
Setting wireless module. From 001 to 127 can be chosen
Example: hair AT + C058 return OK-058
AT + Axxx
Setting wireless module address. From 000 to 255 can be chosen
Example: hair AT + A123 return OK-A123
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It is equipped with BEE socket (20pin 2.0mm). Using
this converter enables you to connect any bee module
such as Zigbee, Bluetooth bee or WIFI bee, to usb
directly.
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This research project introduces a patient assistant robot supervised by Dr. Ahmed Mostafa and presented by a team comprising Amira Ibrahim Sayed, Asmaa Mohamed Saad, and Amna Ahmed Mohammed. The robot aims to assist individuals with infectious diseases by providing essential care and isolating them until recovery. It performs tasks like delivering food, medication, monitoring temperature, and conducting tests. The robot's hardware includes DC and stepper motors controlled via wireless communication. The envisioned future involves extensive robot-dependent healthcare services, focusing on efficient patient care and recovery. Hardware components include wheels, gears, motors, and driver systems.
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Presentation Transcript
Patient assistant robot Superviserd by: Dr : Ahmed mostafa Presented by : 1- Amira Ibrahim Sayed 2-Asmaa Mohamed Saad 3-Amna Ahmed Mohammed
Contents Absrtact Tries Hardware
ABSTRACT The patient assistant robot About robot Future seen
The patient assistant robot purpose of the experiment to help the owners of infectious diseases and to isolate them from healthy people until recovery. Procedures : We started doing the robot , which is helping patients with some tasks that are difficult for them to do ,, and also bring them food and medicine at specific times . Data : This robot goes to every patient room to provide him with food and water and needed medication. It also measures the patient's temperature , if necessary, and give him medicine to reduce the temperature if the temperature is higher than usual. Also doing other tests for the patient .
About robot *manufacture our own robot, which consist of base which carry model of robot with a tool to lift and carry things to their delivery to the patient. *robot movement is performed using dc motors and stepper motors (DC Motors : Fast, continuous rotation motors give high RPM ,,a stepper motor has positional control ) . *control this robot by computer using GUI which send orders from computer to robot through wireless communication.(we use this method for easy control over awide distance ) * use ic type mega (atmega16 ) in programming (as we want to learn writing codes by ourselves)
Future seen *In the future, all hospital services will depend on the robot, which will make business owners interested in robots. They will pay attention to the development of the robot to get to the most efficient and least expensive robot . * *We aspire to develop the robot to be able to work the necessary tests for the patient . On the basis of these tests gives him the right medicine . The robot also follow up the patient on a regular basis until recovery. * *set up a hospital for people suffering from infectious diseases , which depends entirely on robots in all services pertaining to patients to provide them with the necessary assistance during the treatment period until recovery
Hadware : 1- wheel 2- gear 3- left 4- stand 5-stepper motor 6-stepper motor driver
7- DMOS Microstepping Driver with Translator and Overcurrent Protection 8- DC motor 9- L298 Dual Motor Driver Module 2A 10-ultrasonic 11-LM35 (Temperature sensor ) 12-Wireless Module Serial UART (200M Range-433 Mhz) 13-USB-XBEE Adapter
Stepper motor A stepper motor or step motor or stepping motor is a brushless DC electric motor that divides a full rotation into a number of equal steps. The motor's position can then be commanded to move and hold at one of these steps without any feedback sensor (an open-loop controller), as long as the motor is carefully sized to the application in respect to torque and speed. Switched reluctance motors are very large stepping motors with a reduced pole count, and generally are closed-loop commutated.
Stepper motor driver circuits Features Five different step resolutions: full-step, half- step, quarter-step, eighth-step, and sixteenth- step Adjustable current control lets you set the maximum current output with a potentiometer. Over-temperature thermal shutdown, under- voltage lockout, and crossover-current protection Short-to-ground and shorted-load protection
DMOS Microstepping Driver with Translator and Overcurrent Protection Features and Benefits Low R DS(ON) outputs Automatic current decay mode detection/selection Mixed and Slow current decay modes Synchronous rectification for low power dissipation Internal UVLO Crossover-current protection 3.3 and 5 V compatible logic supply Thermal shutdown circuitry Short-to-ground protection Shorted load protection
DC motor A DC motor is any of a class of electrical machines that converts direct current electrical power into mechanical power. The most common types rely on the forces produced by magnetic fields. Nearly all types of DC motors have some internal mechanism, either electromechanical or electronic, to periodically change the direction of current flow in part of the motor. Most types produce rotary motion; a linear motor directly produces force and motion in a straight line. DC motors were the first type widely used, since they could be powered from existing direct-current lighting power distribution systems.
A DC motor's speed can be controlled over a wide range, using either a variable supply voltage or by changing the strength of current in its field windings. Small DC motors are used in tools, toys, and appliances. The universal motor can operate on direct current but is a lightweight motor used for portable power tools and appliances. Larger DC motors are used in propulsion of electric vehicles, elevator and hoists, or in drives for steel rolling mills. The advent of power electronics has made replacement of DC motors with AC motors possible in many applications
Dual channel 10Dc motor driver 1. Sign-Magnitude PWM For sign-magnitude PWM operation, 2 control signals are used to control the speed and direction of the motor. PWM is feed to the PWM pin to control the speed while DIR pin is used to control the direction of the motor. 2. Locked-Antiphase PWM For locked-antiphase PWM operation, only 1 control signal is needed to control the speed and direction of the motor. PWM pin is connected to logic high while the DIR pin is being feed with the PWM signal. When the PWM signal has 50% duty cycle, the motor stops running. If the PWM has less than 50% duty cycle, the motor will turn CW (or CCW depending on the connection). If the PWM signal has more than 50% duty cycle, motor will turn CCW (or CW depending on the connection).
Ultrasonic Bats are mammals like us and many of our pets. What is interesting about bats is the way they find and identify objects around them. They use a method known asecholocation. Bats use sound to sense distance; they emit high frequency sound waves (too high for humans to hear) and the echoes they get back give them information about anything obstructing their way, including the size and shape of the obstacle. This obstacle can even be an insect which could be its midnight meal. But how do the bats calculate the distance to its obstacle? They carefully calculate the time it takes for the echo to return and time of echo is proportional to the distance to the nearest object.
LM35 (Temperature sensor ) Operating Voltage: 4-20V 3 pins: VCC, GND, SIGNAL SIGNAL pin changes voltage according to the temprature LM35 is a 3 pin temperature sensor which requires a VCC and GND and in return the remaining third pin gives us an analog output. For its pin configurations refer to the Circuit Diagram below. This output is then provided to the ADCs present in AtMega 16 IC which according to a formula calculate the temperature in C format. The LM35 series are precision integrated-circuit temperature sensors, whose output voltage is linearly proportional to the Celsius (Centigrade) temperature. The LM35 thus has an advantage over linear temperature sensors calibrated in Kelvin.
Wireless Module Serial UART (200M Range-433 Mhz) This wireless UART module is a new-generation multi-channel embedded wireless data transmission module. Its wireless working frequency band is 433.4- 473.0 MHz, multiple channels can be set, with the stepping of 400KHz, and there are 100 channels in total. The maximum transmitting power of module is 100mW(20dBm), the receiving sensitivity is -117dBm at baud rate of 5000bps in the air, and the communication distance is 1000m in open space. There is MCU on the module, and program is needed to utilize the module. In transparent transmission mode, the module act like normal receiving and sending serial port data,
so it is convenient to use. The module adopts multiple serial port transparent transmission modes, and user could select them by AT command according to user's requirements. The average working current of three modes FU1, FU2 and FU3 in idle state is 80 a, 3.5mA an 22mA respectively, and the maximum working current is 100mA (in transmitting state).
AT Command mode AT Send this command, will return to OK characters Example: hair AT return OK AT + V Module to return to version information Example: hair AT + V to return to HC-11 _V1.9 AT + Bxxxx The baude rate set to XXXX. This value is 0960 0192 00384 00576 2400480 00115 200. Ex 1: hair AT + B4800 return OK-4800 Example 2: hair AT + B115200 return OK-115200 AT + Cxxx Setting wireless module. From 001 to 127 can be chosen Example: hair AT + C058 return OK-058 AT + Axxx Setting wireless module address. From 000 to 255 can be chosen Example: hair AT + A123 return OK-A123
USB-XBEE Adapter This module can be used as USB-BEE adaptor and at the same time it can be used as USB to UART adapter. It is equipped with BEE socket (20pin 2.0mm). Using this converter enables you to connect any bee module such as Zigbee, Bluetooth bee or WIFI bee, to usb directly. Therefore you might connect your PC to various wireless applications such as Arduino or Android mobile via a Bee compatible module. The USB-BEE converter is based on FT232RL The ever popular FTDI USB to UART IC.
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