The document describes an ultrasonic radar system using Arduino that detects and locates objects using ultrasonic waves. It discusses how the system works, including transmitting ultrasonic waves, receiving echo signals to calculate distances, and using Arduino and Processing to control the ultrasonic sensor and display real-time measurements. Potential applications mentioned include parking assistance, smart home object detection, and distance sensing for drones.
Rader is an object detection system. It uses Microwaves to determine the range, altitude, direction, or speed of objects. The radar can transmit radio waves or microwaves which bounce off any object in their path. So, we can easily determine any object in the radar range. Adruino is a single-board microcontroller to make electronics more discipline. The radar system has different performance specifications and also it comes in a verity of size.
An Arduino radar project is more than a visual project because of its circuit implementation. There are different hardware use to accomplish the Arduino Radar Sensor. Like as, Arduino UNO. HC-SRo4 Ultrasonic Sensor including a Servo Motor. The main appearance is the visual narration in the Processing Application.
It is very simple, the Ultrasonic Sensor collects the object information with the help of Arduino and passes it to Processing Application. In the processing application, there is a simple Graphics application implemented which mimic a radar screen.
Rader is an object detection system. It uses Microwaves to determine the range, altitude, direction, or speed of objects. The radar can transmit radio waves or microwaves which bounce off any object in their path. So, we can easily determine any object in the radar range. Adruino is a single-board microcontroller to make electronics more discipline. The radar system has different performance specifications and also it comes in a verity of size.
An Arduino radar project is more than a visual project because of its circuit implementation. There are different hardware use to accomplish the Arduino Radar Sensor. Like as, Arduino UNO. HC-SRo4 Ultrasonic Sensor including a Servo Motor. The main appearance is the visual narration in the Processing Application.
It is very simple, the Ultrasonic Sensor collects the object information with the help of Arduino and passes it to Processing Application. In the processing application, there is a simple Graphics application implemented which mimic a radar screen.
Actual radar systems are built with high-power transmitters and receivers, huge antennae, complex processing systems using digital signal processors and large displays.
The system can monitor an area of limited range and alerts authorities with a buzzer as an alarm. For this purpose we use a microcontroller circuit that is connected to an ultrasonic sensor mounted on a servo motor for monitoring.
This microcontroller based ultrasonic radar circuit demonstrates the working of a radar system. It uses ultrasonic waves to detect an object and measure its distance and displays the same on a 16*2 LCD screen.
Introduction to the Basic Principles of Positioning Technology lansitec
Nowadays, one parameter is missing from many scenarios, car rental, assets in warehouses, packages and containers in logistics, hospital personnel, and people who are injured but cannot be reached in an accident.
This parameter connects and automates many processes that fell apart before, improves efficiency and safety, and lowers the cost of the total flow, which in turn improves the competitiveness of the organization, customer satisfaction, and the comfort of employees. It can be widely used in industry, agriculture, logistics, consumer electronics, and aerospace.
For More:
https://www.lansitec.com/whitepapers/lansitec-whitepaper-introduction-to-the-basic-principles-of-positioning-technology/
Safeguarding the Skies: How to Detect Drones in the Air?NovoQuad
Here we will explore the fascinating field of drone detection, investigating the technologies utilized and providing guidance on choosing the best system from a variety of options.
The autonomous Test Bench is the growing field of
testing device. The Rapid production firms require rapid testing
infrastructure. Many firms till now use legacy system. The
Autonomous Test Bench is a Rapid Application Development tool
to accelerate the device testing rapid. To implementation ATB
(Autonomous Test Bench) the major requirement is to measure
the target object distance from robotic arm to trigger the device
(like push button, gripping something etc.) Not only Robotic
system, many fields of industry are required to capture ultrasonic
scan data. Sometimes it should be wireless system which may be
positioned anywhere. This paper describes a novel way to capture
surrounded ultrasonic scan data. The device is portable and
wireless and as well as cost effective. To measure object distance,
ultrasonic peripatetic scanner uses two servo motors to scan the
object horizontally and vertically. The main controller is a credit
card sized computer Raspberry pi with high processing capability
and portability. The programs are written using Python which is
an interpreted language.
Security System Based on Ultrasonic Sensor TechnologyIOSR Journals
Abstract : In this paper we design and implement a security system with an ultrasonic sensor module to enhance the system’s reliability. The ultrasonic sensor contains a transmitter and a receiver and the module is placed in a rotating motor. It is assumed that an ultrasonic sensor is set in a rotating motor to cover a wide range. The Ultrasonic transmitter periodically emits ultrasonic signals into an open area. A rotating motor is used to allow the sensor to cover whole 360 degrees. If the signal ever hits any physical objects, it will be reflected back and the receiver part of the sensor will then capture it. The microcontroller unit (MCU) will constantly check for the receiver output of the ultrasonic transmitter. If the receiver output is high, the MCU will perform distance analysis of the object from the sensor using the fact that ultrasonic waves travel in air at 340m/s. The time taken for the waves to hit the object and return can be calculated as the time taken for the receiver output to be high after the transmitter has been initiated to send ultrasonic waves. Once the distance is calculated, MCU checks whether the object is within the range threshold specified within the MCU for initiating the alert. If the object is within the range threshold, the MCU initiates a sound alarm and also the global system for mobile communications (GSM) modem to send short message service (SMS) or call to the concerned person. Keywords: GSM Module,Microcontroller unit(MCU),Motor controller driver unit,Ultrasonic sensor(obstacles detection).
Actual radar systems are built with high-power transmitters and receivers, huge antennae, complex processing systems using digital signal processors and large displays.
The system can monitor an area of limited range and alerts authorities with a buzzer as an alarm. For this purpose we use a microcontroller circuit that is connected to an ultrasonic sensor mounted on a servo motor for monitoring.
This microcontroller based ultrasonic radar circuit demonstrates the working of a radar system. It uses ultrasonic waves to detect an object and measure its distance and displays the same on a 16*2 LCD screen.
Introduction to the Basic Principles of Positioning Technology lansitec
Nowadays, one parameter is missing from many scenarios, car rental, assets in warehouses, packages and containers in logistics, hospital personnel, and people who are injured but cannot be reached in an accident.
This parameter connects and automates many processes that fell apart before, improves efficiency and safety, and lowers the cost of the total flow, which in turn improves the competitiveness of the organization, customer satisfaction, and the comfort of employees. It can be widely used in industry, agriculture, logistics, consumer electronics, and aerospace.
For More:
https://www.lansitec.com/whitepapers/lansitec-whitepaper-introduction-to-the-basic-principles-of-positioning-technology/
Safeguarding the Skies: How to Detect Drones in the Air?NovoQuad
Here we will explore the fascinating field of drone detection, investigating the technologies utilized and providing guidance on choosing the best system from a variety of options.
The autonomous Test Bench is the growing field of
testing device. The Rapid production firms require rapid testing
infrastructure. Many firms till now use legacy system. The
Autonomous Test Bench is a Rapid Application Development tool
to accelerate the device testing rapid. To implementation ATB
(Autonomous Test Bench) the major requirement is to measure
the target object distance from robotic arm to trigger the device
(like push button, gripping something etc.) Not only Robotic
system, many fields of industry are required to capture ultrasonic
scan data. Sometimes it should be wireless system which may be
positioned anywhere. This paper describes a novel way to capture
surrounded ultrasonic scan data. The device is portable and
wireless and as well as cost effective. To measure object distance,
ultrasonic peripatetic scanner uses two servo motors to scan the
object horizontally and vertically. The main controller is a credit
card sized computer Raspberry pi with high processing capability
and portability. The programs are written using Python which is
an interpreted language.
Security System Based on Ultrasonic Sensor TechnologyIOSR Journals
Abstract : In this paper we design and implement a security system with an ultrasonic sensor module to enhance the system’s reliability. The ultrasonic sensor contains a transmitter and a receiver and the module is placed in a rotating motor. It is assumed that an ultrasonic sensor is set in a rotating motor to cover a wide range. The Ultrasonic transmitter periodically emits ultrasonic signals into an open area. A rotating motor is used to allow the sensor to cover whole 360 degrees. If the signal ever hits any physical objects, it will be reflected back and the receiver part of the sensor will then capture it. The microcontroller unit (MCU) will constantly check for the receiver output of the ultrasonic transmitter. If the receiver output is high, the MCU will perform distance analysis of the object from the sensor using the fact that ultrasonic waves travel in air at 340m/s. The time taken for the waves to hit the object and return can be calculated as the time taken for the receiver output to be high after the transmitter has been initiated to send ultrasonic waves. Once the distance is calculated, MCU checks whether the object is within the range threshold specified within the MCU for initiating the alert. If the object is within the range threshold, the MCU initiates a sound alarm and also the global system for mobile communications (GSM) modem to send short message service (SMS) or call to the concerned person. Keywords: GSM Module,Microcontroller unit(MCU),Motor controller driver unit,Ultrasonic sensor(obstacles detection).
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Ultrasonic-Radar-System-using-Arduino.pptx
1. Ultrasonic Radar
System using Arduino
An ultrasonic radar system is a technology that uses
ultrasonic waves to detect and locate objects. Radar is an
object detection system which uses radio waves to determine
the range, altitude, direction, or speed of objects.
Submitted By:
Anshul Tyagi (21102086)
Chaitanya Tripathi (21102021)
Under the supervision of:
Dr. Vishal Saxena
Jaypee Institute of Information Technology,
Noida
2. Introduction
• An ultrasonic radar system is a powerful tool that utilizes ultrasonic
waves for object detection and distance measurement.
• RADAR is an object detection system which uses radio waves to
determine the range, altitude, direction, or speed of objects.
• Radar systems come in a variety of sizes and have different
performance specifications.
• Some radar systems are used for air-traffic control at airports and
others are used for long range surveillance and early-warning
systems.
• A radar system is the heart of a missile guidance system.
3. Objectives of Ultrasonic
Radar System
The main objective of an ultrasonic radar system is to accurately
detect and locate objects in various environmental conditions, such
as darkness or fog.
Additionally, the system can be used for security, surveillance, and
automation purposes.
By using ultrasonic waves, the system can provide reliable and
precise data for a wide range of applications.
4. Components of an Ultrasonic Radar
System
Ultrasonic Sensor
The ultrasonic sensor
is the heart of the
radar system,
emitting and receiving
ultrasonic waves to
detect objects and
measure distances.
Arduino
Arduino acts as the
brain of the system,
controlling the sensor
and processing the
incoming data to
make accurate
measurements and
generate outputs.
Processing
Processing is a
programming language
and development
environment used to
create the radar
interface, displaying
real-time measurements
and providing an
intuitive user
experience.
5. Working Principle of Ultrasonic
Radar System
1 Transmitting ultrasonic
waves
The ultrasonic sensor emits
high-frequency sound waves
and measures the time taken
for the waves to bounce back
after hitting an object.
2
Receiving echo signals
The sensor detects the reflected
sound waves, known as echo
signals, and calculates the
distance to the object based on
the time difference between
transmission and reception.
6. Building the Ultrasonic Radar System
Connecting the
ultrasonic sensor to
Arduino
Establish the necessary
connections between the
ultrasonic sensor and
Arduino using jumper wires
to enable communication
and power supply.
Writing the Arduino
code
Develop the Arduino code to
control the ultrasonic sensor,
process the echo signals,
and provide real-time data
for further processing.
Displaying the radar
interface using
Processing Software
Utilize Processing to create a
visually appealing radar
interface that showcases the
detected objects, distances,
and provides a user-friendly
experience.
7. Testing and Troubleshooting
Testing the system with
different obstacles
Verify the functionality of the ultrasonic
radar system by testing it with various
obstacles, including different sizes,
shapes, and distances.
Troubleshooting common issues
Identify and address common issues that
may arise during the building and testing
process, ensuring optimal performance
of the radar system.
8. Applications of Ultrasonic
Radar System in Daily Life
1 Parking Assistance
The ultrasonic radar system can be used for parking assistance in
cars, helping drivers park with precision and avoid collisions.
2 Object Detection in Smart Homes
The ultrasonic radar system enables object detection in smart
homes, allowing smart devices to detect human presence and
adjust settings accordingly.
3 Distance Sensor for Drones
The ultrasonic radar system serves as a distance sensor for drones,
helping them maintain a safe distance from obstacles during flight.
10. Conclusion
1 Radar System
The project presents a low cost and low power system for the security of
an unauthorized area by the help of radar system. The future modification
may include addition of cameras, smart phones, etc.
2 Potential applications of ultrasonic radar systems
It can be used in wide range of applications where ultrasonic radar
systems can be implemented, including robotics, security systems, and
autonomous vehicles.
11. References
• Research paper: "Advancements in Ultrasonic Radar Systems for Automotive
Safety" - John A. Smith et al.
• Industry report: "The Future of Ultrasonic Radar Technology in Smart Homes" - Tech Insights
• Journal article: "Enhancing Drone Safety with Ultrasonic Radar Systems" - Dr. Emily Johnson