The present invention relates to a technology to make a smart cane for visually impaired people. For blind individuals, everyday acts that we do subconsciously are a mile to walk, thus we intend to make their lives easier by providing technology that can assist them in navigating highways.

Tactile feedback that helps visually impaired people navigate and avoid collisions with obstacles is provided by a system, method, and computer program product (objects). Pressure-based tactile response devices and remote-control devices are part of the system, Tactile response device includes a pressure pad with multiple pressure modules that provide a haptic response for visually impaired people. To avoid collisions with obstacles, the pressure- based tactile response device uses a feedback mechanism to provide navigational assistance. In order to locate the pressure-based tactile response device when it is not in the user's possession, the remote-control device includes a number of sensors.
The invention discloses a kind of the image object rapid detection method based on deep learning, step are as follows: 1, first-order Tiny YOLO target detection model and second level Tiny YOLO target detection model of the foundation based on deep learning;2, the test image for containing target to first-order Tiny YOLO target detection mode input exports result judgement according to network and detects whether success :If detecting successfully, judge whether target is Small object according to the relationship of detection zone and image resolution ratio;If not Small object then output test result It is then carried out if Small object in next step;If detection failure, piecemeal processing is carried out to the picture of input, then treated that image carries out the detection of first-order Tiny YOLO network to piecemeal; 3, interception is amplified to the detection zone of first-order Tiny YOLO network detection output, is then input to second level Tiny YOLO network, carries out detection processing, obtain output result. The present invention processing time is shorter, and identification certainty is high.
SUMMARY OF THE INVENTION
This invention focused on blind people those are basically similar to everyone except they cannot see. This problem faced by visually impaired people everyday day to day life. So, we can improve their life and routine work. As a result, a device is required to assist them in walking and in another daily routine purpose also. So, this device is designed to aid the visually handicapped for their daily routine work encounter simply by existing in society and being the odd ones out. Object recognition, depth perception, text and voice processing, distance prediction, and pulse feedback alignment will all be combined to help people navigate the streets, walk in the park, and do a range of other everyday activities. The primary benefit of this technology is that it allows blind people to go about their daily lives independently, without the assistance of others, and to enjoy their lives.
Present invention discloses an Object Detection and Pulse Feedback System (100) comprises Proximity sensor (101), Camera (102), Mobile System for Communication (103), Bluetooth Audio System (104), Object Recognition System (105), Text to Speech System (106), and Text to Speech System (107); wherein on object detection and pulse feedback system navigation to assist visually impaired people.
The system is based on a sensor that is integrated into the walking cane and emits a signal at a specified angle for a specific distance.
The sent signal is reflected by an obstruction, which the receiver picks up; and this activates the camera on the front of the cane, which records the image of the barrier.
The image is sent to an object detection system that uses image recognition to identify the object. Following the object's identification, the information is converted to text and transferred through a text-to-speech recognition system, which turns the text into audio, which is then played to the end-user through the headset.
The end-user receives audio feedback that makes it easier for them to navigate; and the end-user receives haptic input in the form of vibrations from the haptic motor in the cane.
The image is processed on the mobile device of the end-user; and Bluetooth or Wi-Fi is used to communicate between the mobile device and the hardware in the cane.
The mobile device serves as a conduit between the hardware and the end-user; which also allows user to integrate a variety of other functionality, such as accepting and rejecting calls directly from the cane, as well as receiving messages in audio message form and notifications.
Objective of the Invention
This device is designed to aid blind people in their daily tasks. Object recognition, depth perception, text and voice processing, distance prediction, and pulse feedback alignment will all be combined to help people navigate the streets, walk in the park, and do a range of other everyday activities. The primary benefit of this technology is that it allows blind people to go about their daily lives independently, without the assistance of others, and to enjoy their lives.
For blind individuals, everyday acts that we do subconsciously are a mile to walk, thus we intend to make their lives easier by providing technology that can assist them in navigating highways.
BRIEF DESCRIPTION OF THE DRAWINGS
Figure 1. Different modules of the Invention
Figure 2. Working System
Figure 3. Flow Diagram of the proposed system
DETAILED DESCRIPTION OF THE INVENTION
This invention is based on a sensor that is integrated into the walking cane and emits a signal at a specified angle for a specific distance. The sent signal is reflected by an obstruction, which the receiver picks up. This activates the camera on the front of the cane, which records the image of the barrier. The image is sent to an object detection system that uses image recognition to identify the object. Following the object's identification, the information is converted to text and transferred through a text-to-speech recognition system, which turns the text into audio, which is then played to the end-user through the headset. The end-user receives audio feedback that makes it easier for them to navigate. The end-user receives haptic input in the form of vibrations from the haptic motor in the cane. The image is processed on the mobile device of the end-user. Bluetooth or Wi-Fi is used to communicate between the mobile device and the hardware in the cane. The mobile device serves as a conduit between the hardware and the end-user. This also allows us to integrate a variety of other functionality, such as accepting and rejecting calls directly from the cane, as well as receiving messages in audio message form and notifications. Figure 1 shows the different modules of the invention. These modules combine together and form the main system. Figures 2 and 3 show the working and flow diagram of the invention. This walking cane design aims to improve visually impaired people's daily navigational quality of life.

Best Method of Working:
Present invention discloses an Object Detection and Pulse Feedback System (100) comprises Proximity sensor (101), Camera (102), Mobile System for Communication (103), Bluetooth Audio System (104), Object Recognition System (105), Text to Speech System (106), and Text to Speech System (107); wherein on object detection and pulse feedback system navigation to assist visually impaired people.
The system is based on a sensor that is integrated into the walking cane and emits a signal at a specified angle for a specific distance.
The sent signal is reflected by an obstruction, which the receiver picks up; and this activates the camera on the front of the cane, which records the image of the barrier.
The image is sent to an object detection system that uses image recognition to identify the object. Following the object's identification, the information is converted to text and transferred through a text-to-speech recognition system, which turns the text into audio, which is then played to the end-user through the headset.
The end-user receives audio feedback that makes it easier for them to navigate; and the end-user receives haptic input in the form of vibrations from the haptic motor in the cane.
The image is processed on the mobile device of the end-user; and Bluetooth or Wi-Fi is used to communicate between the mobile device and the hardware in the cane.
The mobile device serves as a conduit between the hardware and the end-user; which also allows user to integrate a variety of other functionality, such as accepting and rejecting calls directly from the cane, as well as receiving messages in audio message form and notifications.

Advantages of the Invention:
1. To improve the quality of life for persons who are blind.
2. It aids in navigating through roadways and avoiding obstacles.
3. It aids in notifying the direction of object in form of vibrations with pulse feedback system by using haptic motor.
4. It aids in detecting and warning of unexpected changes in frame and alerting the end-user.

We Claim:

1. An Object Detection and Pulse Feedback System (100) comprises Proximity sensor (101), Camera (102), Mobile System for Communication (103), Bluetooth Audio System (104), Object Recognition System (105), Text to Speech System (106), and Text to Speech System (107).
2. The system as claimed in claim 1, wherein on object detection and pulse feedback system navigation to assist visually impaired people.
3. The system as claimed in claim 1, wherein said system is based on a sensor that is integrated into the walking cane and emits a signal at a specified angle for a specific distance.
4. The system as claimed in claim 1, wherein said sent signal is reflected by an obstruction, which the receiver picks up; and this activates the camera on the front of the cane, which records the image of the barrier.
5. The system as claimed in claim 1, wherein the image is sent to an object detection system that uses image recognition to identify the object; following the object's identification, the information is converted to text and transferred through a text-to-speech recognition system, which turns the text into audio, which is then played to the end-user through the headset.
6. The system as claimed in claim 1, wherein said system the end-user receives audio feedback that makes it easier for them to navigate; and the end-user receives haptic input in the form of vibrations from the haptic motor in the cane.
7. The system as claimed in claim 1, wherein said image is processed on the mobile device of the end-user; and Bluetooth or Wi-Fi is used to communicate between the mobile device and the hardware in the cane.
8. The system as claimed in claim 1, wherein the mobile device serves as a conduit between the hardware and the end-user; which also allows user to integrate a variety of other functionality, such as accepting and rejecting calls directly from the cane, as well as receiving messages in audio message form and notifications.