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Wireless Lidar Proximity Link: Arduino Nano Bluetooth Range Sensor
Abstract: This innovation presents a portable and effective LiDAR Range Finder system by merging important components such as the Arduino Nano (101), the LiDAR TF Luna (102), the 470uF/25V capacitor (103), the 9V battery (104), and the HM-10 Bluetooth Module (101). The Arduino Nano is responsible for the processing of the accurate distance data that is collected by the LiDAR sensor. The reliability of the power supply is ensured by the incorporation of a 470 uF/25 V capacitor in addition to a 9 V battery. Integrating the HM-10 Bluetooth Module is a crucial step since it paves the way for trouble-free connectivity with mobile devices. This feature not only improves the system's accessibility for users but also broadens the range of possible uses for the system. The ability to effortlessly transmit real-time distance measurements to and show them on mobile devices, such as smartphones or tablets, provides a solution that is adaptable to a variety of distance measuring scenarios and is friendly to users. This invention, in its most basic form, makes use of the possibilities of LiDAR technology in conjunction with the Arduino Nano and Bluetooth connectivity in order to provide a tool that is portable and customizable, making it suitable for use by both hobbyists and professionals. The system offers a dependable and easily accessible method of getting and utilizing accurate distance data, making it suitable for applications in robotics, environmental monitoring, as well as educational initiatives.
Notices, Deadlines & Correspondence
Patent Information
Applicants
INSTITUTE OF ENGINEERING & MANAGEMENT
Inventors
1. Sujay Kumar Dolai
Specification
Description:The Arduino Nano (101) receives distance data from the LiDAR TF Luna (102) in a communication channel. The 470uF/25V capacitor (103) works to stabilize the power supply while the 9V battery (104) is responsible for providing the necessary power. The data pertaining to the distance is processed and formatted for transmission by the Arduino Nano (101). Users are granted access to distance measures in real time when they utilize the HM-10 Bluetooth Module (101) since it creates a wireless connection with mobile devices. , Claims:We Claim:
1. An Arduino Nano microcontroller, a LIDAR sensor, and an HM10 Bluetooth module are included in the LIDAR-based distance measuring system that also includes an HM10 Bluetooth module for wireless communication.
2. The system described in claim 1, in which an Arduino Nano is used to process distance data collected by a LIDAR sensor.
3. The system described in claim 1, in which the Arduino Nano and a mobile device are able to communicate with one another thanks to the HM10 Bluetooth module.
4. Using the system described in claim 1, a method is described for wirelessly communicating LIDAR-based distance measurements to a mobile device.
5. The technique described in claim 4, wherein the Arduino Nano is responsible for processing and formatting the distance data prior to transmission.
6. A method according to claim 4, in which the HM10 Bluetooth module is responsible for establishing a communication link with the mobile device.
Documents
Application Documents
| # | Name | Date |
|---|---|---|
| 1 | 202431013028-REQUEST FOR EXAMINATION (FORM-18) [23-02-2024(online)].pdf | 2024-02-23 |
| 2 | 202431013028-FORM 18 [23-02-2024(online)].pdf | 2024-02-23 |
| 3 | 202431013028-FORM 1 [23-02-2024(online)].pdf | 2024-02-23 |
| 4 | 202431013028-DRAWINGS [23-02-2024(online)].pdf | 2024-02-23 |
| 5 | 202431013028-COMPLETE SPECIFICATION [23-02-2024(online)].pdf | 2024-02-23 |
| 6 | 202431013028-FORM-5 [17-10-2025(online)].pdf | 2025-10-17 |