UDAY KUMAR SUREPALLY's Projects
link for the IEEE Paper http://www.ijera.com/pages/v6no4%28v3%29.html
This is the code for the project, All In One Home Automation project with Fan dimmer that works with ESP Rainmaker, Alexa, Google Assistant and Manual switches.
ESP8266 core for Arduino
:octocat: A curated awesome list of lists of interview questions. Feel free to contribute! :mortar_board:
Blynk library for embedded hardware. Works with Arduino, ESP8266, Raspberry Pi, Intel Edison/Galileo, LinkIt ONE, Particle Core/Photon, Energia, ARM mbed, etc.
The search vehicle that is equipped with a wireless video monitoring system can be controlled through any mobile phone based on the concept of video analyzing. Generally Infrared or RF-based remote-controlled technology is used for controlling the Robots, but hear the mobile phone is used for controlling the vehicle, that moves in all directions depending upon the commands received through another mobile phone. The wireless video camera, which is arranged over the vehicle, and which is designed to rotate for capturing the live video of the surrounding area is also controlled through the same mobile. The receiving part of the project work, from where the vehicle is controlled through cell phone is equipped with a small TV set along with its video receiver. This technology dominates the other remote controlled systems because of the unlimited range. To prove the concept practically, one mobile phone is supposed to be attached to the robot and it is controlled by another mobile phone. After establishing a communication link between two mobiles, the caller mobile keypad numbers can be activated to generate different tone frequencies, and at receiving side with the help of DTMF (Dual Tone Multi Frequency) decoder chip, different binary codes are produced corresponding to the button pressed at transmitting side. The output of this DTMF decoder is fed to the microcontroller and depending upon the binary code produced by DTMF chip, the controller is programmed to control the motors independently. Three DC motors with reduction gear mechanism are used to drive the complete mechanical transmission section, depending upon the control signals, the vehicle moves in all directions and the camera is also controlled independently.
A complete computer science study plan to become a software engineer.
ROS implementation of shopping bot manager on Pepper. This is for an university project.
Deep Reinforcement Learning for mobile robot navigation in ROS Gazebo simulator. Using Twin Delayed Deep Deterministic Policy Gradient (TD3) neural network, a robot learns to navigate to a random goal point in a simulated environment while avoiding obstacles.
Application for Pepper to be deployed in a Restaurant as FOH
:books: Freely available programming books
:zap: Dynamically generated stats for your github readmes
From the Microsoft Applied Robotics Research team, this repository is an example system providing indoor navigation capabilities to a Pepper robot with a HoloLens device mounted to its head. Our team invites you to join us in research and engineering efforts that advance how robots can assist and augment the capabilities of human beings.
Projekt 2022/23 i D0020E, Projekt i datateknik, Lp2-3, H22
Human-Robot Interaction exam project - "Sapienza" University of Rome, Spring Semester 2020
Human Robot Interaction using SoftBank Pepper robot used as waiter for a generic restaurant.
Google Chrome, Firefox, and Thunderbird extension that lets you write email in Markdown and render it before sending.
Mastering ROS for Robotics Programming - Third edition, Published by Packt
The Multifunction robot that is equipped with a wireless video monitoring system can be controlled through android mobile phone based on the concept of UART and android apps. Generally, Infrared or RF-based remote-controlled technology is used for controlling the Robots, but hear the mobile phone is used for controlling the vehicle, that moves in all directions depending upon the commands received through another mobile phone. The wireless video camera, which is arranged over the vehicle, and which is designed to rotate for capturing the live video of the surrounding area is also controlled through the same mobile and we can the video in the same mobile. The receiving part of the project work, from where the vehicle is controlled through a cell phone. This technology dominates the other remote controlled systems because of the unlimited range. To prove the concept practically, one mobile phone/Bluetooth module is supposed to be attached to the robot and it is controlled by another mobile phone. After establishing a communication link between two systems(i.e., from mobile to Bluetooth module through the app), the user side mobile app and output of this Bluetooth module is fed to the microcontroller and depending upon the instructions produced by the user, the controller is programmed to control the motors independently. Three DC motors with reduction gear mechanism are used to drive the complete mechanical transmission section, depending upon the control signals, the vehicle moves in all directions and camera is also controlled independently and all the variations of the project is done partly according to the instructions given from the user.
c++ bridge based on libqi
ROS Navigation stack. Code for finding where the robot is and how it can get somewhere else.
Common used path planning algorithms with animations.