Jayakrishnan P U

As an intern at Trizlabz, I'm currently working on an exciting robotics project that involves developing a robot's supervisor code, designing its mechanical structure, and planning its path layer.
The supervisor code is a crucial part of the project since it's responsible for enabling the robot to sense its environment and respond accordingly while performing its designated tasks. As part of the project, I'm tasked with developing this code and ensuring that the robot can efficiently and effectively carry out its functions.

Another exciting aspect of the project is designing the mechanical structure of the robot. This involves selecting the most suitable materials, designing individual parts, and assembling them to create the final product. The mechanical design must be optimized for the robot's intended use and the environmental factors it will encounter.

Lastly, I'm also involved in planning the path layer of the robot, which requires mapping out the environment, determining its exact location, and calculating the most optimal path for it to follow to complete its objectives.

Working alongside my colleagues at Trizlabz, I have the opportunity to develop my technical skills, think creatively, and contribute to the field of robotics. This project is both exciting and challenging, and I'm excited to learn and grow as an intern while making valuable contributions to the team.

As a Design Lead, I'm in charge of a team that will create various designs and posters for events and social media.

As a Media Lead in the Tinkerhub TIST Campus Community, I manage multiple teams such as the Design Team, Outreach Team, and Social Media Team.

The major purpose of the Digital Skills Facilitator (DSF) Programme was to develop a basic training for several stacks in native language (videos) that would be open to everyone. I was asked to curate a course on FIGMA as part of the DSF programme, and I created a rudimentary course structure based on the videos in order to make my deadline. The DSF programme is nearing completion, with all of the videos from various stacks being prepared for upload to an online platform.

During my time there, I led a two-person team that produced numerous posters and social media designs e Tinkerhub TIST Campus Community..

The main goal of this project is to employ a robot to deliver files from one workstation to another in a normal office setting. In an office environment, this reduces human engagement and time consumption. The robot is controlled by an Arduino Mega2560 with an embedded ESP8266 wi-fi module, it also includes RFID technology, an IR sensor array, and an ultrasonic sensor. The RFID reader is attached to the robot and reads the RFID passive tag that is put along a predetermined path. The RFID application enables the robot to recognise the correct cabin for delivery, and the robot then moves to that cabin depending on the tag.The design also includes obstacle detection and alerting. Wi-Fi is used to summon the robot into action. When the robot is not in use, it returns to its home station and waits for a call. This project is under development

A device that assists someone with a speech or language impediment in communicating is known as an Augmentative and Alternative Communication (AAC) device. It is intended to improve an individual's existing speaking ability rather than to replace or replace existing communication talents. The AAC gadget is already on the market, but because it was not made in India, it had to be imported, making it pricey. The goal of our project was to create a low-cost AAC gadget. Our team began working on this project as part of a competition sponsored by the National Institute of Speech and Hearing (NISH), for which we were selected to compete in the final round.