{"data":{"projects":{"edges":[{"node":{"frontmatter":{"title":"An Implementation of H.264 Video Codec","tech":["Verilog","Verilator","SystemC","QEMU","PCIe"],"github":"https://github.com/Karthikeyan564/h264_bachelor_thesis","external":null},"html":"<p>A H.264 Accelerator implemented using Verilog. Used SystemC to design a HW/SW co-simulation environment to simulate PCIe(transport layer). Competes with state of the art accelerators.</p>"}},{"node":{"frontmatter":{"title":"Tyche: RL traffic control","tech":["Q-learning","PPO","Python","Node.js"],"github":"https://github.com/Karthikeyan564/Tyche","external":"https://drive.google.com/file/d/1IIOtLmN4TgX0ic5Iyp81DvYFqforiPuw/view?usp=sharing"},"html":"<p>Created a Traffic control Reinforcement learning agent with Q-learning and PPO. Used city of london traffic data and street map data in <a href=\"https://www.eclipse.org/sumo/\" target=\"_blank\" rel=\"nofollow noopener noreferrer\">SUMO</a> and <a href=\"https://cityflow-project.github.io/\" target=\"_blank\" rel=\"nofollow noopener noreferrer\">CityFlow</a> to simulate real-world usage.</p>"}},{"node":{"frontmatter":{"title":"Koch Fractal Based Wearable Antenna Backed with EBG Plane","tech":["CST"],"github":"https://github.com/Karthikeyan564/Koch_Fractal_Antenna","external":null},"html":"<p>A low-profile Koch modified  monopole antenna backed  with  EBG  plane has  been  designed  in  this  work  for   wearable applications of MBAN band (3.5 GHz) standards.  The  designed  EBG-antenna  is  composed  of  a  triangular-shaped   microstrip antenna as a radiator and a 2 x 2 square-shaped EBG  plane as a reflector.</p>"}}]}}}