Developing cost-effective, energy-efficient Lidar using Solid-State and Flash technologies
Our research team is developing next-generation Lidar technology specifically designed for African conditions and robotic applications. This research focuses on creating cost-effective, energy-efficient sensors that provide high-precision environmental mapping.
By combining Solid-State and Flash Lidar technologies, we're working to eliminate the traditional barriers of cost and complexity that have limited widespread adoption of advanced vision systems in African robotics.
Developing solid-state Lidar systems with no moving parts, ensuring higher reliability and lower maintenance requirements for harsh African environments.
Implementing flash Lidar technology for instantaneous 3D mapping, enabling real-time environmental understanding for humanoid robots.
Reducing manufacturing costs through innovative design approaches and local production capabilities in Africa.
Minimizing power consumption for extended operation in areas with limited power infrastructure.
Our comprehensive research paper on compact Lidar sensor technology is currently in the final stages of preparation and peer review.
The paper will be published and made available to the public in the coming months, contributing to the global advancement of robotics technology.
Stay updated on our research publications and technological breakthroughs.
This research will directly contribute to making advanced robotic vision systems accessible across Africa, enabling local manufacturing of sophisticated sensors and reducing dependency on imported technology.
The resulting technology will power the next generation of Gernoid humanoid robots, providing them with precise environmental understanding necessary for complex tasks in manufacturing, logistics, and service applications.