About Us

Formely CSECO (Circuits and Systems Engineering COmpany), Brian Mechanisms is a cutting-edge robotics company based in Kenya. We are dedicated to developing affordable and innovative robotic solutions for various industries, including agriculture, manufacturing, and construction. With our strong focus on research and development, we strive to deliver high-quality products that revolutionize the way these industries operate.

Our Vision

At Brian Mechanisms, we envision a future where technology-driven solutions improve efficiency, productivity, and sustainability across key sectors. By harnessing the power of robotics, we aim to transform traditional processes, making them more cost-effective, environmentally friendly, and accessible to businesses of all sizes.

Our Expertise

Our team of skilled engineers, designers, and robotics experts are at the forefront of technological advancements. With extensive industry experience, we possess the knowledge and expertise to develop state-of-the-art robotic systems tailored to the specific needs of agriculture, manufacturing, and construction sectors. We constantly push the boundaries of innovation to deliver reliable and efficient solutions.

Research and Development

Continuous research and development lie at the heart of Brian Mechanisms. We invest significant resources in exploring emerging technologies, conducting experiments, and refining our robotic systems. By staying at the forefront of innovation, we ensure that our products incorporate the latest advancements in robotics and automation.

Affordable Robotics

One of our core principles at Brian Mechanisms is to provide affordable robotics without compromising on quality. We understand the challenges faced by businesses in adopting robotic technology due to high costs. Hence, we strive to develop cost-effective solutions that enable companies, regardless of their size or budget, to leverage the benefits of automation and robotics.


In the agricultural sector, we have developed a range of robotic systems that enhance farming practices. Our robots are designed to automate repetitive tasks such as planting, harvesting, and monitoring crop health. By incorporating advanced sensors and intelligent algorithms, our agricultural robots optimize resource usage, reduce labor costs, and improve overall crop yields.


Efficiency and precision are key factors in the manufacturing industry. At Brian Mechanisms, we offer innovative robotic solutions that streamline production processes, increase output, and ensure consistent quality. Our robots can perform tasks such as assembly, packaging, material handling, and quality control, significantly reducing manual labor and minimizing errors. Further, our robots are capable of eliminating human manual workers thus enabling remote factories to be established.


The construction industry faces numerous challenges, including labor shortages and safety concerns. To address these issues, we have developed robotic systems that enhance construction workflows. Our robots can perform tasks such as bricklaying, concrete pouring, demolition, and site surveying. By deploying our robots, construction companies can increase productivity, improve safety, and reduce project timelines.

Collaboration and Partnerships

We believe in the power of collaboration to drive progress. Brian Mechanisms actively seeks partnerships with like-minded organizations, research institutions, and industry experts. By working together, we can combine our strengths, share knowledge, and develop groundbreaking solutions that address complex challenges in agriculture, manufacturing, and construction.

Contact Us

If you are looking to revolutionize your business operations with affordable and reliable robotics solutions, get in touch with Brian Mechanisms today. Our team will be delighted to discuss your specific requirements and provide tailored recommendations. Let us embark on this technological journey together.

Transforming industries through affordable robotics - Brian Mechanisms, your trusted partner for the future.