Chapter 1
The story of automation is like a series of waves, each transforming how work gets done. The first wave was mechanization, when machines took over animal and human muscle power. Think of early 20th-century farms where tractors gradually replaced horses – a revolutionary leap in productivity.
Next came industrial automation, epitomized by robotic arms on factory floors. Starting in the 1960s, these industrial robots could tirelessly weld, paint, and assemble, ushering in an era of mass production efficiency.
Today, we are entering a third wave: robots that are mobile, agile, and even humanoid. These new robots aren't confined to factory cages; they roam our world on wheels or legs, and some even resemble the human form.
It might sound futuristic, but it's a natural continuation of what came before. Each wave builds on the last – from engines replacing horses, to robots speeding up factories, to now intelligent machines moving into everyday life. The trajectory is clear: as technology advances, robots become more capable and present in more parts of society.
Importantly, this next wave doesn't appear out of thin air – it stands on the shoulders of past innovations. Mechanization was part of a long evolution that leads straight to today's robotics. In agriculture, for example, we went from manual labor, to animal power, to motorized equipment, and now toward digital and autonomous machines.
Each step raised productivity and changed how people live and work. Mechanization of farms was so impactful that it helped drive urbanization by freeing workers from the land. Industrial automation then took productivity to new heights: since the first robot arm was installed in a factory in 1961, millions of robots have been deployed worldwide to do the "dull, dirty, and dangerous" jobs with precision.
In fact, by 2023 there were over 4 million operational industrial robots globally, with more than half a million new units installed in that single year.
Urbanization
Freed workers from manual labor
500K+ New
Robots installed in one year
Mainstream
Robots entering everyday life
These earlier waves proved that machines can shoulder heavy work and repetitive tasks, allowing humans to focus on higher-level jobs. Now, as we stand on the cusp of robotics leaving the factory and entering the real world, it feels like a familiar pattern—another wave building.
Continue scrolling to explore the three waves of automation
We're seeing the rise of autonomous vehicles, drones, wheeled robots rolling through hospital corridors, four-legged robots trotting over rough terrain, and humanoid robots that can walk and even climb stairs. The clunky science-fiction prototypes of past decades are giving way to practical robots ready for real jobs.
Factory robots used to be bolted to the floor, but now mobile robots and human-like machines are starting to carry out more of the "grunt work" in dynamic environments. You might have seen videos of bipedal robots balancing or warehouse robots zipping around—these are early signs of what's coming.
The key advancement is that modern robots are increasingly autonomous and adaptable. They can sense their surroundings, make decisions with AI, and safely work near people. This wave is about robots leaving controlled settings and entering our everyday world: from streets and farms to offices and schools.
It's both exciting and a bit surreal – essentially, robots are becoming mainstream.
In this unfolding story, BotBot is a central player enabling the next generation of robots. BotBot's approach is to make advanced robotics practical in the real world.
How? By providing a powerful platform (the BotBrain system) built on ROS2, the open-source Robot Operating System. This platform acts as the "brain" and "nervous system" for robots, equipping them with robust autonomy, sensor integration, and AI smarts.
ROS2 is like a common language that lets robots and software modules talk to each other, and BotBot's BotBrain uses it to integrate with all kinds of machines. In fact, BotBot can plug its BotBrain module and software stack into any ROS2-compatible robot – whether it's a wheeled warehouse rover, a four-legged walking robot, or even a humanoid prototype – and instantly give that robot advanced capabilities.
By embracing open robotics standards, BotBot ensures that different robots can share tools and learnings, accelerating innovation.
Ready to discover how mechanization began?
Click "Next" to continue to Chapter 2: From Horses to Tractors.