Our innovative, force-controlled robotic arms are transforming research by offering precision, safety, and adaptability. These collaborative robots are designed to work seamlessly alongside humans, enhancing productivity and safety.   What Sets Roboligent Apart? At Roboligent, we pride ourselves on creating robotic solutions that cater to the unique needs of various industries. Here’s why we believe our state-of-the-art technology has the potential to transform industries: Precision and Safety Our…

Some have called the rise of artificial intelligence the catalyst for the next wave of the Industrial Revolution. The intersection of robotics and AI sets the stage for massive strides in innovation to take place. Let’s highlight a few of the potential applications of AI integration into robotics across the healthcare, space, and manufacturing assembly spaces.    Robots that possess AI capabilities have the ability to perform dangerous,…

Conventional Robots vs. Force-Control Robots Robots are becoming increasingly common in our everyday lives. They are used in manufacturing, healthcare, and research, to name a few. However, there are two main types of robots: conventional robots and force-control robots. Conventional Robots Conventional robots are designed to repeat positions rigidly and blindly. They have no sensors to detect or measure forces, so they cannot tolerate variation and must be…

Robotic automation is revolutionizing various industries, presenting new opportunities and concerns. While fears persist that robots and AI will replace human jobs, historical evidence suggests otherwise. Despite initial apprehensions about personal computers and industrial robots, the overall number of job positions has continued to increase. Factors such as economic growth, the emergence of new industries, and enhanced productivity have contributed to the expansion of employment opportunities. In fact,…

Robot-assisted Physical Therapy: The Benefits of Assist-as-Needed Protocol Robot-assisted physical therapy has gained popularity in recent years as a means to aid stroke patients and other populations in faster and more successful recoveries. Traditional physical therapy methods, as well as some robotic methods, may involve repetitive exercises and passive riding, such as the use of passive range of motion exercises for patients with paralysis. While these methods are…

The majority of current robots utilize position/velocity control technology, which limits patients’ voluntary movement efforts due to the nature of being restricted to repetitive, pre-determined kinematic patterns. Force control robots are designed to interact with humans in a safe and controlled manner. They use sophisticated sensors and control algorithms to adjust their force output based on the force feedback they receive from the environment. This allows them to…