Delft Biorobotics Laboratory aims at developing safe, efficient and novel robotic systems with biology related applications and/or biologically inspired designs, such as robotic arms that can be used for rehabilitation and bipedal walking machines.
Being one of the three technological universities in the Netherlands, the TU Delft aims at introducing new robot technologies that can work together with humans beyond confined industrial environments.
TU Delft Robotics Institute is the leading center for robotics research in the Netherlands. Their aim is to introduce new and original robotics technologies that will enable humans and robots to work together in uncontrolled, unpredictable, real-life…
The Delft Arm and Hand Project aims at developing a three-fingered hand as well as a low-power and safe robotic arm. In addition the Delft Robotics Lab is working on a low-power robotic arm that will have four degrees of freedom.
Micro aerial vehicles (MAV) such as multicopters have become a popular research tool in recent years and are used in an increasing number of application domains, e.g., aerial
Being the cooperation between the three technological universities of the Netherlands; Delft, Eindhoven and Twente, 3TU aims at contributing to the wellbeing in the Netherlands by improving, bundling and maximizing the creativity and knowledge in the…
Deam specializes in handheld, steerable laparoscopic instruments. Deam has developed and patented steering technology for instruments with unlimited DOF and is involved in the PITON project.
TNO serves as the Dutch organization for applied science research. Science and Industry is a division of TNO, which is involved in Project Piton. The project is working on the development of a steerable robotic needle.
Within the Delfi program, DelFFi is the third satellite project. The project aims at utilizing innovative concepts, reliable methodologies and modern technologies to support the QB50 mission, which is a unique mission based on a global network of fifty…
The Delft bio-robotics laboratory began developing a bipedal walking robot in 1995. This Dutch Robotics projects has resulted in the development of 12 bipedal robots, with research that can be used to improve physical rehabilitation. The latest robot…
The Dutch Technical University of Delft, is working on developing a robotic arm that is a safer choice than traditional factory arms. It will mimic a human arm as closely as possible and have smart elements to optimize its performance.
The Socio Cognitive Robots project of the University of Delft studies the interactions between man and machine. The project studies everything from robotic hardware design to cognitive robot control.
Zesbenige robot or Zebro is a Dutch Robotics project introduced by the Technical University of Delft. The robot is designed for educational purposes and the research and development of new control methodologies for complicated robot platforms.
Developed at the Delft Biorobotics Lab, Baps is an affordable autonomous 3D Walking robot that is known for its simple, low-power design. Baps is based on the principle of ballistic walking, which involves walking with free, unpowered movements.
Developed at the Delft Biorobotics Lab, Bob is a 3D Walking robot that is equipped with actuated ankles and knees. The passive dynamic biped lacks controls and is known for its 3D dynamic simulation as well as stability analysis.
Launched in November 2013, Delfi-n3Xt is a small satellite that aims at facilitating practical education, nanosatellite innovation as well as technology demonstration. The main objective of Delfi-n3Xt is to support and strengthen the goals of the Delfi…
Denise is a pneumatically powered walking robot. It uses the concept of passive dynamic walking and is a natural looking biped robot. Denise has bending, extending knees.
Developed by TU Delft Robotics Institute, Eva is the Health Care Robot. It is a fetch and carry service robot that specializes in effective and interactive communication with humans. Moreover, the robot can perform diverse caring tasks.
Delft Biorobotics Lab. developed a biped humanoid robot called Flame. It has advanced actuators, can walk sideways, and can handle an 8-millimeter step-down disturbance.
Lea serves as a home service robot, which is not only effective but affordable as well. Lea is capable of performing a variety of tasks, combining high-tech speech recognition, person tracking, object recognition as well as autonomous navigation.
Leo is a 2D walking robot that is built by the Delft University of Technology for machine learning tests for humanoid robots. The boom construction of this 2D robot enables it to walk in circles and provides power to make sure the learning experiments…
Max is a 2D robot built at the Delft University of Technology. The robot walks by only using an upper body, hip joints and knees. It makes use of McKibben muscles to offer minimal actuation for waling on a flat floor.
Developed by the Delft University of Technology, Meta is their first robot with electric actuation. The robot is capable of taking 3 cm step-downs in the floor as well as walking stably at a speed of 0.3 to 0.65 m/s. Meta is able to begin from a standstill…
Developed by the Delft University of Technology, Mike is a 2D robot that is pneumatically activated biped and has knees. The prototype makes use of McKibben muscles to offer minimal actuation for walking on a flat floor.
Developed at the Delft University of Technology, Museon Walker is a completely passive walking robot that can stably walk down an incline. Museon Walker was built to demonstrate the principle of passive dynamic walking.
Developed at the Delft University of Technology, Phides is a 2D running robot with actuated knees and hips that are connected to a boom construction. Phides has achieved a successful flight phase, which is a phase in a running stride wherein the feet…
Designed and developed at the Delft BioRobotics Lab Robby is an affordable service robot. It is capable of performing a variety of tasks, combining high-tech speech recognition, person tracking, object recognition as well as autonomous navigation.
Simplest Passive Dynamic Walker is a 2D robot that is equipped with straight legs along without knees or feet. It is capable of walking on a tiled slope without using any motors. The dynamics of passive dynamic walkers are extremely simple.
