Bram Vanderborght

About

Bram Vanderborght is a pioneering robotics researcher whose work spans compliant actuation, soft robotics, and human-robot interaction, with particular impact on making robots safer and more capable partners for humans. His foundational contributions to variable stiffness actuators (VSAs) have reshaped how engineers approach physical human-robot interaction, establishing design principles that now underpin wearable robotics, prosthetics, and rehabilitation systems — work reflected in over 800 citations for his 2009 review alone. His development of the MACCEPA actuator and subsequent AwAS system provided the field with concrete, implementable solutions for adaptive compliance in robotic joints. Beyond mechanical systems, Vanderborght has made significant strides in soft robotics, co-authoring influential work on self-healing pneumatic robots and self-healing polymers, helping chart a course toward more resilient, biomimetic machines. Equally notable is his socially conscious research agenda: his studies on robot-assisted therapy for children with autism spectrum disorder (ASD), including the social robot Probo, demonstrate a commitment to translating technical innovation into meaningful human benefit. With multiple papers exceeding 200 citations across diverse subfields, Vanderborght stands as one of the most versatile and impactful voices in contemporary robotics research.

Research Focus

Key Achievements

Top Papers

1. 1
   Compliant actuator designs

   823 citations · 2009
2. 2
   Self-healing soft pneumatic robots

   531 citations · 2017
3. 3
   Variable Stiffness Actuators: Review on Design and Components

   438 citations · 2015
4. 4
   MACCEPA, the mechanically adjustable compliance and controllable equilibrium position actuator: Design and implementation in a biped robot

   369 citations · 2007
5. 5
   A review on self-healing polymers for soft robotics

   295 citations · 2021
6. 6
   A compact soft actuator unit for small scale human friendly robots

   248 citations · 2009
7. 7
   A Survey of Expectations About the Role of Robots in Robot-Assisted Therapy for Children with ASD: Ethical Acceptability, Trust, Sociability, Appearance, and Attachment

   207 citations · 2015
8. 8
   Variable stiffness actuators: The user’s point of view

   198 citations · 2015
9. 9
   Using the social robot probo as a social story telling agent for children with ASD

   193 citations · 2012
10. 10
    A novel actuator with adjustable stiffness (AwAS)

    188 citations · 2010

Key Collaborators

Contact & Links