The ability for structures to change geometry in order to deliver a particular capability can be useful in a range of applications, including biomedical engineering, robotics, aerospace and civil ...

Deployable structures for space applications are engineered to transition from compactly stowed configurations to large functional forms once in orbit. This capability enables the delivery of ...

The rapid advancements in satellite technology have been inextricably bound up with the support provided by sophisticated space folding mechanisms. In addition, with the rapid progression of space ...

Abstract: Modern deployable space structures have enabled spectacular missions like the James Webb Space Telescope, but they are constrained by fairing size and by a tradeoff between deployed size and ...

Southwest Research Institute (SwRI) has developed technology to stiffen deployable structures on spacecraft, enabling autonomous spacecraft docking operations. SwRI is currently integrating the ...

The field of robotics has transformed drastically in this century, with a special focus on soft robotics. In this context, origami-inspired deployable structures with compact storage and efficient ...

The field of robotics has transformed drastically in this century, with a special focus on soft robotics. In this context, origami-inspired deployable structures with compact storage and efficient ...

Starsys Inc., a SpaceDev Company has been awarded two contracts totaling $2.45 million from the Air Force Research Laboratory (AFRL) Space Vehicles Directorate, for continued development of deployable ...

Abstract: Lightweight materials and structures are essential in the aerospace industry, from enabling the large space structures required to advance science missions to reducing fuel consumption.

Energy Vault has announced a strategic partnership with Chicago-based architecture and engineering firm SOM to integrate its gravity energy storage solutions into future building design. Under the ...