Company Filing History:
2 out of 2 
1 out of 832,966 Years Active: 1990-1993
Title: Bradford L. Smith: Innovator in Robotic and Structural Technologies
Introduction
Bradford L. Smith, based in Santa Fe, NM, is a notable inventor recognized for his contributions in the fields of robotics and woven wire structures. With a total of three patents to his name, Smith has demonstrated his innovative capacity in developing sophisticated technologies that advance engineering and design.
Latest Patents
Among Smith's prominent patents is the development of **Woven Wire Structures**. This invention consists of a woven wire structural unit composed of multi-wire bundles that are connected at their respective ends and rigidly fixed. The versatile design allows for various configurations, including linear arrays, planar arrays, columnar or cylindrical formations, and even cubic and polyhedronal configurations. Another significant patent describes a **Robotic Apparatus** that features a lightweight robotic structure capable of providing seven degrees of freedom, maneuverable within a hemispherical workspace. This innovative robot comprises multiple platforms interconnected by actuatable longitudinal members and mobile joints, creatively engineered from intersecting wire elements.
Career Highlights
Bradford L. Smith has worked with Wovenwire Corporation, a company that focuses on advanced wire-based technology solutions. His work at this organization highlights his ability to blend creativity with practical engineering, contributing significantly to product development and design improvement.
Collaborations
During his career, Smith has collaborated with Mohsen Shahinpoor, combining their expertise to enhance research and innovation in their respective fields. This collaboration has led to impactful projects and advancements in technology.
Conclusion
Bradford L. Smith exemplifies the spirit of innovation, with his research and inventions paving the way for advancements in both robotics and structural design. As technology continues to evolve, Smith's contributions will undoubtedly play a critical role in shaping future applications in these dynamic fields.