Engineers and technology firms must continually explore new design opportunities and directions to sustain or thrive in technology competition. However, the related decisions are normally based on personal gut feeling or experiences. Although the analysis of user preferences and market trends may shed light on some design opportunities from a demand perspective, design opportunities are always conditioned or enabled by the technological capabilities of designers. Herein, we present a data-driven methodology for designers to analyze and identify what technologies they can design for the next, based on the principle—what a designer can currently design condition or enable what it can design next. The methodology is centered on an empirically built network map of all known technologies, whose distances are quantified using more than 5 million patent records, and various network analytics to position a designer according to the technologies that they can design, navigate technologies in the neighborhood, and identify feasible paths to far fields for novel opportunities. Furthermore, we have integrated the technology space map, and various map-based functions for designer positioning, neighborhood search, path finding, and knowledge discovery and learning, into a data-driven visual analytic system named InnoGPS. InnoGPS is a global position system (GPS) for finding innovation positions and directions in the technology space, and conceived by analogy from the GPS that we use for positioning, neighborhood search, and direction finding in the physical space.
InnoGPS for Data-Driven Exploration of Design Opportunities and Directions: The Case of Google Driverless Car Project
SUTD-MIT International Design Centre,
Singapore University of Technology and Design,
8 Somapah Road,
Singapore 487372, Singapore
Contributed by the Design Automation Committee of ASME for publication in the JOURNAL OF MECHANICAL DESIGN. Manuscript received March 4, 2017; final manuscript received August 5, 2017; published online October 2, 2017. Assoc. Editor: Yan Wang.
- Views Icon Views
- Share Icon Share
- Search Site
Luo, J., Yan, B., and Wood, K. (October 2, 2017). "InnoGPS for Data-Driven Exploration of Design Opportunities and Directions: The Case of Google Driverless Car Project." ASME. J. Mech. Des. November 2017; 139(11): 111416. https://doi.org/10.1115/1.4037680
Download citation file: