BiSSL Presentation at 18th Annual Conference on Systems Engineering Research (CSER 2020)

BiSSL is looking forward to representing our bio-inspired systems of systems (SoS) design work at this year’s 18th Annual Conference on Systems Engineering Research in Redondo Beach, CA. The conference this year is focused on “Recent Trends and Advances in Model-based Systems” and will be going on from March 19-21, 2020. PhD student Abheek Chatterjee is first author on a paper with our collaborator Dr. Richard Malak titled: “A Bio-inspired Framework for Analyzing and Predicting the Trade-off between System of Systems Attributes.” We hope to see you all there!

BiSSL Student Led Publication in Journal of Cleaner Production

Congratulations to BiSSL alumni Tirth Dave (MS graduate December 2019) on the publication of his paper in the Journal of Cleaner Production! “Designing ecologically-inspired robustness into a water distribution network” covers Tirth’s work on bio-inspired network design coupled with modeling of a water distribution network, showing that we can draw inspiration from nature to improve the resilience and reduce freshwater use in industrial resource networks.

ABSTRACT: Eco-Industrial Parks (EIPs), network of industries that collaborate by utilizing each other’s byproducts and wastes, are highly desirable for both the industries themselves, their environment, and governments due to their economic, environmental, and social advantages. Previous work has shown that EIPs are not as successful as they could be in terms of mimicking the behavior of biological ecosystems, highlighting that more work needs to be done for EIPs to truly mimic their biological-counterparts. The Kalundborg EIP, located in Kalundborg, Denmark, is a well documented example of an EIP with long-term success. Using the water network within the Kalundborg EIP as a case study, two bio-inspired networks are selected from an optimization based on the ecosystem metric robustness. The bio-inspired solutions are compared with a traditionally cost-minimized solution to understand what bio-inspired design can offer when a network is disturbed. Disturbances such as connection breakages and industry shutdowns are tested, showing that the bio-inspired designs require minimal recovery costs – in stark contrast to the traditional network solution. The results show that the bio-inspired designs reduce the network’s dependence on a scarce import (freshwater) and have higher overall network resilience in the event of disturbances. The three network solutions are discussed from a ecological perspective, explaining differences from the standpoint of ecosystem characteristics. The analysis highlights the benefits of using ecology to understand the nature of and improve the design of industrial networks.

JCP (2020) “Designing ecologically-inspired robustness into a water distribution network” Dave, T. and Layton, A.