NEWS | Prodigio >
Reconstructing large interaction networks from empirical time series data
Reconstructing interactions from observational data is a critical need for investigating natural biological networks, wherein network dimensionality is usually high.
IDConsortium
However, these pose a challenge to existing methods that can quantify only small interaction networks. Here, we proposed a novel approach to reconstruct high-dimensional interaction Jacobian networks using empirical time series without specific model assumptions. This method, named “multiview distance regularised S-map,” generalised the state space reconstruction to accommodate high dimensionality and overcome difficulties in quantifying massive interactions with limited data. When evaluating this method using time series generated from theoretical models involving hundreds of interacting species, estimated strengths of interaction Jacobians were in good agreement with theoretical expectations. Applying this method to a natural bacterial community helped identify important species from the interaction network and revealed mechanisms governing the dynamical stability of a bacterial community. The proposed method overcame the challenge of high dimensionality in large natural dynamical systems.
If you want more information about this news:
More news about this project:
PRODIGIO delivers Breakthrough in Sustainable Biogas from Microalgae Biomass through Early Failure Detection Systems
The PRODIGIO project has developed early-warning systems to enhance the reliability and efficiency of microalgae cultivation and anaerobic digestion for sustainable biogas production.
PRODIGIO featured in The Conversation journal: Exploring the potential of microalgae
Microalgae, the most efficient photosynthetic organisms, present significant potential for sustainable biofuel and food production.
The PRODIGIO project presents its results at the Final Conference
The PRODIGIO team presented its findings at the Final Conference on Monday, 17th June 2024. This event took place during the ISAP 2024, themed “Algae 2030: Challenges and Opportunities,” in Oporto, Portugal.