• Capabilities | Development of “in vivo” bioactivity tests for biomolecules using animal models

    Use of animal models (zebrafish, turbot, mice, etc.) as model systems to study the bioactivity of different compounds, as well as fish and human diseases (septic shock, inflammatory illnesses, etc.).

     

  • Capabilities | New technologies for rapid detection of pathogens in fishery and aquaculture products

    Development of mass spectroscopy techniques for rapid identification and quantification of parasites in seafood products, as well as proteomic techniques to identify pathogenic microorganisms, fish parasites and allergen proteins. 

     

  • Software | Kinetics of E. coli inactivation by benzalkonium chloride v1.0

    This model and associated code was developed to optimize disinfection protocols and minimize bacterial resistance. This model was applied in the following journal article: Optimization of E. coli Inactivation by Benzalkonium Chloride Reveals the Importance of Quantifying the Inoculum Effect on Chemical Disinfection. Front. Microbiol., 26 June 2018. https://doi.org/10.3389/fmicb.2018.01259

    More information and access to the code here.

  • Capabilities | Definition and description of marine ecosystems

    The definition and description of ecosystems involving marine resources, in terms of scale, extent, structure, and functioning. This includes characterizing the spatial, structural, and functional aspects of marine-coastal ecosystems as basic units for environmental land-use planning.

  • Software | GenSSI: toolbox for structural identifiability analysis of biological models

    GenSSI is a toolbox that requires MATLAB and Symbolic Math Toolbox. It offers a technique for studying structural identifiability using iterative Lie derivatives and identifiability tableaus.

    More information here,

  • Prototype | iObserver: On-board electronic monitoring system for catch identification and quantification

    iObserver is an innovative monitoring device based on automated video monitoring coupled with artificial intelligence developments for visual recognition and quantification of the catches on board fishing vessels.

    iObserver implements a continuous image recording system adaptable to different fishing vessels and deep learning algorithms to automatically identify and quantify catches on board in real time.

    iObserver focuses mainly on developing algorithms for robust automatic species recognition and size estimation of fish transported on a conveyor belt. Trials have been performed on board Spanish oceanographic vessels and commercial vessels. With over 300 days at sea, iObserver was used in more than 1000 hauls and took more than 200,000 pictures, and 17 species have already been included in the system's catalogue.  

    For further information, please contact us by e-mail.