Litcius/Paper detail

A Common Space Approach to Comparative Neuroscience

Rogier B. Mars, Saâd Jbabdi, Matthew F. S. Rushworth

2021Annual Review of Neuroscience89 citationsDOIOpen Access PDF

Abstract

Comparative neuroscience is entering the era of big data. New high-throughput methods and data-sharing initiatives have resulted in the availability of large, digital data sets containing many types of data from ever more species. Here, we present a framework for exploiting the new possibilities offered. The multimodality of the data allows vertical translations, which are comparisons of different aspects of brain organization within a single species and across scales. Horizontal translations compare particular aspects of brain organization across species, often by building abstract feature spaces. Combining vertical and horizontal translations allows for more sophisticated comparisons, including relating principles of brain organization across species by contrasting horizontal translations, and for making formal predictions of unobtainable data based on observed results in a model species.

Topics & Concepts

Space (punctuation)NeuroscienceComputer scienceHorizontal and verticalData sharingFeature (linguistics)Data scienceBig dataCognitive sciencePsychologyGeographyData miningOperating systemPathologyPhilosophyLinguisticsGeodesyMedicineAlternative medicineNeural dynamics and brain functionFunctional Brain Connectivity StudiesEvolution and Paleontology Studies