We spotlight some of our favourite cowl solutions, submitted by authors final yr, that weren’t in the end chosen for the journal.
When a manuscript is accepted for publication at Nature Computational Science, we welcome the authors to submit potential cowl supplies associated to that manuscript. This is a good alternative for his or her analysis to be thought of to be featured on the quilt of our journal, and we definitely take pleasure in seeing all of the artistic ways in which our authors visually deliver their papers to life.
Unfortunately, among the many many canopy submissions that we obtain, just one could make it to a specific challenge of the journal. The last resolution is made by us, the editors, along with our artwork editorial workforce. While the scientific content material that the picture portrays is definitely taken into consideration in our resolution, the aesthetic enchantment can be essential, together with, however not restricted to, the visuals, the colours, and the quilt design with the journal emblem. More usually than not, as we get many glorious cowl solutions, the choice just isn’t clear-cut, however ultimately, a last cowl should be chosen.
In this Editorial, we want to spotlight some of our favourite picture submissions from final yr that sadly didn’t make the reduce, with a purpose to make sure that these photographs don’t go unappreciated by our analysis neighborhood and that the authors’ efforts don’t come to naught.
The first picture was submitted by Paul J. Blazek and Milo M. Lin to focus on their analysis on utilizing a neural community mannequin to encode cognitive capabilities. “The graphic conveys the idea that symbolic cognitive processes, represented by the tree of knowledge, can emerge interpretably and naturally from an underlying connectionist neural network, which is the main result of our paper,” says Lin. “In designing this piece, we (and the artist) were inspired by the iconic wood engraving called the ‘Flammarion engraving’. We were suggesting an analogy with this iconic work from the 19th century, which represents the idea that terrestrial and celestial behavior emerge from an underlying set of Newtonian mechanics.” It is value noticing that the unique wooden engraving is broadly studied and interpreted as man’s quest for the information of the Universe.
Cover submitted for the paper by Paul J. Blazek and Milo M. Lin.
Credit: Mark C. Merchant
Another cowl runner-up was submitted by Paolo Santi et al., associated to their analysis on modeling how pedestrians navigate inside cities. According to the authors, the picture represents the hidden complexities of pedestrian navigation. “Two specific origin and destination points are highlighted in the map (blue and red glowing points). The shortest path connecting the two points is represented by the dashed trajectory, which partly overlaps with other trajectories. The most recurrent paths in each direction are highlighted: the glowing blue path goes from the blue to the red point, while the red glowing path goes in the opposite direction. These paths are different, highlighting an asymmetry in human pedestrian navigation choices that can be explained by a mechanism called vector-based navigation,” says Santi. The vectors pointing in direction of the vacation spot are depicted in probably the most recurrent path in every route for example this mechanism, in accordance with which people are assumed to reduce the angular deviation in direction of the vacation spot at every highway intersection.
Cover submitted for the paper by Paolo Santi et al.
Credit: Eunsu Kim, Rui Wang, Fabio Duarte/MIT Senseable City Lab
Finally, one other favourite cowl suggestion is expounded to a paper by Xavier Rodó et al. the place they research the affiliation of temperature and humidity with COVID-19. According to the authors, seasonality of wintertime respiratory infections in temperate areas and airborne transmission might be seen as two sides of the identical coin: winter circulation in these areas coincides with decrease temperatures and decrease absolute humidity, a function that pertains to smaller aerosol sizes and, subsequently, facilitates persistence and enhances short-distance viral propagation. “In this cover, we highlight this link of SARS-CoV-2 to aerosols in a cold wintertime portrait typical of Europe,” says Rodó.
Cover submitted for the paper by Xavier Rodó et al.
Credit: Lluc Rodó De Yebra
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Cover runners-up of 2021.
Nat Comput Sci (2022). https://doi.org/10.1038/s43588-022-00212-5