Fig 1.
Group observables in dyads.
Fig 2.
Group observables in triads.
Table 1.
Observable dependence on purpose for triads.
For each observable we provide the number of groups , the average, standard error, standard deviation (in parenthesis), ANOVA F function and p-values, effect size δ, and coefficient of determination R. Lengths in millimetres, times in seconds.
Table 2.
Observable dependence on purpose for dyads.
Lengths in millimetres, times in seconds.
Fig 3.
Pdf of the V observable in triads according to purpose.
Red, centre of bin identified by circles: leisure-oriented. Blue, centre of bin identified by squares: work-oriented. All pdfs in this work are shown after smoothing with a moving average filter.
Fig 4.
Pdf of the r observable in triads according to purpose.
Red and circles: leisure-oriented. Blue and squares: work-oriented.
Fig 5.
Pdf of the x observable in triads according to purpose.
Red and circles: leisure-oriented. Blue and squares: work-oriented.
Fig 6.
Pdf of the y observable in triads according to purpose.
Red and circles: leisure-oriented. Blue and squares: work-oriented.
Table 3.
Observable dependence on relation for triads.
Lengths in millimetres, times in seconds.
Table 4.
Observable dependence on relation for dyads.
Lengths in millimetres, times in seconds.
Fig 7.
Pdf of the V observable in triads according to relation.
Blue and squares: colleagues. Orange and triangles: family. Green and stars: friends.
Fig 8.
Pdf of the r observable in triads according to relation.
Blue and squares: colleagues. Orange and triangles: family. Green and stars: friends.
Fig 9.
Pdf of the x observable in triads according to relation.
Blue and squares: colleagues. Orange and triangles: family. Green and stars: friends.
Fig 10.
Pdf of the y observable in triads according to relation.
Blue and squares: colleagues. Orange and triangles: family. Green and stars: friends.
Table 5.
Observable dependence on gender for triads.
Lengths in millimetres, times in seconds.
Table 6.
Observable dependence on gender for dyads.
Lengths in millimetres, times in seconds.
Fig 11.
Pdf of the V observable in triads according to gender.
Red and circles: three females. Green and stars: two females. Orange and triangles: two males. Blue and squares: three males.
Fig 12.
Pdf of the r observable in triads according to gender.
Red and circles: three females. Green and stars: two females. Orange and triangles: two males. Blue and squares: three males.
Fig 13.
Pdf of the x observable in triads according to gender.
Red and circles: three females. Green and stars: two females. Orange and triangles: two males. Blue and squares: three males.
Fig 14.
Pdf of the y observable in triads according to gender.
Red and circles: three females. Green and stars: two females. Orange and triangles: two males. Blue and squares: three males.
Table 7.
Observable dependence on minimum age for triads.
Lengths in millimetres, times in seconds.
Table 8.
Observable dependence on minimum age for dyads.
Lengths in millimetres, times in seconds.
Table 9.
Observable dependence on minimum height for triads.
Lengths in millimetres, times in seconds.
Table 10.
Observable dependence on minimum height for dyads.
Lengths in millimetres, times in seconds.
Table 11.
Observable dependence on presence of social interaction in dyads.
Lengths in millimetres, times in seconds.
Table 12.
Observable dependence on presence of social interaction in triads.
Lengths in millimetres, times in seconds.
Fig 15.
2D pdf for the position of dyads.
Left: interacting. Right: non-interacting.
Fig 16.
2D pdf for the position of triads.
Left: interacting. Right: non-interacting.
Fig 17.
Pdf of the V observable in dyads.
Red and circles: interacting. Blue and squares: non-interacting.
Fig 18.
Pdf of the r observable in dyads.
Red and circles: interacting. Blue and squares: non-interacting.
Fig 19.
Pdf of the x observable in dyads.
Red and circles: interacting. Blue and squares: non-interacting.
Fig 20.
Pdf of the y observable in dyads.
Red and circles: interacting. Blue and squares: non-interacting.
Fig 21.
Pdf of the V observable in triads.
Red and circles: interacting. Blue and squares: non-interacting.
Fig 22.
Pdf of the r observable in triads.
Red and circles: interacting. Blue and squares: non-interacting.
Fig 23.
Pdf of the x observable in triads.
Red and circles: interacting. Blue and squares: non-interacting.
Fig 24.
Pdf of the y observable in triads.
Red and circles: interacting. Blue and squares: non-interacting.