Replace "immersive AR" with "AR headset"

3-perception/vhar-system/6-conclusion.tex

@@ -5,7 +5,7 @@
 
 In this chapter, we designed and implemented a system for rendering virtual visuo-haptic textures that augment a real surface.
 Directly touched with the fingertip, the perceived roughness of the surface can be increased using a wearable vibrotactile voice-coil device mounted on the middle phalanx of the finger.
-We adapted the 1D sinusoidal grating rendering method, common in the literature but not yet integrated in a direct touch context, for use with vision-based pose estimation of the finger and paired it with an immersive \AR headset.
+We adapted the 1D sinusoidal grating rendering method, common in the literature but not yet integrated in a direct touch context, for use with vision-based pose estimation of the finger and paired it with an \OST-\AR headset.
 
 Our wearable visuo-haptic augmentation system enable any real surface to be augmented with a minimal setup.
 It also allows a free exploration of the textures, as if they were real (\secref[related_work]{ar_presence}), by letting the user view them from different poses and touch them with the bare finger without constraints on hand movements.
@@ -18,4 +18,3 @@ This system forms the basis of the apparatus for the user studies presented in t
 %Erwan Normand, Claudio Pacchierotti, Eric Marchand, and Maud Marchal.
 %\enquote{How Different Is the Perception of Vibrotactile Texture Roughness in Augmented versus Virtual Reality?}.
 %In: \textit{ACM Symposium on Virtual Reality Software and Technology}. Trier, Germany, October 2024. pp. 287--296.
-