US 12,468,159 B2
Computing system with head wearable display
Jiunn-Yiing Lai, New Taipei (TW); Feng-Chun Yeh, New Taipei (TW); and Yung-Chin Hsiao, New Taipei (TW)
Assigned to Oomii Inc., Grand Cayman (KY)
Filed by HES IP HOLDINGS, LLC, Austin, TX (US)
Filed on Oct. 17, 2024, as Appl. No. 18/919,397.
Application 18/919,397 is a continuation in part of application No. 18/349,066, filed on Jul. 7, 2023, granted, now 12,147,608.
Claims priority of provisional application 63/389,698, filed on Jul. 15, 2022.
Prior Publication US 2025/0044599 A1, Feb. 6, 2025
This patent is subject to a terminal disclaimer.
Int. Cl. G06F 3/01 (2006.01); G02B 27/01 (2006.01); G06F 1/16 (2006.01); G06T 7/593 (2017.01); G06T 7/73 (2017.01); G06T 19/00 (2011.01); G06V 20/20 (2022.01); G06V 40/10 (2022.01)
CPC G02B 27/0172 (2013.01) [G06T 7/593 (2017.01); G06T 7/73 (2017.01); G06T 19/006 (2013.01); G06V 20/20 (2022.01); G06V 40/107 (2022.01)] 10 Claims
OG exemplary drawing
 
1. A computing system with a head wearable display, comprising:
a distance measuring module, for detecting a spatial coordinate of a portion of a hand of a user, wherein the location or orientation of the portion of the hand is used for determining a first input data inputted by a user,
a processing unit, generating an output data in based on the first input data; and
a head wearable display configured to be worn by the user, comprising the distance measuring module, for displaying a binocular virtual image related to the output data, wherein the head wearable display comprises a first emitter configured to emit and scan a first collimated light signal, a second emitter configured to emit and scan a second collimated light signal, a first light direction adjuster and a second light direction adjuster for changing directions of the first collimated light signal and the second collimated light signal to redirect the first collimated light signal and the second collimated light signal with a first angle and a second angle relative to the user's frontal surface towards a first eye and a second eye of the user respectively, wherein an optical path extension of the first collimated light signal and an optical path extension of the second collimated light signal intersect at a spatial location to define a location of a virtual binocular pixel of the binocular virtual image, and the first angle and the second angle are changeable continuously to adjust an optical convergence angle of optical paths of the first collimated light signal and the second collimated light signal to modulate a depth of the virtual binocular pixel, to form the binocular virtual image having continuously variable depth perceivable by the user;
wherein the processing unit is configured to compare a current spatial location of the binocular virtual image, which is located at the intersection of the optical path extension of the first collimated light signal and the optical path extension of the second collimated light signal, with the spatial coordinates of the part of the user's hand measured by the distance measuring module, and based on the comparison, to change the binocular virtual image or activate an application program,
whereby when the intersection of the optical path extensions of the first collimated light signal and the second collimated light signal and coordinates of the part of the user's hand are in proximity to each other, the user's hand interacts with the binocular virtual image.