Institution
Apple Inc.
Company•Herzliya, Israel•
About: Apple Inc. is a company organization based out in Herzliya, Israel. It is known for research contribution in the topics: Signal & User interface. The organization has 15687 authors who have published 22600 publications receiving 624507 citations. The organization is also known as: Apple Computer, Inc. & Apple Computer Inc.
Topics: Signal, User interface, Wireless, Pixel, Graphical user interface
Papers published on a yearly basis
Papers
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09 Sep 2014TL;DR: In this paper, an electronic device with a display and a fingerprint sensor displays a fingerprint enrollment interface and detects, on the fingerprint sensor, a plurality of finger gestures performed with a finger.
Abstract: An electronic device with a display and a fingerprint sensor displays a fingerprint enrollment interface and detects, on the fingerprint sensor, a plurality of finger gestures performed with a finger. The device collects fingerprint information from the plurality of finger gestures performed with the finger. After collecting the fingerprint information, the device determines whether the collected fingerprint information is sufficient to enroll a fingerprint of the finger. When the collected fingerprint information for the finger is sufficient to enroll the fingerprint of the finger, the device enrolls the fingerprint of the finger with the device. When the collected fingerprint information for the finger is not sufficient to enroll the fingerprint of the finger, the device displays a message in the fingerprint enrollment interface prompting a user to perform one or more additional finger gestures on the fingerprint sensor with the finger.
475 citations
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16 Nov 1996TL;DR: A study of a spatially distributed product design team shows that most members are rarely at their individual desks, and implications for technology design include portable and distributed computing resources, in particular, moving beyond individual workstation-centric CSCW applications.
Abstract: A study of a spatially distributed product design team shows that most members are rarely at their individual desks. Mobility is essential for the use of shared resources and for communication. It facilitates informal interactions and awareness unavailable to colleagues at remote sites. Implications for technology design include portable and distributed computing resources, in particular, moving beyond individual workstation-centric CSCW applications.
473 citations
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TL;DR: The main developments and technical aspects of this ongoing standardization effort for compactly representing 3D point clouds, which are the 3D equivalent of the very well-known 2D pixels are introduced.
Abstract: Due to the increased popularity of augmented and virtual reality experiences, the interest in capturing the real world in multiple dimensions and in presenting it to users in an immersible fashion has never been higher. Distributing such representations enables users to freely navigate in multi-sensory 3D media experiences. Unfortunately, such representations require a large amount of data, not feasible for transmission on today’s networks. Efficient compression technologies well adopted in the content chain are in high demand and are key components to democratize augmented and virtual reality applications. Moving Picture Experts Group, as one of the main standardization groups dealing with multimedia, identified the trend and started recently the process of building an open standard for compactly representing 3D point clouds, which are the 3D equivalent of the very well-known 2D pixels. This paper introduces the main developments and technical aspects of this ongoing standardization effort.
470 citations
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13 Dec 2010TL;DR: In this paper, the authors describe how a PDA can be configured to interact with a data processing system based on sensor data, such as a proximity sensor, and a processor coupled to the interface and to the at least one sensor.
Abstract: Peripherals and data processing systems are disclosed which can be configured to interact based upon sensor data. In one embodiment, a peripheral, which is configured to be used with a data processing system, includes an interface to couple the peripheral to the data processing system, and at least one sensor, such as a proximity sensor, to sense a user of the peripheral, and a processor coupled to the interface and to the at least one sensor, wherein the processor configures the peripheral in response to data from the at least one sensor. The peripheral may communicate sensor data from its sensors to the data processing system, which may be a wireless PDA, and the data processing system analyzes the sensor data from its sensors and from the peripheral's sensors to decide how to configure the peripheral and/or the data processing system based on the sensor.
469 citations
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09 Jun 2003TL;DR: In this article, a deferred shading graphics pipeline processor and method are provided encompassing numerous substructures, including one or more of deferred shading, a tiled frame buffer, and multiple?stage hidden surface removal processing.
Abstract: A deferred shading graphics pipeline processor and method are provided encompassing numerous substructures. Embodiments of the processor and method may include one or more of deferred shading, a tiled frame buffer, and multiple?stage hidden surface removal processing. In the deferred shading graphics pipeline, hidden surface removal is completed before pixel coloring is done. The pipeline processor comprises a command fetch and decode unit, a geometry unit, a mode extraction unit, a sort unit, a setup unit, a cull unit, a mode injection unit, a fragment unit, a texture unit, a Phong lighting unit, a pixel unit, and a backend unit.
468 citations
Authors
Showing all 15698 results
Name | H-index | Papers | Citations |
---|---|---|---|
David E. Goldberg | 109 | 520 | 172426 |
Ruslan Salakhutdinov | 107 | 410 | 115921 |
Arogyaswami Paulraj | 97 | 476 | 41068 |
Eric Johnson | 95 | 312 | 47738 |
Donald A. Norman | 93 | 292 | 71226 |
Jim Gray | 92 | 265 | 50987 |
Imran Chaudhri | 90 | 327 | 31488 |
Ji-Guang Zhang | 83 | 286 | 28461 |
Scott Forstall | 82 | 184 | 20386 |
Carlos Guestrin | 79 | 221 | 50821 |
Michael Thompson | 76 | 911 | 28151 |
Gerard Medioni | 72 | 443 | 24378 |
Stephen O. Lemay | 72 | 288 | 18601 |
Paul Dourish | 69 | 202 | 26715 |
Bas Ording | 68 | 175 | 25774 |