Methodology of using the various capabilities of the smart box to perform testing of other functionality of the smart device
First Claim
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1. An automatic system level testing (ASLT) system for testing smart devices, said system comprising:
- a system controller operable to be coupled to a smart device, wherein the system controller comprises a memory comprising test logic and a processor;
an enclosure comprising a plurality of components, the plurality of components comprising;
a robotic arm comprising a stylus attached thereto, wherein the stylus is operable to manipulate the smart device to simulate human interaction therewith; and
a platform comprising a device holder attached thereto, wherein the device holder is operable to hold the smart device inserted therein, wherein the platform is operable to rotate in a x-z plane and a y-z plane;
and wherein the processor is configured to automatically control the smart device and the plurality of components in accordance with the test logic, and further wherein the processor is configured to;
retrieve metadata from a plurality of sensors on said smart device; and
transmit the metadata to the system controller.
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Abstract
An automatic system level testing (ASLT) system for testing smart devices is disclosed. The system comprises a system controller coupled to a smart device in an enclosure, wherein the system controller comprises a memory comprising test logic and a processor. The enclosure comprises a plurality of components, wherein the processor is configured to automatically control the smart device and the plurality of components in accordance with the test logic. The plurality of components comprises: (a) a robotic arm comprising a stylus affixed thereto; and (b) a platform comprising a device holder affixed thereto, wherein the smart device is inserted into the device holder; and (c) a wireless access point. The processor is further configured to: (a) control the smart device to activate wireless mode; (b) receive wireless signals from the wireless access point using the smart device; (c) retrieve wireless scan results from the smart device; and (d) analyze the wireless scan results.
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Citations
24 Claims
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1. An automatic system level testing (ASLT) system for testing smart devices, said system comprising:
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a system controller operable to be coupled to a smart device, wherein the system controller comprises a memory comprising test logic and a processor; an enclosure comprising a plurality of components, the plurality of components comprising; a robotic arm comprising a stylus attached thereto, wherein the stylus is operable to manipulate the smart device to simulate human interaction therewith; and a platform comprising a device holder attached thereto, wherein the device holder is operable to hold the smart device inserted therein, wherein the platform is operable to rotate in a x-z plane and a y-z plane; and wherein the processor is configured to automatically control the smart device and the plurality of components in accordance with the test logic, and further wherein the processor is configured to; retrieve metadata from a plurality of sensors on said smart device; and transmit the metadata to the system controller. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. An automatic system level testing (ASLT) system for testing smart devices, said system comprising:
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a system controller coupled to a smart device, wherein the system controller comprises a memory comprising test logic and a processor; an enclosure comprising a plurality of components, the plurality of components comprising; a robotic arm comprising a stylus attached thereto, wherein the stylus is operable to manipulate the smart device to simulate human interaction therewith; a platform comprising a device holder attached thereto, wherein the device holder is operable to hold the smart device, wherein the platform is operable to rotate in a x-z plane and a y-z plane; and an external programmable LED; and wherein the processor is configured to automatically control the smart device and the plurality of components in accordance with the test logic, and wherein the processor is further configured to; control the smart device to activate an auto-brightness mode; control the external programmable LED to turn to full brightness mode; and analyze light intensity metadata from the smart device responsive to the brightness mode. - View Dependent Claims (12, 13, 14, 15)
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16. An automatic system level testing (ASLT) system for testing smart devices, said system comprising:
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a system controller operable to be coupled to a smart device, wherein the system controller comprises a memory comprising test logic and a processor; an enclosure comprising a plurality of components, wherein the plurality of components comprise; a robotic arm comprising a stylus attached thereto, wherein the stylus is operable to manipulate the smart device to simulate human interaction therewith; a platform comprising a device holder affixed thereto, wherein the device holder is operable to hold the smart device, wherein the platform is operable to be controlled to move in an x-y direction and to rotate, wherein the device holder is operable to receive the mobile electronic device inserted there into; and wherein the processor is configured to automatically control the smart device and the plurality of components in accordance with the test logic, and wherein the processor is further configured to; control the smart device to activate GPS mode; receiving GPS and location results from the smart device; and analyzing the GPS and location results received from the smart device to determine GPS functionality for the smart device.
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17. In a testing system, a method of testing a smart device, the method comprising:
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registering a model of a smart device inserted into the testing system, wherein the testing system comprises; a system controller operable to be coupled with the smart device, wherein the system controller comprises a memory comprising test logic and a processor; and an enclosure, wherein the enclosure comprises a plurality of components, the plurality of components comprising; a robotic arm comprising a stylus, wherein the stylus is operable to manipulate the smart device to simulate human interaction therewith; a platform comprising a device holder, wherein the device holder is operable to receive a smart device inserted there into, wherein the platform is operable to be controlled to move in an x-y direction and to rotate in an x-z plane and a y-z plane; controlling the smart device and the plurality of components in accordance with the test logic; retrieving metadata from a plurality of sensors on said smart device; and transmitting the metadata to the system controller. - View Dependent Claims (18, 19, 20, 21, 22, 23, 24)
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Specification
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Current AssigneeAdvantest America, Inc. (Advantest Corporation)
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Original AssigneeW2BI, Inc. (Advantest Corporation)
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InventorsDiperna, Derek, Leventhal, Ira, Schaub, Keith, Kutchuk, Artun
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Primary Examiner(s)Htun, San
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Application NumberUS16/126,980Publication NumberTime in Patent Office484 DaysField of SearchNoneUS Class CurrentCPC Class CodesB25J 9/1679 characterised by the tasks ...G05B 19/41875 characterised by quality su...G05B 2219/32368 Quality controlG05B 2219/37021 Robot controls position of ...G05B 2219/37022 Detector, measuring device ...G05B 2219/37231 Tool used as touch probe, s...G05B 2219/37368 Displacement perpendicular ...G05B 2219/37388 Acceleration or deceleratio...G05B 2219/37431 TemperatureG05B 2219/37433 Detected by acoustic emissi...G05B 2219/37634 By measuring vibrationG05B 2219/40041 Robot operates panel like c...G05B 2219/45089 Testing robotG06F 11/2221 to test input/output device...G06F 3/0346 with detection of the devic...H02J 7/0044 specially adapted for holdi...H02J 7/0048 Detection of remaining char...H04B 17/11 for calibrationH04B 17/16 Test equipment located at t...H04B 17/21 for calibration; for correc...View All
