A control device includes: a processor that is configured to execute computer-executable instructions so as to control a robot provided with a force sensor, wherein the processor is configured to display a first detection result in which specific position information indicating a specific position of the robot and force information output from a force sensor correspond to each other on a display, in a case where robot inspects an operation component that outputs an electric signal corresponding to an operation.

An automated test system for testing smart devices is presented. The system includes a system controller coupled to a smart device, wherein the system controller includes a memory with test logic and a processor. The system also includes an enclosure with a plurality of components. The plurality of components include (a) a robotic arm with a stylus, wherein the stylus is operable to manipulate the smart device to simulate human interaction therewith; (b) a platform with a device holder, wherein the device holder is operable to hold a smart device inserted therein; (c) an audio capture and generator device; and (d) a microphone. The processor is configured to automatically control the smart device and the plurality of components in accordance with the test logic.

In some embodiments, apparatuses and methods are provided herein useful to test user interfaces of systems. Some embodiments provide a puck support apparatus comprising: a base; a first support and a second support both supported by the base and extending away from the base in generally a first direction; wherein the first support comprises a first channel formed at an angle relative to the first direction; and wherein the second support comprises a second channel formed at the angle relative to the first direction and mirroring the first channel; and wherein the first support at the first channel is separated from the second support by at least a robotic effector threshold distance.

An automatic system level testing (ASLT) system for testing smart devices is disclosed. The system comprises a system controller operable to be coupled with a smart device in an enclosure, wherein the system controller comprises a memory comprising test logic and a processor. The system also comprises the enclosure, wherein the enclosure comprises a plurality of components, the plurality of components comprising: (i) a robotic arm comprising a stylus, wherein the stylus is operable to manipulate the smart device to simulate human interaction therewith; and (ii) a platform comprising a device holder, wherein the device holder is operable to receive a smart device inserted there into. The processor is configured to automatically control the smart device and the plurality of components in accordance with the test logic.

A method, system, and apparatus are provided. The method includes receiving, with a coordinator component, a task for testing at least one electronic device, retrieving, by a first agent from the coordinator component, the task for testing the at least one electronic device, controlling a first robotic device to test the at least one electronic device based on the retrieved task, and receiving, with the coordinator component, a result of the task based on the testing of the at least one electronic device.