In some embodiments, a method includes generating, based on distributed ledger data associated with a first distributed ledger-based network (DLN), distributed ledger data associated with a second DLN. The first DLN and the second DLN each is a fork and the distributed ledger data associated with the first DLN include account data associated with a set of accounts. The method includes generating a request to initiate a transaction between a first account and a second account. The method includes authenticating the transaction based on a protocol associated with the second DLN and without using a private cryptographic key of the first account. The method includes sending a signal indicating the transaction was authenticated and storing information associated with the transaction in the distributed ledger data associated with the second DLN.

A method, an electronic device and a computer-readable storage medium for testing an autonomous driving system which relate to the technical field of autonomous driving are proposed. An embodiment for testing the autonomous driving system includes: obtaining scenario description information of a testing scenario; analyzing the scenario description information, and determining a scenario risk, a scenario probability and a scenario complexity corresponding to the testing scenario; obtaining a scenario weight of the testing scenario according to the scenario risk, scenario probability and scenario complexity; determining a test period corresponding to the scenario weight, where the test period is used for the autonomous driving system being tested in the testing scenario. The technical solution may reduce the testing pressure of the autonomous driving system and improve the testing efficiency of the autonomous driving system.

The present disclosure is related in general to software testing and a method and a system for automatically identifying violation in the test cases. A test case validation system categorizes the test cases into event-based test cases and binary test cases. Further, a Part-Of-Speech (POS) pattern is detected in the one or more test cases based on POS tags assigned to each of the tokens in test cases. Thereafter, comparison of the detected POS pattern and the one or more tokens with predefined POS patterns and predefined tokens identifies violations in the one or more test cases if any, using pattern matching and Natural Language Processing (NLP). The predefined POS patterns and tokens used for comparison are filtered based on category of the test case thus accelerating the process of the violation identification. The test case validation system is capable of accurately identifying more than one type of violations simultaneously.

A non-transitory computer-readable storage medium storing therein a job scheduler test program that causes a computer to execute a process includes: determining whether or not a state of every thread of a test-target job scheduler is a standby state; and changing a time of a system referenced when the thread executes a process to a time that is put forward in a case where the state of every thread is the standby state.

A device may receive a uniform resource identifier that identifies an object source. The object source may include one or more objects organized in a hierarchy of objects. The device may identify an object, of the one or more objects, to permit extraction of one or more properties of the object. The device may extract the one or more properties of the object based on identifying the object. The device may select a subset of properties, of the one or more properties, to use to generate an object locator based on extracting the one or more properties. The object locator may be associated with locating the object in the hierarchy of objects. The device may generate the object locator based on selecting the subset of properties of the object.

According to an example of the present disclosure, a test script to test a web application is generated from a test case and web objects extracted from a web application. A web application testing tool may be invoked to test a functionality of the web application by executing the test script.

Techniques are disclosed relating to automated operations management. In various embodiments, a computer system accesses operational information that defines commands for an operational scenario and accesses blueprints that describe operational entities in a target computer environment related to the operational scenario. The computer system implements the operational scenario for the target computer environment. The implementing may include executing a hierarchy of controller modules that include an orchestrator controller module at top level of the hierarchy that is executable to carry out the commands by issuing instructions to controller modules at a next level. The controller modules may be executable to manage the operational entities according to the blueprints to complete the operational scenario. In various embodiments, the computer system includes additional features such as an application programming interface (API), a remote routing engine, a workflow engine, a reasoning engine, a security engine, and a testing engine.

A system and method for remote testing of enterprise software applications (ESA) allows one or more testers to remotely access an ESA and remotely test the ESA. In at least one embodiment, the ESA resides in a testing platform that includes one more computers that are provisioned for testing. “Provisioning” a computer system (such as one or more servers) refers to preparing, configuring, and equipping the computer system to provide services to one or more users. In at least one embodiment, the computer system is provisioned to create an ESA operational environment in accordance with a virtual desktop infrastructure (VDI) template interacting with virtualization software.

Systems and methods for conducting a test on a third-party testing platform are provided. A networked system causes presentation of a setup user interface to a third-party user, whereby the setup user interface includes a field for indicating an attribute of a publication to be tested. The networked system receives, via the setup user interface, an indication of the attribute, a subject to be tested, and one or more test parameters. The networked system applies the attribute change to a first version of the publication to generate a second version of the publication. The first version is presented to a first subset of potential users and the second version is presented to a second subset of potential users. Interactions with both the first version and the second version are monitored and analyzed to determine results of the test. The results are then presented to the third-party user.

An automated video game testing framework and method includes communicatively coupling an application programming interface (API) to an agent in a video game, where the video game includes a plurality of in-game objects that are native to the video game. The agent is managed as an in-game object of the video game. A test script is executed to control the agent, via the API, to induce gameplay and interrogate a behavior of a test object. The test object is identified from the plurality of in-game objects based on a query that specifies an object attribute of the test object.