SYSTEM AND COMPUTER-IMPLEMENTED METHOD FOR CONTROLLING A ROBOT OF A VIRTUAL MACHINE

Organization Name

uipath, inc.

Inventor(s)

Tao Ma of Bellevue WA (US)

Clement Fauchere of Spring Branch TX (US)

SYSTEM AND COMPUTER-IMPLEMENTED METHOD FOR CONTROLLING A ROBOT OF A VIRTUAL MACHINE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240320021 titled 'SYSTEM AND COMPUTER-IMPLEMENTED METHOD FOR CONTROLLING A ROBOT OF A VIRTUAL MACHINE

Simplified Explanation:

The abstract describes a method for controlling and provisioning a robot in a virtual machine by establishing a connection between two services, authenticating the virtual machine, and transmitting commands to control the robot.

• The method involves transmitting a connection request between two services in a virtual machine.
• Authentication of the virtual machine is based on a token associated with the second service.
• A command is transmitted from the second service to the first service to control the robot.
• The command is executed based on the authentication of the virtual machine.

Key Features and Innovation:

• Transmission of connection request between services in a virtual machine.
• Authentication of the virtual machine using a token associated with a service.
• Transmission of commands to control the robot based on authentication.
• Execution of commands to control the robot.

Potential Applications:

This technology can be applied in various industries such as robotics, automation, virtual reality, and artificial intelligence.

Problems Solved:

This technology addresses the need for secure and efficient control of robots in virtual environments.

Benefits:

• Enhanced security in controlling robots in virtual machines.
• Improved efficiency in provisioning and managing robots.
• Seamless integration of services for controlling robots.

Commercial Applications:

Potential commercial applications include robotic process automation, virtual training simulations, and remote robotic operations.

Prior Art:

Readers can explore prior research on virtual machine provisioning, robot control, and secure authentication methods in virtual environments.

Frequently Updated Research:

Stay updated on the latest advancements in virtual machine technology, robot control systems, and secure authentication protocols for virtual environments.

Questions about Robot Control in Virtual Machines:

1. How does the authentication process ensure secure control of the robot in a virtual machine? 2. What are the potential limitations of controlling robots in virtual environments, and how can they be addressed?

Original Abstract Submitted

controlling and provisioning a robot of a virtual machine (vm) includes transmitting a connection request between a first service installed in a virtual machine and a second service. the robot is associated with at least one process running on the virtual machine. the virtual machine is authenticated based on a token associated with the second service and the virtual machine. a connection is established between the first service and the second service. a command is transmitted associated with the controlling of the robot from the second service to the first service based on the authentication of the virtual machine. the command is associated with a corresponding command identifier for identifying a type of the command. the command is then executed for controlling the robot.