20240049627. IMPROVED OPERATION FOR A ROBOTIC WORK TOOL simplified abstract (HUSQVARNA AB)

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IMPROVED OPERATION FOR A ROBOTIC WORK TOOL

Organization Name

HUSQVARNA AB

Inventor(s)

Adam Tengblad of Huskvarna (SE)

Arvi Jonnarth of Jönköping (SE)

Herman Jonsson of Huskvarna (SE)

[[:Category:Adam Sax�n of Jönköping (SE)|Adam Sax�n of Jönköping (SE)]][[Category:Adam Sax�n of Jönköping (SE)]]

Jakob Malm of Jönköping (SE)

[[:Category:Göran Cal�s of Forserum (SE)|Göran Cal�s of Forserum (SE)]][[Category:Göran Cal�s of Forserum (SE)]]

Elias Josefsson of Jönköping (SE)

Victor Ahlm of Skellefteå (SE)

Maria Strahl of Huskvarna (SE)

IMPROVED OPERATION FOR A ROBOTIC WORK TOOL - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240049627 titled 'IMPROVED OPERATION FOR A ROBOTIC WORK TOOL

Simplified Explanation

The abstract describes a robotic work tool system that includes a server, a user device, and one or more robotic work tools. The server has a controller that performs several functions, including defining the extent and features of a work area, receiving user requirements from the user device, and generating operating instructions for the selected robotic work tools.

  • The system includes a server, user device, and robotic work tools.
  • The server's controller defines the work area and its features.
  • User requirements are received from the user device.
  • Requirements are defined based on the work area extent, features, and user requirements.
  • Robotic work tools are selected based on their capabilities matching the requirements.
  • Operating instructions are generated for the selected robotic work tools.
  • The operating instructions are transmitted to the selected robotic work tools.

Potential Applications:

  • Industrial automation: The system can be used in manufacturing plants to automate various tasks, such as assembly, welding, or material handling.
  • Construction: The system can assist in tasks like bricklaying, concrete pouring, or painting in construction sites.
  • Agriculture: The system can be employed in tasks like planting, harvesting, or crop monitoring in agricultural settings.
  • Healthcare: The system can assist in medical procedures, such as surgery or patient care, by providing precise and controlled movements.

Problems Solved:

  • Efficiency: The system automates manual tasks, reducing the time and effort required for completion.
  • Precision: Robotic work tools can perform tasks with high accuracy and repeatability, ensuring consistent results.
  • Safety: By replacing human workers in potentially hazardous environments, the system reduces the risk of injuries or accidents.

Benefits:

  • Increased productivity: The system can work continuously without fatigue, leading to higher output and efficiency.
  • Cost savings: Automation reduces labor costs and minimizes errors, resulting in overall cost savings.
  • Flexibility: The system can adapt to different work areas and requirements, providing versatility in various industries.
  • Improved quality: The precision and consistency of robotic work tools enhance the quality of the final product or service.


Original Abstract Submitted

a robotic work tool system () comprising a server (), a user device () and one or more robotic work tools (--), the server comprising a controller (), the controller () being configured to: define () an extent of a work area (); define () features of the work area; receive at least one user requirement from the user device (); define () requirements based on the extent of the work area, the features of the work area and the user requirement; select () one or more of the one or more robotic work tools () based on capabilities of the robotic work tools () by matching the requirements to the capabilities of the robotic work tools; generate () operating instructions for the selected robotic work tools (); and to transmit () the operating instructions to the selected robotic work tools ().