CONTEXT-AWARE AUGMENTATION OF DIGITAL THREE-DIMENSIONAL MODEL

Organization Name

international business machines corporation

Inventor(s)

Saraswathi Sailaja Perumalla of Visakhapatnam (IN)

Sarbajit K. Rakshit of Kolkata (IN)

Tushar Agrawal of West Fargo ND (US)

Raghupatruni Nagesh of Visakhapatnam (IN)

CONTEXT-AWARE AUGMENTATION OF DIGITAL THREE-DIMENSIONAL MODEL - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240160183 titled 'CONTEXT-AWARE AUGMENTATION OF DIGITAL THREE-DIMENSIONAL MODEL

Simplified Explanation

The computer-implemented method described in the abstract involves analyzing a 3D object model, sensor information, and environmental parameters to determine surface contour, power requirements, and power generation capabilities using algae-based power. The method includes augmenting the model with microfluidic circuitry for power generation, printing the object and circuitry, and supplying algae for power generation.

• Surface contour analysis of 3D object
• Determination of power requirements and algae-based power generation capabilities
• Augmentation of model with microfluidic circuitry for power generation
• Printing of 3D object and microfluidic circuitry
• Supplying algae for power generation

Potential Applications

The technology could be applied in various fields such as:

• Environmental monitoring
• Agriculture
• Robotics

Problems Solved

This technology addresses issues related to:

• Power generation for remote or inaccessible locations
• Sustainable energy sources
• Integration of sensors into 3D objects

Benefits

The benefits of this technology include:

• Reduced reliance on traditional power sources
• Increased flexibility in deploying sensor-equipped objects
• Environmental sustainability

Potential Commercial Applications

Potential commercial applications of this technology could include:

• Smart agriculture solutions
• Environmental monitoring devices
• Autonomous robotics

Possible Prior Art

One possible prior art could be the use of microfluidic circuitry for power generation in 3D objects. Another could be the integration of sensors and power sources in 3D printing technology.

Unanswered Questions

How does the algae-based power generation compare to traditional power sources in terms of efficiency and reliability?

The article does not provide a comparison between algae-based power generation and traditional power sources in terms of efficiency and reliability. Further research or testing may be needed to determine the effectiveness of algae-based power in practical applications.

What are the potential limitations or challenges in implementing microfluidic circuitry for power generation on 3D objects?

The article does not address potential limitations or challenges in implementing microfluidic circuitry for power generation on 3D objects. Factors such as scalability, cost, and maintenance requirements could be important considerations in real-world applications.

Original Abstract Submitted

a computer-implemented method for augmentation and printing of a three-dimensional (3d) object is provided. the computer-implemented method includes analyzing a model of the 3d object, information of sensors for deployment on the 3d object and environmental parameters of a location where the 3d object is deployable and determining, from results of the analyzing, a surface contour of the 3d object, power requirements of the sensors and power levels that can be generated at the location by algae-based power generation. the computer-implemented method further includes augmenting the model with microfluidic circuitry models for supporting the algae-based power generation on the surface contour to meet the power requirements to an extent possible given the power levels, printing the 3d object and microfluidic circuitry according to the model and the microfluidic circuitry models and supplying the microfluidic circuitry with algae for the algae-based power generation.