TEACHING METHOD

Organization Name

SAMSUNG ELECTRONICS CO., LTD.

Inventor(s)

Kisub Yoon of Cheonan-si (KR)

Dongpil Kang of Cheonan-si (KR)

Kiyong Lee of Suwon-si (KR)

Chunghyuk You of Yongin-si (KR)

TEACHING METHOD - A simplified explanation of the abstract

This abstract first appeared for US patent application 18349668 titled 'TEACHING METHOD

Simplified Explanation

The patent application describes a teaching method that involves a vehicle traveling along a rail to reach specific loading/unloading positions adjacent to seating surfaces with QR codes. The method includes acquiring images of the reference and target seating surfaces at their respective positions, and comparing these images to determine teaching relative values in the X and Y directions.

• The teaching method involves a vehicle traveling on a rail to specific loading/unloading positions.
• The reference and target seating surfaces have QR codes displayed on them.
• Images of the reference and target seating surfaces are acquired at their respective positions.
• The acquired images are compared to determine teaching relative values in the X and Y directions.

Potential applications of this technology:

• Automated teaching method for vehicles in transportation systems.
• Efficient loading/unloading of passengers or cargo.
• Enhanced accuracy in positioning vehicles using QR codes.

Problems solved by this technology:

• Ensures precise arrival of vehicles at specific loading/unloading positions.
• Reduces human error in vehicle positioning.
• Facilitates automated teaching of vehicles in transportation systems.

Benefits of this technology:

• Improved efficiency and accuracy in vehicle positioning.
• Time-saving in loading/unloading processes.
• Enhanced safety and reliability in transportation systems.

Original Abstract Submitted

In a teaching method, a vehicle, which travels along a traveling rail, is allowed to arrive at a reference loading/unloading position adjacent to a reference seating surface having a reference QR code displayed thereon. A first image corresponding to the reference seating surface is acquired at the reference loading/unloading position. The vehicle, which further travels along the traveling rail, is allowed to arrive at a target loading/unloading position adjacent to the target seating surface having a target QR code displayed thereon. A second image corresponding to the target seating surface is acquired at the target loading/unloading position. The first image and the second image are compared with each other to acquire n X-axial directional teaching relative value and a Y-axis directional teaching relative value.