Add to ORKGA non-contact reverse engineering technique based on ultrasonic sensors for 3D surface profiling is prresented and applied to proof-of-concept samples. Reverse Engineering (RE) is the process of analysing a subject system or product to identify its components and their interrelationships and create representations of the system or product in another form or at a higher level of abstraction. In production engineering, RE is a term used to describe the creation of a digital dataset based on a physical representation, inverting the regular process of going from an idea through the CAD/CAM construction to a product. There are several ways of digitising a physical representation (object). The main distinction is in the use of a contact or non co...
In this paper, the development and implementation of a robotic system for non-contact ultrasonic (UT...
In this paper, the development and implementation of a robotic system for non-contact ultrasonic (UT...
In this paper, the development and implementation of a robotic system for non-contact ultrasonic (UT...
A non-contact reverse engineering technique based on ultrasonic sensors for 3D surface profiling is ...
A non-contact reverse engineering technique based on ultrasonic sensors for 3D surface profiling is ...
Reverse engineering (RE) is the process of analysing a subject system or product to identify its com...
Reverse engineering (RE) is the process of analysing a subject system or product to identify its com...
Reverse engineering (RE) is the process of analysing a subject system or product to identify its com...
Reverse engineering (RE) is the process of analysing a subject system or product to identify its com...
Reverse engineering (RE) is the process of analysing a subject system or product to identify its com...
Reverse engineering (RE) is the process of analysing a subject system or product to identify its com...
Reverse Engineering (RE) can be defined as the process of duplicating an existing part, subassembly ...
Reverse Engineering (RE) can be defined as the process of duplicating an existing part, subassembly ...
Reverse Engineering (RE) can be defined as the process of duplicating an existing part, subassembly ...
Reverse engineering (RE) is generally defined as a process of analysing an object or e...
In this paper, the development and implementation of a robotic system for non-contact ultrasonic (UT...
In this paper, the development and implementation of a robotic system for non-contact ultrasonic (UT...
In this paper, the development and implementation of a robotic system for non-contact ultrasonic (UT...
A non-contact reverse engineering technique based on ultrasonic sensors for 3D surface profiling is ...
A non-contact reverse engineering technique based on ultrasonic sensors for 3D surface profiling is ...
Reverse engineering (RE) is the process of analysing a subject system or product to identify its com...
Reverse engineering (RE) is the process of analysing a subject system or product to identify its com...
Reverse engineering (RE) is the process of analysing a subject system or product to identify its com...
Reverse engineering (RE) is the process of analysing a subject system or product to identify its com...
Reverse engineering (RE) is the process of analysing a subject system or product to identify its com...
Reverse engineering (RE) is the process of analysing a subject system or product to identify its com...
Reverse Engineering (RE) can be defined as the process of duplicating an existing part, subassembly ...
Reverse Engineering (RE) can be defined as the process of duplicating an existing part, subassembly ...
Reverse Engineering (RE) can be defined as the process of duplicating an existing part, subassembly ...
Reverse engineering (RE) is generally defined as a process of analysing an object or e...
In this paper, the development and implementation of a robotic system for non-contact ultrasonic (UT...
In this paper, the development and implementation of a robotic system for non-contact ultrasonic (UT...
In this paper, the development and implementation of a robotic system for non-contact ultrasonic (UT...