Rapid Prototyping Machine

Posts Tagged ‘Software’

The amount of software, computation and logic embedded into the vehicle systems is increasing. Testing of complex real time embedded systems using Hardware in Loop (HIL) simulations across different vehicle platforms has been a challenge.

• 3D Picture Frame
• 3D picture/Lenticular Software
• 3D Picture Creator: Converts 2D into 3D
• Custom made picture gift

Product Description
“3D Picture Frame: EZ3D Photo Print is basically designed for those who have photo printer and digital camera, and want to do something funny and special for the photos. Indeed, it can help you easily create 3D photos with your existed normal 2D photos. You don’t even need to know anything about 3D technology. To create a 3D photo, it is as easy as “1-2-3″. Yes, just follow the “1-2-3″ steps as EZ3D Photo Print requires; anyone can easily finish a 3D photo in a few minutes.”

3D Picture Frame: EZ3D Photo Print

Product Description
Advanced manufacturing technologies (AMTs) combine novel manufacturing techniques and machines with the application of information technology, microelectronics and new organizational practices within the manufacturing sector. They include “hard” technologies such as rapid prototyping, and “soft” technologies such as scanned point cloud data manipulation. AMTs contribute significantly to medical and biomedical engineering. The number of applications is rapidly increasing, with many important new products now under development.

Advanced Manufacturing Technology for Medical Applications outlines the state of the art in advanced manufacturing technology and points to the future development of this exciting field. Early chapters look at actual medical applications already employing AMT, and progress to how reverse engineering allows users to create system solutions to medical problems. The authors also investigate how hard and soft systems are used to create these solutions ready for building. Applications follow where models are created using a variety of different techniques to suit different medical problems

• One of the first texts to be dedicated to the use of rapid prototyping, reverse engineering and associated software for medical applications
• Ties together the two distinct disciplines of engineering and medicine
• Features contributions from experts who are recognised pioneers in the use of these technologies for medical applications
• Includes work carried out in both a research and a commercial capacity, with representatives from 3 companies that are established as world leaders in the field – Medical Modelling, Materialise, & Anatomics
• Covers a comprehensive range of medical applications, from dentistry and surgery to neurosurgery and prosthetic design

Medical practitioners interested in implementing new advanced methods will find Advanced Manufacturing Technology for Medical Applications invaluable as will engineers developing applications for the medical industry. Academics and researchers also now have a vital resource at their disposal.

Advanced Manufacturing Technology for Medical Applications: Reverse Engineering, Software Conversion and Rapid Prototyping

Product Description
Advanced manufacturing technologies (AMTs) combine novel manufacturing techniques and machines with the application of information technology, microelectronics and new organizational practices within the manufacturing sector. They include “hard” technologies such as rapid prototyping, and “soft” technologies such as scanned point cloud data manipulation. AMTs contribute significantly to medical and biomedical engineering. The number of applications is rapidly increasing, with many important new products now under development.

Advanced Manufacturing Technology for Medical Applications outlines the state of the art in advanced manufacturing technology and points to the future development of this exciting field. Early chapters look at actual medical applications already employing AMT, and progress to how reverse engineering allows users to create system solutions to medical problems. The authors also investigate how hard and soft systems are used to create these solutions ready for building. Applications follow where models are created using a variety of different techniques to suit different medical problems

• One of the first texts to be dedicated to the use of rapid prototyping, reverse engineering and associated software for medical applications
• Ties together the two distinct disciplines of engineering and medicine
• Features contributions from experts who are recognised pioneers in the use of these technologies for medical applications
• Includes work carried out in both a research and a commercial capacity, with representatives from 3 companies that are established as world leaders in the field – Medical Modelling, Materialise, & Anatomics
• Covers a comprehensive range of medical applications, from dentistry and surgery to neurosurgery and prosthetic design

Medical practitioners interested in implementing new advanced methods will find Advanced Manufacturing Technology for Medical Applications invaluable as will engineers developing applications for the medical industry. Academics and researchers also now have a vital resource at their disposal.

Advanced Manufacturing Technology for Medical Applications: Reverse Engineering, Software Conversion and Rapid Prototyping

Product Description

Object-oriented methods and the automated tools and languages that support these methods are rapidly replacing structured methods, CASE tools, information engineering, and RAD approaches to improving software development productivity. How-to in approach, this book provides a guide for understanding and practicing one of the new development paradigms — the object-oriented rapid prototyper — that can produce high-quality, clearly-documented, easily-maintainable software that provides the highest possible user satisfaction with minimum total effort. Provides a fast-track explanation of what rapid prototyping really is (as opposed to the folklore of rapid prototyping); features a three-chapter, step-by-step tutorial that provides directions for developing, iterating, refining, and evolving a prototype into a deliverable software application; considers the application of the methods to the actual development of real projects. For programmers interested in object-oriented methods.

Object-Oriented Rapid Prototyping

We are a group of engineers, mechanical/industrial designers, entrepreneurs, and inventors, that have a passion of creating innovative ideas and inventions transforming them into physical reality. We start with conception sketches for visualization and help all the way through the product development cycle. We create prototypes by designing 3D CAD interactive parametric models using Solidworks, autocad and other 3D software. We can then create 3D pictures using graphic design and graphical animations(movies) so you can visualize exactly how your idea will look, work together, and function. We can then create a functional prototype using a 3D rapid prototype printer using FDM(Fused Deposited Material) out of ABS custom plastic. We can also do electrical hardware, PCB boards, and software. We are also a 3D laser scanning service bureau, using the scanner we can reverse engineer existing products or out of production parts. 3D software then digitizes it creating a 3D stl model that you can create cad models if needed, then modify them. We have connections to other professionals that we can get your product patented and protect your intellectual property. We also have a network of manufactures, factories, CNC machine shops, injection molders, and more. Let us get your ideas in your hand quickly!

Product Description
Advanced manufacturing technologies (AMTs) combine novel manufacturing techniques and machines with the application of information technology, microelectronics and new organizational practices within the manufacturing sector. They include “hard” technologies such as rapid prototyping, and “soft” technologies such as scanned point cloud data manipulation. AMTs contribute significantly to medical and biomedical engineering. The number of applications is rapidly increasing, with many important new products now under development.

Advanced Manufacturing Technology for Medical Applications outlines the state of the art in advanced manufacturing technology and points to the future development of this exciting field. Early chapters look at actual medical applications already employing AMT, and progress to how reverse engineering allows users to create system solutions to medical problems. The authors also investigate how hard and soft systems are used to create these solutions ready for building. Applications follow where models are created using a variety of different techniques to suit different medical problems

• One of the first texts to be dedicated to the use of rapid prototyping, reverse engineering and associated software for medical applications
• Ties together the two distinct disciplines of engineering and medicine
• Features contributions from experts who are recognised pioneers in the use of these technologies for medical applications
• Includes work carried out in both a research and a commercial capacity, with representatives from 3 companies that are established as world leaders in the field – Medical Modelling, Materialise, & Anatomics
• Covers a comprehensive range of medical applications, from dentistry and surgery to neurosurgery and prosthetic design

Medical practitioners interested in implementing new advanced methods will find Advanced Manufacturing Technology for Medical Applications invaluable as will engineers developing applications for the medical industry. Academics and researchers also now have a vital resource at their disposal.

Advanced Manufacturing Technology for Medical Applications: Reverse Engineering, Software Conversion and Rapid Prototyping

Product Description
Advanced manufacturing technologies (AMTs) combine novel manufacturing techniques and machines with the application of information technology, microelectronics and new organizational practices within the manufacturing sector. They include “hard” technologies such as rapid prototyping, and “soft” technologies such as scanned point cloud data manipulation. AMTs contribute significantly to medical and biomedical engineering. The number of applications is rapidly increasing, with many important new products now under development.

Advanced Manufacturing Technology for Medical Applications outlines the state of the art in advanced manufacturing technology and points to the future development of this exciting field. Early chapters look at actual medical applications already employing AMT, and progress to how reverse engineering allows users to create system solutions to medical problems. The authors also investigate how hard and soft systems are used to create these solutions ready for building. Applications follow where models are created using a variety of different techniques to suit different medical problems

• One of the first texts to be dedicated to the use of rapid prototyping, reverse engineering and associated software for medical applications
• Ties together the two distinct disciplines of engineering and medicine
• Features contributions from experts who are recognised pioneers in the use of these technologies for medical applications
• Includes work carried out in both a research and a commercial capacity, with representatives from 3 companies that are established as world leaders in the field – Medical Modelling, Materialise, & Anatomics
• Covers a comprehensive range of medical applications, from dentistry and surgery to neurosurgery and prosthetic design

Medical practitioners interested in implementing new advanced methods will find Advanced Manufacturing Technology for Medical Applications invaluable as will engineers developing applications for the medical industry. Academics and researchers also now have a vital resource at their disposal.

Advanced Manufacturing Technology for Medical Applications: Reverse Engineering, Software Conversion and Rapid Prototyping

I’m starting my own fashion line aimed at high-end boutiques. I got all these designs in my head but don’t have the software to visualize them. I’m not talking about any printing software for the shirts…just the software to make 3D designs of the shirts.

• 12 devices with prototyping functions integrate with 3.3v microcontrollers
• ANSI C programing modules included for all IC devices
• Real Time Clock, triple axis accelerometer, temperature sensor, graphs module, stereo sytem
• SD card, external Flash, navigation switch, user LEDs, user SMD prototyping area

Product Description
The RPS FM1 is a hardware and software system that can be used to build structured applications using the 12 hardware modules and software as building blocks. Application programming interfaces (API’s) are provided in C for all hardware modules. These modules allow an engineer to quickly prototype a proof of concept application using known working software and hardware.

RPS – FM1.1, Rapid Prototyping System – Function Module 1