Semiconductor industry, Texas Instruments Inc., Medical imaging equipment, and Rapid prototyping
Reducing time-to-market while increasing the rate at which new technologies are integrated into today's medical imaging systems are presenting design challenges. A difference of even a few months in the [...]
Computers in Healthcare. Nov 1989, Vol. 10 Issue 11, p35, 3 p. chart (Flow chart for rapid prototyping)
Automation, Hospital Information Systems, User Interface, Artificial Intelligence, and Prototype
One way to implement an automated hospital information system is through the use of rapid prototyping of user interfaces. Such a system can overcome one of the main problems of automation, the difference between users needs and expectations and the limitations of designed systems. Prototyping allows the problems to be worked out in a scaled-down model of the system, thereby saving considerable time and money. Artificial intelligence can be of use in a prototype system because of its noted capabilities with user interface development. The non-algorithmic nature of artificial intelligence allows it to use declarative programming to enhance user interface capabilities.
3D Systems Corp., Computer peripherals industry, 3D printing, and Rapid prototyping
The potential to build bones, organs, and tissues in only a matter of hours using 3D printing fascinates doctors, designers, and surgeons alike. Indeed, the most exciting and fastest-growing applications [...]
Speaker presentations from Medical Design's first-ever Medical Prototyping Conference, held Sept 7 and 8 in Minneapolis, are now available for download. Go to the link to http://medicaldesian.com/microsites/protovpina-conference/ Speakers page where [...]
Computers in Healthcare. Jan 1991, Vol. 12 Issue 1, p27, 2 p.
Hospital, Hospital Information Systems, Mainframe Computer, Microcomputer, Baptist Medical Center, Al Lee and Associates Inc. -- Product information, and MAGEC for PCs (Program development software) -- Usage
The Baptist Medical System serves the 739-bed Baptist Medical Center and other treatment and education facilities. The hospital has a sophisticated MIS center that has an IBM 3090 150E running MVS/XA and over 400 microcomputers. The Baptist Medical System wanted to implement a portfolio of microcomputer-based user applications that were tightly integrated with mainframe-oriented data base system. To do this, the staff decided to develop code on the microcomputer and then port it to the mainframe. Using this strategy has doubled programming productivity. MAGEC from MAGEC Software, a self-actualizing prototyping system to design and develop COBOL applications, was selected so that relatively nontechnical people could do the analysis and code generation necessary to develop full production systems. The first project done by the Baptist Medical Center was a procedure and patient scheduling system that is deemed a success.