새로운 프로그램을 위한 혁신적이며, 협업이 가능한 동기화된 프로그램 관리
Alpha Omega develops technological solutions designed to improve the quality of patient care in the areas of neurology and neurosurgery, by providing state-of-the-art tools for those who work to reveal the mystery of the brain and find treatments for neurological disorders.
Based in Israel, Alpha Omega is in the brain surgery business, developing products such as the Neuro Omega, an advanced microelectrode recording (MER) system used in neurosurgery. The system provides electrophysiological recording and deep brain stimulation (DBS) capabilities to help surgical teams locate precise targets in the brain for implanting electrodes that carry small electrical impulses. The pulses help treat movement disorders such as Parkinson’s disease. Alpha Omega’s systems are in use at more than 500 hospitals and research centers throughout the world.
Developing the new version of the Neuro Omega was the collaborative effort of an interdisciplinary team comprised of product experts and designers from Alpha Omega, designers from Alon Razgour Design Studio and mechanical engineers from GEOMATRIX smart engineering solutions. The entire project was led by Luai Asfour, development manager at Alpha Omega. The “common language” used by all three companies throughout the development process was Solid Edge® software – the most complete hybrid 2D/3D CAD system that uses synchronous technology for accelerated design, faster change, and improved imported re-use – from product lifecycle management (PLM) specialist Siemens Digital Industries Software.
“We wanted to transform a somewhat dated design to a new system with new features; creating an advanced medical look, with excellent fit, form and function to outpace our competitors in the micro recording business,” says Imad Younis, Alpha Omega’s president.
“Initially, the focus was on achieving a useful, basic design, enabling doctors to easily use the technology in hospital operating rooms,” says Alon Razgour, president of Alon Razgour Design Studio. “The design had to accommodate the routing of the system’s many cable inputs and outputs, as well as ease of use for the doctors using it. Yet, during our research, something gave us the haunting feeling that there was something we were missing.”
That “something” was that the existing product was somewhat unwieldy from a demonstration and marketing standpoint. Conducting product demonstrations was time-consuming because the system contained so many bulky components that all had to be shipped, which could take up to four days. The sales representative had to supervise the loading, receiving, pickup and transport of the system to the demonstration location for assembly, which took even more time. “It was clear that the time it took to transport the Neuro Omega system for demonstration purposes was obstructing the product’s success,” says Oren Gargir, Neuro Omega product manager.
Razgour points out, “This realization led us to redesign the product from its core, even before we made any design changes with regard to the product’s usability and functionality.”
The development team’s vision was to recreate the Neuro Omega as a system that can be used in the operating room (OR) on a designated cart, as well as taken onto a plane by a sales representative, thereby eliminating shipping of separate components and reducing the available time between demos. “Keeping in mind that our goal is to have the same product serve both as the demonstration machine and as the final product to be sold to the hospital, we stripped the system from its monitors, speakers and computers and extracted the product’s main core,” says Razgour. “We proceeded by placing all the internal electronics and connectors in the Solid Edge virtual space, crowding them together without a defined boundary. Then we experimented with positioning the components in search of the optimal configuration.”
A stand-alone unit design soon emerged; ready to be connected to generic computers, monitors and speakers for use, either during sales demonstrations or in the OR. The system is mounted onto a cart and includes all the components necessary for operational use.
In designing the system’s fully assembled state, the main focus was the multiple probes connecting the patient to the machine, as well as the probes connecting the machine to other instruments that process information arriving from the Neuro Omega. The design addresses these needs with the machine’s diamond-like shape, giving it two front facets, both with screens and plug-in hubs. Each surface faces the area in the OR relevant to its role; one faces the patient’s bed and the other away from it.
The GEOMATRIX, Razgour and Alpha Omega team designed the Neuro Omega not only for Alpha Omega, but for use by four different types of users including the assembler of the machine, the person who demonstrates the machine to prospective customers, the physician in the OR, as well as the person who maintains it. “We achieved all of it, without having to compromise the design in any way,” says Razgour.
He feels that Solid Edge is ideal for industrial design. “Designers need to experiment or ‘play’ with things like composition, morphology, shaping, styling, lines and patterns,” Razgour says. “We need to explore various aesthetic options that convey different emotional experiences. The great advantage of using Solid Edge is in the possibilities you can try out, by changing and rearranging aspects of the design. You can make swift adjustments in surfaces and volumes, with an ease that resembles playing with modeling clay – giving you immediate feedback to assist in decision-making. This freedom makes Solid Edge especially designer-friendly.”
“Solid Edge gives you a lot of flexibility,” says Aviv Antebi, CEO of GEOMATRIX. “In the past, with other systems, the bottleneck was the software. Just to make a simple change required us to think about using the software instead of just making the change. Using Solid Edge, you don’t have to think about how to use the software to make a change; you just do it.”
The Neuro Omega development team also had to make sure the system could comply with electromagnetic compatibility (EMC) testing requirements. “Reducing the size of the electronic cards system and components required us to conduct thermal testing to ensure the unit won’t overheat,” says Gargir.
Antebi adds, “Working closely with the development team, our engineers mapped the system properties and specifications, which allowed us to analyze the technological challenges we faced in-depth.”
The next phase was the most critical: understanding the engineering needs and design requirements. “Without this step, we were like a marathon runner who does not know the race track,” says Antebi.
“This step drew upon our development engineers’ experience and analytical ability. We worked on each assemblage separately and built a number of concepts schematically, each of which had to correspond to the design while also remaining fully functional and usable.
“One of the things that made our job easier in working with Solid Edge was the ability to change parts quickly in the assembly environment, which enabled us to see the results of product changes easily without the need for complicated, time-consuming editing,” says Antebi. “The design challenges required pushed us to stretch the Solid Edge sheet metal environment almost to the limit, in order to build unique forms. This was an extraordinary achievement.”