— 3+ year`s experience in software testing
— Strong knowledge of software QA methodologies, tools, and processes
— Experience in writing clear, concise, and comprehensive test plans and test cases
— Awareness of the Software Development Life Cycle
— Ability to understand the business behind the application
— Ability to understand the testing strategy
— Ability to communicate with business/non-technical staff
— Good English speaking, writing, and reading is essential (upper-Intermediate)
— Experience: Manual/auto testing
— Specific knowledge/skills: Python
— Preferred Education: Information Technology
— Experience in UI programming
— Build a local & international career
— Be a part of future technologies
— Use Learning and development system
— Learn & use English
The Test Engineer is responsible for quality control of the software through testing design, planning, scripting and execution of software tests. The test engineer performs the testing of the software according to the project plan.
— Estimate test tasks and performs the testing of software according to the project plan
— Prepare test plans based on software requirements
— Prepare and executes test cases and scenarios
— Documents test reports on manual testing & auto testing
— Registers defects in the work item tracking system
— Write scripts for auto testing
Materialise Medical, which has pioneered many of the leading medical applications of 3D printing, enables researchers, engineers and clinicians to revolutionize innovative patient-specific treatment. Materialise Medical’s open and flexible platform of software and services, Materialise Mimics, form the foundation of certified Medical 3D Printing, in clinical as well as research environments, offering virtual planning software tools, 3D-printed anatomical models, and patient-specific surgical guides and implants. For additional information, please visit: www.materialise.com/medical.
Mitral regurgitation affects more than 4 million Americans — nearly one in 10 people aged 75 or older. Currently the primary option for the disease is open-heart surgery, which holds extremely high risks for patients in this age group and can prevent treatment in many cases. Non-invasive methods are entering the market to address this need and physicians are recognizing the importance of pre-surgical planning for this complex disease. Entering their pre-market phase of development, Materialise is working with select U.S. and EU hospital partners to validate the importance of accurate 3D modeling to help physicians plan complex transcatheter mitral valve replacement & repair (TMVR/r) procedures.
The pre-market phase will assess the importance of accurate 3D modeling for robust, repeatable patient planning. Materialise has partnered with Henry Ford Health Systems to bring Henry Ford’s validated, patented, mitral planning workflow, developed in Materialise’s Mimics Innovation Suite to a broader TMVR Market.
Materialise software enables customized workflows through scripting capabilities to streamline processes. Organizations participating in the Mitral Valve Planning research program will leverage Henry Ford’s validated workflow in Materialise’s Mimics Innovation Suite software where virtual 3D anatomical models are the basis for assessing left ventricular outflow tract obstructions (LVOTO) and other elements for planning complex mitral valve procedures.