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Abstract | Moving to custom devices, especially for personal health care, the full design flow of applications needs to be redesigned. One fundamental part of the devices life cycle is maintenance, mainly regarding the software. Software development methodologies provide design flows that can accommodate specification changes such as addition of new features and adaptation to new technologies some time after software has been released. However, these are thought for applications in which changes can be made by using a typical procedure that consists of stopping the system, loading the new program and restarting the system with the new program. This approach is not valid for applications that are meant to run non-stop, such as health care systems. For these applications, there is no solution to on-the-fly updating that is language-, platform- and application domain-independent: due to the complexity of the problem, existing approaches provide solutions to eased problems by narrowing the problem space to some domains of applications. This master thesis explores the problem of on-the-fly programming of embedded systems with the goal of providing general methodologies for enabling on-the-fly programming of safety-critical embedded systems |
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