CESAR SOBRINHO, A. A. C.; http://lattes.cnpq.br/5640399839698012; CÉSAR SOBRINHO, Álvaro Álvares de Carvalho.
Resumo:
Embedded systems are part of the general population’s everyday life, from domestic, to industrial and governmental environments. The use of embedded systems has grown as a result, for example, of the dissemination of wireless communication, low power and portable electronic devices, and software embedded into electronic equipments. Embedded software can be designed to compose from simple embedded systems used to control domestic equipments, to safety-critical systems. The most complex an embedded system is, the more adverse situations are likely to occur, leading to financial risks, safety risks, among other. In safety-critical embedded systems (e.g., medical, avionics, and aerospace), failures may result in natural disasters and injuries to the population. Given this scenario, systemsmust be developedinorder tobesafeand effective, andto conform to regulatory requirements. Therefore, an important challenge that raises from this situation is to develop systems according to their requirements specification, and at the same time, being reliable and certifiable. This work is applied in the context of safety-critical embedded systems. A method to develop and certify software embedded in these systems is proposed. The method is based on Coloured Petri Nets (CPN) and assurance cases represented with the Goal Structuring Notation (GSN). Concepts related to prescriptive (process standards) and goal based (product features) certification processes are integrated during the development process. Moreover, the requirements specification and regulatory andproduct- specificrequirementstraceability,alongwiththeverificationofconformanceto regulatory requirements, is carried out through assurance cases. Finally, a case study on an Electrocardiography (ECG) system configured as a cardiac monitor is presented. The case study is useful as an implementation scenario and experimental evaluation of the method.