Functionality, Dynamics and Operational Processes
Multidisciplinary design of software, system architectures and procedures,
which result in functionalities, dynamics and operational processes (see 1),
as required in their application contexts.
Achievement of dynamic performance (see 2) and constraint satisfaction (see 3),
for application scenarios and operating conditions (see 4)
which may be highly demanding, uncertain and variable.
Solutions, innovations and enhancements for
• products and services
• production and services-delivery
• plant and infrastructure
• equipment and vehicles
Fulfilment of challenging and nonstandard requirements
involving a wide range of application contexts, processes,
phenomena, systems, components and technologies.
1) Functionality, Dynamics and Operational Processes
• control and regulation
• coordination and synchronisation
• response to application scenarios and operating conditions (see 4)
• mode selection and transition
• monitoring, estimation and detection
• interfaces and interactions
• request handling and fulfilment
• sequencing and execution of operations/tasks
• load balancing and demand fulfilment
• routing and resource assignment
• operations planning and logistics
2) Dynamic Performance
• accuracy and precision
• capacity, productivity and throughput
• efficiency
• timeliness, rapidity and rate
• operating range and flexibility
3) Constraint Satisfaction
• safety, protection and integrity
• stability and continuity
• correctness and consistency
• robustness to uncertainty/variability
• risk minimisation and limitation
4) Application Scenarios and Operating Conditions
• requests and inputs
• demand and load
• interfaces, elements and configurations (of application contexts)
• properties and characteristics (of elements, components, systems)
• operational events
• environmental influences
• disturbances and faults
5) Qualifications
• PhD in Systems Engineering (Control Design)
• Bachelor of Engineering (Electrical and Electronic)
• Bachelor of Science (Physics)