design analyses, modelling and simulation, using tools such as DOORS, Siemens Polarion, Enterprise Architect, MATLAB and/or Simulink and design methodologies such as SysML A degree or equivalent qualification in a relevant Scientific/Engineering subject (e.g., Systems Engineering, Electronic Engineering, Physics or Mathematics) Desirable Experience in integration, test More ❯
and their systems operation and key performance parameters Ability to analyse system and aircraft performance Experienced with logical and mathematical based engineering tools (e.g. SysML, Matlab/Simulink, Cameo System Modeller) Understanding of Model Base System Engineering principles and toolsets If this all sounds like something you will be interested More ❯
and their systems operation and key performance parameters Ability to analyse system and aircraft performance Experienced with logical and mathematical based engineering tools (e.g. SysML, Matlab/Simulink, Cameo System Modeller) Understanding of Model Base System Engineering principles and toolsets If this all sounds like something you will be interested More ❯
and their systems operation and key performance parameters Ability to analyse system and aircraft performance Experienced with logical and mathematical based engineering tools (e.g. SysML, Matlab/Simulink, Cameo System Modeller) Understanding of Model Base System Engineering principles and toolsets If this all sounds like something you will be interested More ❯
and their systems operation and key performance parameters Ability to analyse system and aircraft performance Experienced with logical and mathematical based engineering tools (e.g. SysML, Matlab/Simulink, Cameo System Modeller) Understanding of Model Base System Engineering principles and toolsets If this all sounds like something you will be interested More ❯
and their systems operation and key performance parameters Ability to analyse system and aircraft performance Experienced with logical and mathematical based engineering tools (e.g. SysML, Matlab/Simulink, Cameo System Modeller) Understanding of Model Base System Engineering principles and toolsets If this all sounds like something you will be interested More ❯
their systems operation and key performance parameters Ability to analyse system and aircraft performance Ideally experienced with logical and mathematical based engineering tools (e.g. SysML, Matlab/Simulink, Cameo System Modeller) Understanding of Model Base System Engineering principles and toolsets Benefits: You'll receive benefits including a competitive pension scheme More ❯
engineering (MBSE). Clear communicator. Experience of automotive/aerospace systems engineering processes. Working knowledge of hardware, systems, and software development tools, such as: SysML MATLAB/Simulink Embedded Coders DOORS Strong problem-solving skills. This role is based in Milton Keynes and can be completed as a hybrid role More ❯
Bristol, Gloucestershire, United Kingdom Hybrid / WFH Options
AtkinsRéalis
CEng, CSEP. The use of MBSE approaches and tools (e.g. Sparx EA, Cameo). Knowledge of modelling languages and architecture frameworks, e.g., UML/SysML, ArchiMate, TOGAF, MODAF. Requirements engineering and its link to verification and validation. Knowledge of engineering lifecycles, their selection, tailoring and implementation. Working on the integration More ❯
Portsmouth, Hampshire, South East, United Kingdom Hybrid / WFH Options
JAM Recruitment Ltd
and ISO 12207) Model Based Systems Engineering (MBSE) and software architectural modelling in appropriate frameworks and languages (e.g. NAF/UAF/TOGAF/SysML/UML) using a dedicated tool-set such as CATIA Magic (Cameo), Sparx EA, or equivalent Requirements definition and management using an appropriate tool-set More ❯
Portsmouth, yorkshire and the humber, united kingdom Hybrid / WFH Options
JAM Recruitment Ltd
and ISO 12207) Model Based Systems Engineering (MBSE) and software architectural modelling in appropriate frameworks and languages (e.g. NAF/UAF/TOGAF/SysML/UML) using a dedicated tool-set such as CATIA Magic (Cameo), Sparx EA, or equivalent Requirements definition and management using an appropriate tool-set More ❯
Systems Engineer The use of MBSE approaches and tools (e.g. Sparx EA, Cameo). Knowledge of modelling languages and architecture frameworks, e.g., UML/SysML, ArchiMate, TOGAF, MODAF. Requirements engineering and its link to verification and validation. Knowledge of engineering lifecycles, their selection, tailoring and implementation. Working on the integration More ❯
Systems Engineer The use of MBSE approaches and tools (e.g. Sparx EA, Cameo). Knowledge of modelling languages and architecture frameworks, e.g., UML/SysML, ArchiMate, TOGAF, MODAF. Requirements engineering and its link to verification and validation. Knowledge of engineering lifecycles, their selection, tailoring and implementation. Working on the integration More ❯
Systems Engineer The use of MBSE approaches and tools (e.g. Sparx EA, Cameo). Knowledge of modelling languages and architecture frameworks, e.g., UML/SysML, ArchiMate, TOGAF, MODAF. Requirements engineering and its link to verification and validation. Knowledge of engineering lifecycles, their selection, tailoring and implementation. Working on the integration More ❯
Systems Engineer The use of MBSE approaches and tools (e.g. Sparx EA, Cameo). Knowledge of modelling languages and architecture frameworks, e.g., UML/SysML, ArchiMate, TOGAF, MODAF. Requirements engineering and its link to verification and validation. Knowledge of engineering lifecycles, their selection, tailoring and implementation. Working on the integration More ❯
Systems Engineer The use of MBSE approaches and tools (e.g. Sparx EA, Cameo). Knowledge of modelling languages and architecture frameworks, e.g., UML/SysML, ArchiMate, TOGAF, MODAF. Requirements engineering and its link to verification and validation. Knowledge of engineering lifecycles, their selection, tailoring and implementation. Working on the integration More ❯
Systems Engineer The use of MBSE approaches and tools (e.g. Sparx EA, Cameo). Knowledge of modelling languages and architecture frameworks, e.g., UML/SysML, ArchiMate, TOGAF, MODAF. Requirements engineering and its link to verification and validation. Knowledge of engineering lifecycles, their selection, tailoring and implementation. Working on the integration More ❯
Systems Engineer The use of MBSE approaches and tools (e.g. Sparx EA, Cameo). Knowledge of modelling languages and architecture frameworks, e.g., UML/SysML, ArchiMate, TOGAF, MODAF. Requirements engineering and its link to verification and validation. Knowledge of engineering lifecycles, their selection, tailoring and implementation. Working on the integration More ❯
Systems Engineer The use of MBSE approaches and tools (e.g. Sparx EA, Cameo). Knowledge of modelling languages and architecture frameworks, e.g., UML/SysML, ArchiMate, TOGAF, MODAF. Requirements engineering and its link to verification and validation. Knowledge of engineering lifecycles, their selection, tailoring and implementation. Working on the integration More ❯
competing demands. Strong problem-solving skills. System-level thinking and the ability to drive solutions through investigation. Experience with system design languages (e.g., UML, SysML) and techniques (e.g., use case analysis, trade studies). Familiarity with producing estimates for bid activities. Knowledge of mechanical and environmental qualification processes. If you More ❯
their systems operation and key performance parameters Familiarity with modelling/virtual reality toolsets Ideally experienced with logical and mathematical based engineering tools (e.g. SysML, Matlab/Simulink, Cameo System Modeller) Benefits: You'll receive benefits including a competitive pension scheme, enhanced annual leave allowance and a Company contributed Share More ❯
degree level (or equivalent experience) in a STEM discipline or equivalent experience Desirable skills: Experience using high-level design methodologies (e.g. UAF, NAF, TOGAF, SysML, UML) with a focus on requirements integration Awareness of the defence industry landscape and current UK government strategic priorities Benefits: As well as a competitive More ❯
Stevenage, England, United Kingdom Hybrid / WFH Options
Capgemini Engineering
ambiguity & uncertainty. Knowledge and experience of certification is an advantage. Knowledge of ARP4754A and DO178C is an advantage. Knowledge and experience of MBSE and SysML modelling languages is an advantage. Don’t meet every single requirement? Studies have shown women and people of colour are less likely to apply to More ❯
stevenage, east anglia, united kingdom Hybrid / WFH Options
Capgemini Engineering
ambiguity & uncertainty. Knowledge and experience of certification is an advantage. Knowledge of ARP4754A and DO178C is an advantage. Knowledge and experience of MBSE and SysML modelling languages is an advantage. Don’t meet every single requirement? Studies have shown women and people of colour are less likely to apply to More ❯
thinking - Ability to spot areas of concern, investigate and drive to a solution - ask the right questions. - Experience of system design languages (e.g. UML, SysML), and techniques (e.g. use case analysis, trade studies) - Experience in producing estimates for bid activities - Knowledge of mechanical and environmental qualification processes EEO Statement Viasat More ❯