Keywords
Skills
Claim
"My customers manufacture safety-critical products, so there must be no failures: for more than 20 years, I have been protecting complex, electromechanical systems and IT applications from errors through structured requirements management and validated QA and test procedures with a forensic claim.
Quality is also my top priority in development, integration, and production processes: I enable manufacturers and suppliers to do this methodically and by acting on their own - with great success, especially in recovery projects."
Main focus
Standards
ISO/IEC 14977 Syntactic Meta Language
ISO/IEC 15504 Software Process Improvement and Capability Determination (SPICE)
ISO/IEC 26262 Functional Safety
ISO/IEC 15288 Systems- and Software Lifecycle Processes
ISO/IEC 42010 Systems- and Software Engineering
ISO/IEC 19514 System Modelling Language (SYSML)
ISO/PAS 19450 Automation Systems and Integration (Object Process Methodology)
ISO 14973 Risk Management
Methods
Scrum, Six Sigma, APQP, FMEA, CAPA, RCA, GxP, V-Model, Waterfall-Model
Frameworks
BPMN, SysUML, MBSE, SPICE, MSPICE, ASPICE, CMMI
Tools
CM Synergy, IBM Enterprise Architect, DOORS, MINITAB, RStudio, ProM 6.9
Roles
Requirements manager, requirements writer, technical writer, specification writer, system designer, system architect, business and system analyst, SME (requirements, systems engineering, architectures, V&V), verification and validation engineer, trainer and coach, Six Sigma Black Belt
Industry sectors
Automotive industry, medical technology, mechanical engineering, public service
Summary
Derivation, decomposition and budgeting of system and customer requirements in architecture descriptions and design features
Definition of verification criteria and test methods for requirements
Definition of record templates for requirements, architecture descriptions, user stories and verification criteria Training on the topics of requirements, architecture descriptions, user stories and verification criteria
Evaluation of changes to requirements and architecture
Implementation of reviews (inspections) of architectures and requirements Ensuring the completeness and traceability of architecture descriptions and requirements
Ensuring that functional safety requirements are taken into account Confirmation of test methods and validation methods through measurement system analyzes
Definition of processes at the organizational level and for product creation Training courses on the subject of process management and problem-solving methods
Creation of CAPA proposals based on statistical evaluations of the error rates through market observation and observation of trends
Comprehensive cause analysis and problem solving using Six Sigma methodology
Application of statistical methods up to data science approaches Interdisciplinary cooperation with the product and process development, production and marketing departments as well as the management
nitiation of process optimization internally and at suppliers Implementation of supplier audits and workflow analyzes
Requirements analysis for processes with regard to the expected target values (KPI) for e.g. statistics, injection molding processes, turning and milling processes, assembly processes, welding processes, derived from the construction / requirements process
Creation of test and control plans (APQP) Risk analysis for the processes through process FMEAs and their flow back into the requirements analysis Evaluation of the test methods through risk analyzes
Definition of test methods Creation of flow charts Planning and implementation of measurement system analyzes (MSA) to ensure the correctness (accuracy), precision (repeatability and reproducibility), linearity and robustness of the test methods for various industrial test processes such as leakage tests, design features (lengths, diameters, surfaces, etc.), visual tests, Laboratory analyzes Preparation of extensive statistics such as ANOVA, MSA, regression analyzes, design of experiments, machine learning
"My customers manufacture safety-critical products, so there must be no failures: for more than 20 years, I have been protecting complex, electromechanical systems and IT applications from errors through structured requirements management and validated QA and test procedures with a forensic claim.
Quality is also my top priority in development, integration, and production processes: I enable manufacturers and suppliers to do this methodically and by acting on their own - with great success, especially in recovery projects."
Main focus
- Capture and translation of functional and safety-critical system requirements into standardized architecture and design descriptions
- Development, optimization, and realignment of processes in requirements and quality management as well as in the validation of systems
- Evaluation of requirements changes and design decisions with the assurance of requirements traceability
Standards
ISO/IEC 14977 Syntactic Meta Language
ISO/IEC 15504 Software Process Improvement and Capability Determination (SPICE)
ISO/IEC 26262 Functional Safety
ISO/IEC 15288 Systems- and Software Lifecycle Processes
ISO/IEC 42010 Systems- and Software Engineering
ISO/IEC 19514 System Modelling Language (SYSML)
ISO/PAS 19450 Automation Systems and Integration (Object Process Methodology)
ISO 14973 Risk Management
Methods
Scrum, Six Sigma, APQP, FMEA, CAPA, RCA, GxP, V-Model, Waterfall-Model
Frameworks
BPMN, SysUML, MBSE, SPICE, MSPICE, ASPICE, CMMI
Tools
CM Synergy, IBM Enterprise Architect, DOORS, MINITAB, RStudio, ProM 6.9
Roles
Requirements manager, requirements writer, technical writer, specification writer, system designer, system architect, business and system analyst, SME (requirements, systems engineering, architectures, V&V), verification and validation engineer, trainer and coach, Six Sigma Black Belt
Industry sectors
Automotive industry, medical technology, mechanical engineering, public service
Summary
Derivation, decomposition and budgeting of system and customer requirements in architecture descriptions and design features
Definition of verification criteria and test methods for requirements
Definition of record templates for requirements, architecture descriptions, user stories and verification criteria Training on the topics of requirements, architecture descriptions, user stories and verification criteria
Evaluation of changes to requirements and architecture
Implementation of reviews (inspections) of architectures and requirements Ensuring the completeness and traceability of architecture descriptions and requirements
Ensuring that functional safety requirements are taken into account Confirmation of test methods and validation methods through measurement system analyzes
Definition of processes at the organizational level and for product creation Training courses on the subject of process management and problem-solving methods
Creation of CAPA proposals based on statistical evaluations of the error rates through market observation and observation of trends
Comprehensive cause analysis and problem solving using Six Sigma methodology
Application of statistical methods up to data science approaches Interdisciplinary cooperation with the product and process development, production and marketing departments as well as the management
nitiation of process optimization internally and at suppliers Implementation of supplier audits and workflow analyzes
Requirements analysis for processes with regard to the expected target values (KPI) for e.g. statistics, injection molding processes, turning and milling processes, assembly processes, welding processes, derived from the construction / requirements process
Creation of test and control plans (APQP) Risk analysis for the processes through process FMEAs and their flow back into the requirements analysis Evaluation of the test methods through risk analyzes
Definition of test methods Creation of flow charts Planning and implementation of measurement system analyzes (MSA) to ensure the correctness (accuracy), precision (repeatability and reproducibility), linearity and robustness of the test methods for various industrial test processes such as leakage tests, design features (lengths, diameters, surfaces, etc.), visual tests, Laboratory analyzes Preparation of extensive statistics such as ANOVA, MSA, regression analyzes, design of experiments, machine learning
Project history
Certifications
Masterclass Prozessvalidierung
blaurock und philippeit
2023
Innovations Manager
WBS AG
2019
SCRUM Master
WBS AG
2019
PRINCE 2.0
WBS AG
2019
Local Availability
Open to travel worldwide
- Europa und China
- Europe and China
Youtube - Video
Die Entwicklungsqualitätssicherung von Hardware nach APQP ist eine Herausforderung.