Sprachaffin und flexibel
Prinzipiell weltweit flexibel. Favorit: Niederbayern und größerer Radius (ca. 400km)
Ziel ist die rasche Erreichung der gewünschten Qualität durch klares Erkennen von Schwachstellen und Failure-Mechanismen sowie deren effektive Behebung.
Bei Interesse: preview.tinyurl.com/CarpathianMtnBlog
Ziel ist die Einhaltung aller Spezifikationen und Schnittstellenanforderungen unter Erzielung klarer Trennung aller relevanten Verantwortlichkeiten.
Ziel war es, alle bereits bestehenden Schnittstellen unverändert zu lassen, gleichzeitig die Kundenspezifikation zu erfüllen und Überraschungen bei der Integration zu vermeiden. Das
bereits bestehende System sollte nur für unvermeidbare Anpassungen, etwa mechanischer Natur, angetastet werden.
Ziel ist es, während der Produktentwicklung nicht nennenswert aus der Zeitschiene zu fallen und ein technisch einwandfreies Produkt zu erzielen.
Ziel ist eine voll belastbare Entscheidungsgrundlage.
Product Development
Customer: Aircraft Cabin Equipment Manufacturer ? System Engineering Support
Support request for system engineering.
? System engineering support in a complex multi-LRU aircraft cabin product in
passenger use: mechanical, electrical, electronic and software components and their
multiple interfaces within the system and to the aircraft cabin as well as users and
technicians.
DO160, DO178-B, ABD100-x, D6-36440, ARINC-RS485, CAN, RS232, BITE
Customer: Equipment Manufacturer ? Data-Driven Product Development Support
Support request for development work for BLDC / PMSM motor control regarding performance
and collision detection and reaction mechanism along with documentation and verification.
? Engineering studies for optimal operation of BLDC (PMSM) motors within the
hardware environment selected for the project.
? Development of a parametrizable, highly sensitive collision detection algorithm
with extremely low CPU-load footprint.
? Verification testing and reporting as well as specification of regression test pro-
cedures for on-spec performance.
BLDC/PMSM Motor Control, PI/PID Control, Linux, bash, python, numpy, matplotlib,
BugZilla, JIRA, SVN
Technical Management
Customer: Airline Operator ? Integration of 3rd-Party Product
Support request for technical management of the exchange of a simple piece of
hardware against a 3rd-party CPU-controlled device and its integration into the
infrastructure of the receiving system.
It is the goal to keep all previously defined
interfaces intact, while at the same time meeting all specifications. Any negative
surprise at the time of first integration had to be avoided. The existing system was
not allowed to be modified except for truly unavoidable modifications like
mechanical mounting for the newly defined system.
? Deep technical analysis specific to the involved products, generation of a complete
interface control document (mechanical, electrical, data) along with corresponding
interface test procedures.
? Witnessing of product specification compliance testing as well as interface
testing. Own verification of test results deemed critical either on-site or offline in order
to shorten turnaround time and for direct reporting to the customer.
Deep Technical Analyses, Interface Control Documentation, Interface Testing,
Electronic Tests using Oscilloscopes along with specialized other Hardware and
Software, Visualization of Test Results
Customer: Airline Operator ? Technical Integration BFE Hard- and Software
Support request for technical management of high-risk integration of a central
electro-mechanical component as buyer-furnished-equipment (BFE) of one supplier
into a complex aircraft cabin element of another supplier. The target product is a
complex hardware-software hybrid product in passenger use and is governed by
aircraft certification requirements. Goal is to meet all timelines, all specifications
and all relevant interface definitions of the product while at the same time keeping
all relevant technical and warranty responsibilities clearly with each of the
respective supplying parties.
? Moderation of all technical meetings between involved stakeholders, technical
teams as well as organizational and commercial team members across companies,
continents and cultural as well as language and engineering discipline barriers.
? Reaching a detailed technical definition of the interface between regular product
and buyer-furnished-equipment (BFE).
? Generation of a set of matching product specification and interface control
documents along with a common understanding of the goal and the path.
? Arrangement of comfort reviews for definitions of comfort parameters that can
only be determined with actual hardware and software available. Similarly,
participation in safety reviews as part of the software certification activities
together with aircraft OEM representatives.
? Monitoring parts needs, deliveries, design and build status as well as software
release status.
? Verification of product performance and handling, as well as issue reporting and
issue resolution monitoring. Verification of part repairs, upgrades, software
updates.
Microsoft Office, Common Sense, CAN, RS232, ARINC-RS485, BITE, Own Toolset
for efficient Issue Tracking and Resolution
Customer: Airline Operator ? Technical Mediator Role
Support request for technical management of the exchange of one supplier of an
electro-mechanical centerpiece of a complex aircraft cabin element against another
supplier?s product. It is the goal to not lose a significant amount of time due to this
switch and achieve a technically fully acceptable product at the same time.
? Moderation of all technical communication on the personal level and in formal meetings.
? Bringing suppliers with very different cultures regarding planning, technical
understanding, ability to understand technical details from a different field than their
own and with their respective priorities, to work together across language and other
barriers, keeping everyone focused and engaged while at the same time finding,
understanding and agreeing on technical solutions to difficult problems concerning
individual features, interfaces, working principles and other.
? Driving the generation and mutual sign-off of all relevant and necessary
specification and interface control documentation.
? Issue reporting and clearing through problem reporting to supplier and
verification of technical fixes.
? Status reporting to customer along with clarifications to feed back to the
engineering and commercial teams.
? Accompanying entry into service and first time of operation until hand-off to
customer department.
Cultural and Language Barriers, Mediation between various Engineering and
Commercial Disciplines, Own Toolset for efficient Issue Tracking and Resolution
Customer: Airline Operator ? Technical Contract Management
Request for a study of the technical feasibility and related cost of a contract proposal
for the increase of visibility of operational availability of aircraft cabin elements during flight.
The goal is a complete scenario with lightest-possible impact to on-going product
development and to existing processes for administrative decision.
? Translation of contractual wording to technical and process realities during flight,
for maintenance and for administrative processes.
? Generation of a technical concept study for the generation, collection, and
evaluation of functional availablities of aircraft cabin element features:
? Which adaptation to current product development, maintenance processes and
database content would need to be carried out.
? Which requirements for the reliability and accuracy of the collected data would
need to be met in order to evaluate objectively correctly and efficiently the element
function availability.
? Cost estimates of the impact of such contracts:
? Which recurring and non-recurring additional impact would be generated.
? Which benefit would be generated, immediately and long-term.
? Presentation of results and preparation of administrative decision-making process.
Legal Wording Evaluations, Database Schemes, MRO Processes, Airline Operator
Processes, Oracle Databases, MySQL Databases, Microsoft Office
Customer: Airline Operator ? Supplier Management Product Robustness
Request for support with monitoring of supplier reliability testing of aircraft cabin
elements in passenger use including a certain amount of passenger mis-use.
Adaptations and additions to existing reliability specification documentation as well as
supplier management during product development. Goal is short development
cycles with best product performance and reliability.
? Review of and contributions to objectively verifiable product reliability specifications,
covering proper use levels along with robustness against a reasonable level of
mis-use by passengers.
? Review of supplier test orders, test setup and test procedures as well as test reports
including on-site review and verification of results, initiating adequate follow-up.
Microsoft Office, Common Sense, Mechanical Understanding, Photographical Docu-
mentation and Analysis, vlc, gimp
Research / Academia
Affiliation: Penn State University
?IceCube? Eperiment ? Postdoctoral Researcher
University Park, PA, USA
Research activities in experimental high-energy astronomy with emphasis on
detector construction and quality assurance for physics measurements as well as
astronomical research and teaching.
? Quality assurance of detector hardware through analysis of detector response to
test pulses in a dark freezer laboratory:
? Quality verification of all individual digital optical modules that together comprise
the ?IceCube? neutrino telescope, deployed to and collecting data deep within the
antarctic ice sheet.
? Development of criteria and methods to ensure that all physics-relevant module
properties of signal amplifiers and digitizing units are within useful bounds.
? Development of automated analyses, report generation as well as long-term data
storage and access, outlasting the several tens of years of projected detector
lifetime.
? Consulting function to a student team in the corresponding software project.
? Literature studies of possible GeV?TeV-energy Tau neutrinos from astronomical
sources, emission processes as well as relvance of such signals resp. upper limits
on such observation channels.
? Development of GeV?TeV-energy Tau neutrino event reconstruction methods
within the ?IceCube? detector:
? Definition of physics parameters for the Monte-Carlo simulation of low-energy Tau
neutrino signals.
? Development of corresponding event reconstruction methods based on the
simulated data for the (then) future application to actual detector data.
? Teaching of classes on topics of software design and software testing at the
undergraduate level.
Linux, PBS, bash, emacs, make, ant, maven, CSV, MySQL, UML, XML, XSP, C, C++,
java, jsp, intelliJIdea, Eclipse, Software Design, Software Testing, Photo Multiplier
Operation, Readout and Signal Processing, High-Energy Detector Physics, High-
Energy Astronomy
Affiliation: Universität Würzburg
?MAGIC? Gamma-Cherenkov-Telescope Group ? Postdoctoral Researcher
Würzburg, Germany
Physics and technical Preparations for operation and data collection with the
?MAGIC? Cherenkov Telescope:
? Setup and commissioning of the drive system of the telescope, further
installations and preparations for ?First light? on-site at the telescope.
? Generation of an operation and handling manual as well as operative checklists
for safe manual and automated telescope movements in the main rotational axis and
the mirror dish tilt axis.
? Operation and observation planning for a further Cherenkov telescope operated
by the same workgroup.
? Suggestion of an observation strategy and observation target selection and
prioritization approach based on known and suspected Gamma-source types as well as
generation of additional source candidate listings.
Linux, DEC-Alpha, bash, emacs, make, CSV, MySQL, C, C++, Eclipse, XEphem, Root,
PAW, Operation of physically sizeable and varied Research Equipment, Signal Ge-
nerator, Oscilloscope, High-Energy Astronomy
Affiliation: MPE Garching
?Fermi?-Satellite GRB Monitor Group ? Scientific Researcher
Garching, Germany
Development and initial operation of a test stand to be used in the quality and
scientific usability selection process for flight photo multipliers for the Gamma-Ray-Burst
Monitor of the ?Fermi? Satellite.
? Definition and documentation of the measurement and analysis procedures as
well as of the quality boundaries for the selection process.
? Definition of criteria for selection of photo multipliers for the actual satellite flight.
? Examplary measurements using stand-in photomultiplier hardware since the flight
selection hardware had not been available at the time.
Microsoft Office, Linux, bash, emacs, PAW, Test Design, Data Definition, Photo
Multiplier Operation, Readout and Signal Processing, High-Energy Detector Physics,
Quality Criteria, Signal Generator, Oscilloscope
09/1985 - 07/1988 Berufsausbildung WERKZEUGMACHER (Facharbeiterbrief)
10/1992 - 07/1994 Studium Diplom PHYSIK an der Universitaet Leipzig (Vordiplom)
10/1994 - 11/1997 Studium Diplom PHYSIK an der Universitaet Freiburg (Diplom)
10/1996 - 11/1997 Diplomarbeit am DESY Beschleunigerlabor in Hamburg
Voller Einsatz der gesamten Erfahrung quer über
Fire-Fighting (kurzfristig) und volle Kontrolle der gewünschten Qualität (langfristig) durch Arbeiten im Abstrakten für Produktentwicklung, Projektsteuerung, Forschungs- bzw. Entwicklungsaufgaben.
Üblicherweise reduziert sich aus der abstrakten Perspektive die Komplexität, so dass kleine, einfach handhabbare Aufgaben in optimaler Reihenfolge sichtbar werden, die zur zügigen, zielgerichteten und effizienten Problemlösung und Ausrichtung führen.
Messwerterfassung und -Speicherung
Hochkomplexe wissenschaftliche Messgeräte (Teilchenphysik Detektoren, Cherenkov Teleskop, Neutrino Teleskop)
Design von Einzelmessgeraeten
Design von Testaufbauten
Design von Testabläufen, Datenerhebung und automatisierter Analyse inklusive Qualitätsschnitten und Interpretation von Daten aller Art
Definition von wissenschaftlichen Monte-Carlo Simulationen (Teilchenphysik), Simulationsdurchführung (PBS / Cluster), Datenorganisation und Speicherung, Validierung und Qualitätskontrolle der Simulation, Auswertung und wissenschaftliche Interpretation der Simulationsergebnisse
Spezifikation, Compliance Review, Umsetzungsbegleitung / -management, Issue Reporting und Resolution, Definition und Durchführung von Integrations- und Abnahmetests.
Freude an der Lösung anspruchsvoller technischer Herausforderungen aller Art.
Üblicherweise herrscht in den Projekten bei meinem Eintritt bereits ein gewisser Druck. Durch meine ruhige, sachliche, freundlich-offene und zielorientierte Arbeitsweise können wir gemeinsam den Weg aus der Engstelle definieren.
Wissenschaft und Forschung (experimentelle Astroteilchenphysik)
Airline Industrie (Flugzeugkabine)
Prinzipiell weltweit flexibel. Favorit: Niederbayern und größerer Radius (ca. 400km)
Ziel ist die rasche Erreichung der gewünschten Qualität durch klares Erkennen von Schwachstellen und Failure-Mechanismen sowie deren effektive Behebung.
Bei Interesse: preview.tinyurl.com/CarpathianMtnBlog
Ziel ist die Einhaltung aller Spezifikationen und Schnittstellenanforderungen unter Erzielung klarer Trennung aller relevanten Verantwortlichkeiten.
Ziel war es, alle bereits bestehenden Schnittstellen unverändert zu lassen, gleichzeitig die Kundenspezifikation zu erfüllen und Überraschungen bei der Integration zu vermeiden. Das
bereits bestehende System sollte nur für unvermeidbare Anpassungen, etwa mechanischer Natur, angetastet werden.
Ziel ist es, während der Produktentwicklung nicht nennenswert aus der Zeitschiene zu fallen und ein technisch einwandfreies Produkt zu erzielen.
Ziel ist eine voll belastbare Entscheidungsgrundlage.
Product Development
Customer: Aircraft Cabin Equipment Manufacturer ? System Engineering Support
Support request for system engineering.
? System engineering support in a complex multi-LRU aircraft cabin product in
passenger use: mechanical, electrical, electronic and software components and their
multiple interfaces within the system and to the aircraft cabin as well as users and
technicians.
DO160, DO178-B, ABD100-x, D6-36440, ARINC-RS485, CAN, RS232, BITE
Customer: Equipment Manufacturer ? Data-Driven Product Development Support
Support request for development work for BLDC / PMSM motor control regarding performance
and collision detection and reaction mechanism along with documentation and verification.
? Engineering studies for optimal operation of BLDC (PMSM) motors within the
hardware environment selected for the project.
? Development of a parametrizable, highly sensitive collision detection algorithm
with extremely low CPU-load footprint.
? Verification testing and reporting as well as specification of regression test pro-
cedures for on-spec performance.
BLDC/PMSM Motor Control, PI/PID Control, Linux, bash, python, numpy, matplotlib,
BugZilla, JIRA, SVN
Technical Management
Customer: Airline Operator ? Integration of 3rd-Party Product
Support request for technical management of the exchange of a simple piece of
hardware against a 3rd-party CPU-controlled device and its integration into the
infrastructure of the receiving system.
It is the goal to keep all previously defined
interfaces intact, while at the same time meeting all specifications. Any negative
surprise at the time of first integration had to be avoided. The existing system was
not allowed to be modified except for truly unavoidable modifications like
mechanical mounting for the newly defined system.
? Deep technical analysis specific to the involved products, generation of a complete
interface control document (mechanical, electrical, data) along with corresponding
interface test procedures.
? Witnessing of product specification compliance testing as well as interface
testing. Own verification of test results deemed critical either on-site or offline in order
to shorten turnaround time and for direct reporting to the customer.
Deep Technical Analyses, Interface Control Documentation, Interface Testing,
Electronic Tests using Oscilloscopes along with specialized other Hardware and
Software, Visualization of Test Results
Customer: Airline Operator ? Technical Integration BFE Hard- and Software
Support request for technical management of high-risk integration of a central
electro-mechanical component as buyer-furnished-equipment (BFE) of one supplier
into a complex aircraft cabin element of another supplier. The target product is a
complex hardware-software hybrid product in passenger use and is governed by
aircraft certification requirements. Goal is to meet all timelines, all specifications
and all relevant interface definitions of the product while at the same time keeping
all relevant technical and warranty responsibilities clearly with each of the
respective supplying parties.
? Moderation of all technical meetings between involved stakeholders, technical
teams as well as organizational and commercial team members across companies,
continents and cultural as well as language and engineering discipline barriers.
? Reaching a detailed technical definition of the interface between regular product
and buyer-furnished-equipment (BFE).
? Generation of a set of matching product specification and interface control
documents along with a common understanding of the goal and the path.
? Arrangement of comfort reviews for definitions of comfort parameters that can
only be determined with actual hardware and software available. Similarly,
participation in safety reviews as part of the software certification activities
together with aircraft OEM representatives.
? Monitoring parts needs, deliveries, design and build status as well as software
release status.
? Verification of product performance and handling, as well as issue reporting and
issue resolution monitoring. Verification of part repairs, upgrades, software
updates.
Microsoft Office, Common Sense, CAN, RS232, ARINC-RS485, BITE, Own Toolset
for efficient Issue Tracking and Resolution
Customer: Airline Operator ? Technical Mediator Role
Support request for technical management of the exchange of one supplier of an
electro-mechanical centerpiece of a complex aircraft cabin element against another
supplier?s product. It is the goal to not lose a significant amount of time due to this
switch and achieve a technically fully acceptable product at the same time.
? Moderation of all technical communication on the personal level and in formal meetings.
? Bringing suppliers with very different cultures regarding planning, technical
understanding, ability to understand technical details from a different field than their
own and with their respective priorities, to work together across language and other
barriers, keeping everyone focused and engaged while at the same time finding,
understanding and agreeing on technical solutions to difficult problems concerning
individual features, interfaces, working principles and other.
? Driving the generation and mutual sign-off of all relevant and necessary
specification and interface control documentation.
? Issue reporting and clearing through problem reporting to supplier and
verification of technical fixes.
? Status reporting to customer along with clarifications to feed back to the
engineering and commercial teams.
? Accompanying entry into service and first time of operation until hand-off to
customer department.
Cultural and Language Barriers, Mediation between various Engineering and
Commercial Disciplines, Own Toolset for efficient Issue Tracking and Resolution
Customer: Airline Operator ? Technical Contract Management
Request for a study of the technical feasibility and related cost of a contract proposal
for the increase of visibility of operational availability of aircraft cabin elements during flight.
The goal is a complete scenario with lightest-possible impact to on-going product
development and to existing processes for administrative decision.
? Translation of contractual wording to technical and process realities during flight,
for maintenance and for administrative processes.
? Generation of a technical concept study for the generation, collection, and
evaluation of functional availablities of aircraft cabin element features:
? Which adaptation to current product development, maintenance processes and
database content would need to be carried out.
? Which requirements for the reliability and accuracy of the collected data would
need to be met in order to evaluate objectively correctly and efficiently the element
function availability.
? Cost estimates of the impact of such contracts:
? Which recurring and non-recurring additional impact would be generated.
? Which benefit would be generated, immediately and long-term.
? Presentation of results and preparation of administrative decision-making process.
Legal Wording Evaluations, Database Schemes, MRO Processes, Airline Operator
Processes, Oracle Databases, MySQL Databases, Microsoft Office
Customer: Airline Operator ? Supplier Management Product Robustness
Request for support with monitoring of supplier reliability testing of aircraft cabin
elements in passenger use including a certain amount of passenger mis-use.
Adaptations and additions to existing reliability specification documentation as well as
supplier management during product development. Goal is short development
cycles with best product performance and reliability.
? Review of and contributions to objectively verifiable product reliability specifications,
covering proper use levels along with robustness against a reasonable level of
mis-use by passengers.
? Review of supplier test orders, test setup and test procedures as well as test reports
including on-site review and verification of results, initiating adequate follow-up.
Microsoft Office, Common Sense, Mechanical Understanding, Photographical Docu-
mentation and Analysis, vlc, gimp
Research / Academia
Affiliation: Penn State University
?IceCube? Eperiment ? Postdoctoral Researcher
University Park, PA, USA
Research activities in experimental high-energy astronomy with emphasis on
detector construction and quality assurance for physics measurements as well as
astronomical research and teaching.
? Quality assurance of detector hardware through analysis of detector response to
test pulses in a dark freezer laboratory:
? Quality verification of all individual digital optical modules that together comprise
the ?IceCube? neutrino telescope, deployed to and collecting data deep within the
antarctic ice sheet.
? Development of criteria and methods to ensure that all physics-relevant module
properties of signal amplifiers and digitizing units are within useful bounds.
? Development of automated analyses, report generation as well as long-term data
storage and access, outlasting the several tens of years of projected detector
lifetime.
? Consulting function to a student team in the corresponding software project.
? Literature studies of possible GeV?TeV-energy Tau neutrinos from astronomical
sources, emission processes as well as relvance of such signals resp. upper limits
on such observation channels.
? Development of GeV?TeV-energy Tau neutrino event reconstruction methods
within the ?IceCube? detector:
? Definition of physics parameters for the Monte-Carlo simulation of low-energy Tau
neutrino signals.
? Development of corresponding event reconstruction methods based on the
simulated data for the (then) future application to actual detector data.
? Teaching of classes on topics of software design and software testing at the
undergraduate level.
Linux, PBS, bash, emacs, make, ant, maven, CSV, MySQL, UML, XML, XSP, C, C++,
java, jsp, intelliJIdea, Eclipse, Software Design, Software Testing, Photo Multiplier
Operation, Readout and Signal Processing, High-Energy Detector Physics, High-
Energy Astronomy
Affiliation: Universität Würzburg
?MAGIC? Gamma-Cherenkov-Telescope Group ? Postdoctoral Researcher
Würzburg, Germany
Physics and technical Preparations for operation and data collection with the
?MAGIC? Cherenkov Telescope:
? Setup and commissioning of the drive system of the telescope, further
installations and preparations for ?First light? on-site at the telescope.
? Generation of an operation and handling manual as well as operative checklists
for safe manual and automated telescope movements in the main rotational axis and
the mirror dish tilt axis.
? Operation and observation planning for a further Cherenkov telescope operated
by the same workgroup.
? Suggestion of an observation strategy and observation target selection and
prioritization approach based on known and suspected Gamma-source types as well as
generation of additional source candidate listings.
Linux, DEC-Alpha, bash, emacs, make, CSV, MySQL, C, C++, Eclipse, XEphem, Root,
PAW, Operation of physically sizeable and varied Research Equipment, Signal Ge-
nerator, Oscilloscope, High-Energy Astronomy
Affiliation: MPE Garching
?Fermi?-Satellite GRB Monitor Group ? Scientific Researcher
Garching, Germany
Development and initial operation of a test stand to be used in the quality and
scientific usability selection process for flight photo multipliers for the Gamma-Ray-Burst
Monitor of the ?Fermi? Satellite.
? Definition and documentation of the measurement and analysis procedures as
well as of the quality boundaries for the selection process.
? Definition of criteria for selection of photo multipliers for the actual satellite flight.
? Examplary measurements using stand-in photomultiplier hardware since the flight
selection hardware had not been available at the time.
Microsoft Office, Linux, bash, emacs, PAW, Test Design, Data Definition, Photo
Multiplier Operation, Readout and Signal Processing, High-Energy Detector Physics,
Quality Criteria, Signal Generator, Oscilloscope
09/1985 - 07/1988 Berufsausbildung WERKZEUGMACHER (Facharbeiterbrief)
10/1992 - 07/1994 Studium Diplom PHYSIK an der Universitaet Leipzig (Vordiplom)
10/1994 - 11/1997 Studium Diplom PHYSIK an der Universitaet Freiburg (Diplom)
10/1996 - 11/1997 Diplomarbeit am DESY Beschleunigerlabor in Hamburg
Voller Einsatz der gesamten Erfahrung quer über
Fire-Fighting (kurzfristig) und volle Kontrolle der gewünschten Qualität (langfristig) durch Arbeiten im Abstrakten für Produktentwicklung, Projektsteuerung, Forschungs- bzw. Entwicklungsaufgaben.
Üblicherweise reduziert sich aus der abstrakten Perspektive die Komplexität, so dass kleine, einfach handhabbare Aufgaben in optimaler Reihenfolge sichtbar werden, die zur zügigen, zielgerichteten und effizienten Problemlösung und Ausrichtung führen.
Messwerterfassung und -Speicherung
Hochkomplexe wissenschaftliche Messgeräte (Teilchenphysik Detektoren, Cherenkov Teleskop, Neutrino Teleskop)
Design von Einzelmessgeraeten
Design von Testaufbauten
Design von Testabläufen, Datenerhebung und automatisierter Analyse inklusive Qualitätsschnitten und Interpretation von Daten aller Art
Definition von wissenschaftlichen Monte-Carlo Simulationen (Teilchenphysik), Simulationsdurchführung (PBS / Cluster), Datenorganisation und Speicherung, Validierung und Qualitätskontrolle der Simulation, Auswertung und wissenschaftliche Interpretation der Simulationsergebnisse
Spezifikation, Compliance Review, Umsetzungsbegleitung / -management, Issue Reporting und Resolution, Definition und Durchführung von Integrations- und Abnahmetests.
Freude an der Lösung anspruchsvoller technischer Herausforderungen aller Art.
Üblicherweise herrscht in den Projekten bei meinem Eintritt bereits ein gewisser Druck. Durch meine ruhige, sachliche, freundlich-offene und zielorientierte Arbeitsweise können wir gemeinsam den Weg aus der Engstelle definieren.
Wissenschaft und Forschung (experimentelle Astroteilchenphysik)
Airline Industrie (Flugzeugkabine)
Direktester geht's nicht! Ganz einfach Freelancer finden und direkt Kontakt aufnehmen.