Curriculum Vitae:

Academics

• Since 2018: External Ph.D. Student at the Chair of Information Systems and Strategic IT Management, University of Duisburg-Essen, Essen, Germany
• 2015-2018: Study of Mechanical Engineering (degree: Master), Leibniz University of Hannover, Germany
• 2013-2019: Parallel Study of Business Administration and Economics (degree: Bachelor), Fernuniversität of Hagen, Germany
• 2011-2014: Study of Mechanical Engineering (degree: Bachelor), Otto-von-Guericke University of Magdeburg, Germany

Work Experience

• 2018: Research Assistant @ “Mitunsdigital!”, Hannover, Germany
• 2017: Intern Equipment Planning @ BASF, Houston, USA
• 2017: Intern Management Consulting @ VW Consulting, Wolfsburg, Germany
• 2016: Working Student Industry 4.0 @ Sartorius, Göttingen, Germany
• 2015-2016: Working Student Battery Production @ Johnson Controls, Hannover, Germany
• 2015: Intern Product Planning @ BMW Brilliance, Shenyang, China
• 2014-2015: Intern Cost Management @ Volkswagen Commercial Cars, Hannover, Germany
• 2014: Intern Quality Management @ ArcelorMittal, Bremen, Germany
• 2013: Research Assistant CAD-Design @ Otto-von-Guericke University of Magdeburg

Fields of Research:

Cross-Functional usage of Sensor Data in Organizations Value Chain

Publications:

• Brandt, N.; Ahlemann, F.; Reining, S.; Rehring, K.: Internet of Things in Product Lifecycle Management – A Review on Value Creation through Product Status Data. In: Americas Conference on Information Systems (Forthcoming). 2021. CitationDetails
• Brandt, N.; Ahlemann, F.: HOW DO YOU DRIVE? ANALYZING VEHICLE SENSORDATA IN PRODUCT LIFECYCLE MANAGEMENT SYSTEMS. In: Proceedings of the 28th European Conference on Information Systems (ECIS). Marrakech, Morocco 2020. Full textCitationAbstractDetails

  For most car and truck manufacturers access to information about the status of produced vehicles end with their sale. With embedded connectivity units this changes so that manufacturers can gather data from vehicle in-build sensors and thus, gain insights into each products usage. Our study investigates why manufacturers aim to integrate connectivity units into their products to gather sensor based usage information and what hinders them to do so. Thereby, we aim to identify the factors that have an influence on the decision of vehicle manufacturers to adopt the concept of the vehicle digital twin. To unveil those factors, we conducted 30 expert interviews at two vehicle manufacturers in which we found benefits and barriers regarding the realization of a product digital twin. By conceptualizing the benefits and barriers, which have a positive or negative influence on the adoption decision from the perspective of the manufacturers, we were able to derive general influences on the adoption decision. In our adapted technology-organization-environment framework we found influences in the technological (i.e. product data and product heterogeneity), the organizational (i.e. business model orientation, readiness of internal processes and digital culture) and the environmental (i.e. competitors behaviour, legal regulations and customer demand) dimension.