@inproceedings{LeiterWohlschlaegerDietlmeieretal.2023, author = {Leiter, Nina and Wohlschl{\"a}ger, Maximilian and Dietlmeier, Maximilian and Versen, Martin and L{\"o}der, Martin and Laforsch, Christian}, title = {Comparative Analysis of Fluorescence Properties of Post-Consumer Wood Using FD-FLIM}, series = {2023 IEEE Sensors Applications Symposium (SAS)}, booktitle = {2023 IEEE Sensors Applications Symposium (SAS)}, doi = {10.1109/SAS58821.2023.10254052}, pages = {1 -- 6}, year = {2023}, abstract = {The FD-FLIM technique has a high potential for automated post-consumer wood sorting. A problem of analysing post-consumer wood fluorescence properties is the uncertainty of the post-consumer wood category as the origin of the samples are unknown. In this study, the fluorescence properties of actual post-consumer wood is compared with prepared wood samples. The post-consumer wood samples display slightly different fluorescence intensities and lifetimes due to environmental influences and a higher sample diversity. For improved training of evaluation algorithms for post-consumer wood sorting, the prepared sample set should be extended or the post-consumer wood should be additionally analysed in the laboratory.}, language = {en} } @inproceedings{LeiterDietlmeierWohlschlaegeretal.2023, author = {Leiter, Nina and Dietlmeier, Maximilian and Wohlschl{\"a}ger, Maximilian and L{\"o}der, Martin G.J. and Versen, Martin and Laforsch, Christian}, title = {Development of a Neural Network for Automatic Classification of Post-Consumer Wood Using Rapid-FLIM}, series = {2023 IEEE Sensors Applications Symposium (SAS)}, booktitle = {2023 IEEE Sensors Applications Symposium (SAS)}, doi = {10.1109/SAS58821.2023.10254174}, pages = {1 -- 6}, year = {2023}, abstract = {The economic use of wood is a growing sector, not only because of the significant advantage of wood to retain CO 2 . It is crucial to increase the material recycling of wood in several lifecycles, but currently, there is no reliable post-consumer wood sorting technique in line. This research measures 365 post-consumer wood samples of classes A1-4 four times with the frequency domain fluorescence lifetime imaging microscopy (FD-FLIM) subset method rapid fluorescence lifetime imaging microscopy (Rapid-FLIM). The data is analyzed on their statistical features. Four neural networks based on Multilayer perceptron are then trained and tested with twelve statistical features extracted from the Rapid-FLIM images. The best model for this application contains the optimizer RMSprop, the activation function SELU and the loss function binary crossentropy. The best model of this structure could achieve a false positive ratio of 4.79 \% over the ten folds.}, language = {en} } @inproceedings{ThomasSaleemLeiteretal.2023, author = {Thomas, Amal and Saleem, Shaif and Leiter, Nina and Dietlmeier, Maximilian and Wohlschl{\"a}ger, Maximilian and Versen, Martin and Laforsch, Christian and Schwarz, Jonas and Auer, Veronika and Risse, Michael}, title = {Frequency Domain Fluorescence Lifetime Imaging Microscopy (FD-FLIM) analysis of Quercus robur samples for origin differentiation purposes}, series = {Optica Sensing Congress 2023}, booktitle = {Optica Sensing Congress 2023}, year = {2023}, abstract = {The fast classification and identification of plastics presents a significant challenge. The study assesses the suitability of a Multilayer Perceptron to classify and identify commonly found plastic types using Rapid-FLIM, achieving an accuracy of 88.33\%. @inproceedingsSchwarz:23, Increasing demand for wood products requires methods to determine its harvest origin and ensure sustainable and legal sourcing. In 15 out of 21 cases, the origin of Quercus robur was differentiable in FD-FLIM studies.}, language = {en} } @inproceedings{ThomasSaleemLeiteretal.2023, author = {Thomas, Amal and Saleem, Shaif and Leiter, Nina and Dietlmeier, Maximilian and Wohlschl{\"a}ger, Maximilian and Versen, Martin and Laforsch, Christian}, title = {Development of a Neural Network for an Automated Differentiation of Plastics using Rapid-FLIM}, series = {Optica Sensing Congress 2023}, booktitle = {Optica Sensing Congress 2023}, doi = {10.1364/ES.2023.EW4E.5}, year = {2023}, abstract = {The fast classification and identification of plastics presents a significant challenge. The study assesses the suitability of a Multilayer Perceptron to classify and identify commonly found plastic types using Rapid-FLIM, achieving an accuracy of 88.33\%.}, language = {en} } @inproceedings{BinningerKortuemScholz2023, author = {Binninger, Karsten and Kort{\"u}m, Christian and Scholz, Frieder}, title = {Investigation of tool wear of the trimming unit and resulting quality in the edgebanding process}, series = {Proceedings of the 25th International Wood Machining Seminar}, booktitle = {Proceedings of the 25th International Wood Machining Seminar}, editor = {Schajer, Gary}, pages = {9}, year = {2023}, abstract = {The edgebanding process, i.e. the covering of the raw edge of the laminated particleboard by means of decorative plastic or real wood veneer bands, is an important process step in the manufacture of furniture components. The quality of the final product is significantly influenced by this production step. The manufacturing process step within the edgebanding machine begins with the milling of the raw edge. The quality of the edgebanding process is determined by a large number of process input variables, such as the tool used and the cutting geometry, the type of laminate used for the wood-based material, adhesives, etc. The quality of the edgebanding process is also determined by the type of material processed. Particularly with regard to the materials, the increased use of recycled wood in the particleboard sector and different types of adhesives (with reduced formaldehyde emissions) results in increased demands on the milling process. Due to this developments, most of the earlier investigations (in the years 1990 - 2000) are not comparable with today's general conditions. The mechanical and optical properties of the edge applied to the end product are decisively influenced by the quality of this joint. The milling technology used, as well as the tool used for this purpose and its condition, is a decisive influencing factor in the formation of quality. Tests on the indication of various influencing variables in the edgebanding process at the Rosenheim Technical University of Applied Sciences showed that in the case of chipboard milling, a decrease in the electrical power required for the cutting process can take place with increasing tool wear. It was also demonstrated that previous process steps in furniture production, such as panel dividing by means of sawing or milling/nesting, generally have a significantly different influence on the subsequent joining process during edge banding process. Furthermore, a direct correlation was determined between the mechanical properties of the end product and the condition of the tool used, which can be used as a measurable indicator. In addition to the effect of the tool condition on the mechanical properties of the edge banding, this also has an impact on the optical quality characteristics. Accordingly, it could be demonstrated here that an increase in the size and number of chippings takes place in the laminate of the board material to be processed.}, language = {en} } @inproceedings{KortuemRiegel2019, author = {Kort{\"u}m, Christian and Riegel, Adrian}, title = {Geometric Dimensioning and Tolerancing of Furniture Components}, series = {Proceedings of the 24th International Wood Machining Seminar}, booktitle = {Proceedings of the 24th International Wood Machining Seminar}, pages = {11}, year = {2019}, abstract = {The machining of furniture components requires a complete geometrical specification of dimensions with associated tolerances to define in the first step appropriate manufacturing processes and to carry out the design and setup. Furthermore, a verification of the defined specification after production is a next step to check the quality and related to the production equipment, to calculate process capability and effectiveness. In 2011, the system of Geometrical Product Specification (GPS) has been published completely. The system is built for a distinct range of geometrical quality characteristics and consists of chains of standards referring to each other. With three elements of these chains, the product can be specified. With three additional elements, the verification of the product and the measuring system is possible. It does not contain the verification of the production processes, the process qualification. The German standard DIN 68100 provides a frame for dimensioning and tolerancing lengths and also angles, parallelism and straightness for furniture components. It includes a method to consider swelling and shrinking of wood and wood-based materials. Apart from its benefit of specifying products in a supply chain, it is rarely used in the branch nowadays. DIN 68100 is currently far away from GPS. To gain all benefits arising from GPS the branch needs a consolidated action. New symbols for drafts and an updated method for tolerancing with moisture consideration have to be developed as well as measuring dimensions of flexible work pieces, like most parts in the furniture industry. In GPS, the link between product verification and process specification is not that consistent. In other branches SPC and methods of process qualifications are established. At the moment the kitchen industry is establishing SPC or similar procedures. An action towards GPS can also accompany these efforts. Due to a shift in the tolerance principles, the GPS system is hardly directly applicable to the furniture industry, e.g. DIN 68100. But there is a real threat that the system is called up accidentally and out of ignorance. This paper sketches a comprehensive system of product specification, verification for furniture components and process qualification. It will share experience gained in the kitchen furniture industry and will add a theoretical analysis of a possible application of GPS-chains for important examples of quality characteristics. The activities are part of a process (VDI 3415-2) carried out in the working group 102 of the Society of German Engineers (VDI).}, language = {en} } @inproceedings{BoehmKortuem2023, author = {B{\"o}hm, Stefan-Andreas and Kort{\"u}m, Christian}, title = {Machining Feature Recognition in Furniture Parts based on a Graph Neural Network}, series = {Proceedings of the 25th International Wood Machining Seminar}, booktitle = {Proceedings of the 25th International Wood Machining Seminar}, editor = {Schajer, Gary}, pages = {8}, year = {2023}, abstract = {Due to the increasing customer demands, companies face the challenge of adapting their manufacturing facilities to produce batch size one parts. In this context, each component comes with specific customer requirements, significantly increasing the complexity of its manufacturing process. Traditional process planning done by employees is no longer feasible in the face of the growing complexity and diversity of batch size one parts. Therefore, there is a need for novel computer-aided process planning methods capable of autonomously learning and identifying the necessary machining features of these parts. We propose a configurable automated feature recognition framework tailored to batch size one parts to address this need. This framework comprises two main components. First, a customizable data generator is developed to create a dataset of computer-aided design models incorporating user-specific machining features. Second, a graph neural network is employed to learn these user-specific machining features by leveraging the graph structure represented by the vertices and edges in each computer-aided design model. We evaluate the effectiveness of our framework using a real-world example from the furniture industry. Specifically, we construct a dataset comprising over 7000 computer-aided design models of wooden boards using our framework's data generator. Each wooden board contains up to 30 randomly placed machining features for the application of connectors and fittings, randomly selected from 14 standard machining features commonly used in the furniture industry. An optimization algorithm adapts a graph neural network for classifying these specific machining features. The results demonstrate that our framework addresses the automated feature recognition problem without requiring data conversions, such as pixels or voxels, as other approaches often do. By introducing this configurable automated feature recognition framework, we solve the challenges posed by batch size one manufacturing. The framework's effectiveness and accuracy are demonstrated through extensive testing on the example of the furniture industry, showcasing its potential for enhancing manufacturing processes in various domains}, language = {en} } @inproceedings{KortuemBoehm2023, author = {Kort{\"u}m, Christian and B{\"o}hm, Stefan-Andreas}, title = {Holistic approach for geometric and technological similarity search in the production for profiled elements in the wood working industry for a more efficient production}, series = {Proceedings of the 25th International Wood Machining Seminar}, booktitle = {Proceedings of the 25th International Wood Machining Seminar}, editor = {Schajer, Gary}, pages = {9}, year = {2023}, abstract = {In the whole field of woodworking, from carpentry to industry, new products are created and designed every day and manufacturers wonder if similar workpieces have already been produced in the company and if corresponding drawings, information, tools, jigs, etc. can be reused. Under certain circumstances, considerable duplication of work can be avoided and a more efficient production is possible. In order to find similar workpieces, it must be clarified what exactly is meant by similarity. The different fields of knowledge do not provide a clear definition. However, similarities are always used to compare objects. In woodworking, objects can be a wide variety of components and products, such as carcase sides, furniture fronts, fittings, tools or profile strips. The search for similar profiled elements - related to the potential, data structure and algorithms - is the focus of this paper. There is a wide range of different profiled elements, which are used constructively as well as decoratively, e.g. for baseboards, door frames, window frames or decorative moulding profiles. These profiles are manufactured in a multi-stage production process in which the workpieces are first machined with profiled tools before surface finishing takes place. Along this production chain, tools, machine settings and, in some cases, fixtures are used that are adapted to the respective profile and can be reused for the same or similar jobs. Inheritance of information offers the greatest potential of similarity search. Inheritance means that existing knowledge in the form of drawings, CNC programs, process parameters and setup specifications, etc., is transferred from existing profiles to a new profile. By inheriting existing information, for example, the effort required for process setting can be reduced by adopting spindle positions, positions of guides and stops, or feed and cutting speeds. However, this can only be done if the process knowledge and other technological information concerning a profile are sufficiently documented. This is the only way how all information is made available for the similarity search and inheritance, and also for setting the processes when the profile is manufactured once again. The profile data must therefore be stored in a meaningful structure without loss of information. Therefore, a holistic product data model was developed that combines the geometrical with the technological profile data. The developed model allows a combined search for geometrically and e.g. materially similar products - also with a weighted evaluation of the individual criteria. The research has shown that data modelling is the essential foundation for the implementation of modern AI algorithms to enable similarity search. In conclusion, the use of a search system for geometrically and technologically similar profiles represents a real innovation for wood processing companies. This paper presents a holistic approach for geometrical and technological similarity search presenting different algorithms}, language = {en} } @misc{KardasLueftl2024, author = {Kardas, Leopold and L{\"u}ftl, Katharina}, title = {DaheimLeben4.0. Technisch unterst{\"u}tztes Leben zuhause - Lernangebot f{\"u}r die generalistische Pflegeausbildung. Workshop beim Bremer Pflegekongress am 16.5.2024}, year = {2024}, language = {de} } @misc{KardasNickLueftl2024, author = {Kardas, Leopold and Nick, Carola and L{\"u}ftl, Katharina}, title = {Strategien der Patienten- und Familienedukation zur F{\"o}rderung des selbstbestimmten Lebens daheim. Vortrag beim Bremer Pflegekongress am 16.5.2024}, year = {2024}, language = {de} } @article{KraftQuaysonKellner2024, author = {Kraft, Sarah Katharina and Quayson, Matthew and Kellner, Florian}, title = {Assessing the German Act on Corporate Due Diligence Obligations in Supply Chains: a perspective from the smallholder cocoa farmer}, series = {Frontiers in Sustainability}, volume = {5}, journal = {Frontiers in Sustainability}, doi = {10.3389/frsus.2024.1376619}, year = {2024}, abstract = {This research examines the potential outputs, outcomes, and impacts of the German Act on Corporate Due Diligence Obligations in Supply Chains (LkSG) on the smallholder cocoa farmers in West Africa. The study primarily relies on a literature review and an impact pathway to conduct a systematic analysis to identify the potential effects of the LkSG on smallholder cocoa farmers. The findings indicate that some, but not all of the risks addressed by the LkSG align with those faced by smallholder cocoa farmers and their families. Additionally, the research also reveals weaknesses, particularly in managing environmental risks, which the LkSG does not adequately cover. Our findings show that in the short- and medium-term, the LkSG has no potential effects on smallholder cocoa farmers. Furthermore, the potential positive impacts of the law on smallholder cocoa farmers will take a long time to realize, as the LkSG considers primarily tier-1 suppliers. Companies in Germany might reassess their supply chains to strive for an LkSG-risk-free supply chain, which could in the long term have sustained impacts on smallholder cocoa farmers. However, we recommend a comprehensive risk analysis of the cocoa supply chain to enhance the human rights of cocoa farmers.}, language = {en} } @book{LukeschKellner2024, author = {Lukesch, Maximilian and Kellner, Florian}, title = {{\"U}bungsbuch Produktionswirtschaft}, edition = {3}, publisher = {Springer Gabler}, address = {Berlin, Heidelberg}, doi = {10.1007/978-3-662-68672-0}, publisher = {Technische Hochschule Rosenheim}, pages = {281}, year = {2024}, abstract = {Dieses Buch bietet Studierenden {\"u}ber 80 {\"U}bungsaufgaben und f{\"u}nf Fallstudien inklusive ausf{\"u}hrlicher L{\"o}sungen zu ausgew{\"a}hlten Themen der Produktionswirtschaft und Industrie 4.0. Jedes Kapitel enth{\"a}lt eine kurze Einleitung sowie zu erreichende Lernziele. Querverweise auf das Lehrbuch „Produktionswirtschaft" von Kellner/Lienland/Lukesch erleichtern das Selbststudium und erm{\"o}glichen eine optimale Pr{\"u}fungsvorbereitung. Die 3. Auflage wurde redigiert und um neue Rechenaufgaben sowie eine weitere Fallstudie zum Themenbereich Industrie 4.0 erg{\"a}nzt.}, language = {de} } @inproceedings{HeindlBleySchuetz2022, author = {Heindl, Johanna and Bley, Sandra and Sch{\"u}tz, Markus}, title = {Freie fachspezifische digitale Lernmedien f{\"u}r die Bau- /Holztechnik (OER) - Studierende konzeptionieren, produzieren und teilen Gamifications und Erkl{\"a}rvideos.}, series = {7. Technikdidaktik-Symposium des Journals of Technical Education}, booktitle = {7. Technikdidaktik-Symposium des Journals of Technical Education}, year = {2022}, language = {de} } @inproceedings{BleyHommel2022, author = {Bley, Sandra and Hommel, Mandy}, title = {Ingenieurp{\"a}dagogik in Bayern- ein Portrait der Standorte}, series = {7. Technikdidaktik-Symposium des Journals of Technical Education (JOTED 2022)}, booktitle = {7. Technikdidaktik-Symposium des Journals of Technical Education (JOTED 2022)}, year = {2022}, language = {de} } @inproceedings{BotzumBleyHolzetal.2023, author = {Botzum, Edeltraud and Bley, Sandra and Holz, Sybille and Neumaier, Stefanie and D{\"o}rr, M.}, title = {Projektbasiert lehren - kompetenzorientiert pr{\"u}fen: Implementierung von E-Portfolios als Pr{\"u}fungsleistung am Beispiel interdisziplin{\"a}rer studentischer Projekte.}, series = {Analog | Digital | Integriert: Kompetenzorientiertes Pr{\"u}fen der Zukunft.}, booktitle = {Analog | Digital | Integriert: Kompetenzorientiertes Pr{\"u}fen der Zukunft.}, year = {2023}, language = {de} } @incollection{RittervonMarxKreuzerWeberetal.2020, author = {Ritter von Marx, Susanne and Kreuzer, Christine and Weber, Susanne and Bley, Sandra}, title = {Nachhaltige Gestaltungskompetenz im Einzelhandel - ein konnektivit{\"a}tsorientierter Ansatz zur Spezifikation eines Kompetenzmodells}, series = {Konnektivit{\"a}t und lernortintegrierte Kompetenzentwicklung in der beruflichen Bildung. Zeitschrift f{\"u}r Berufs- und Wirtschaftsp{\"a}dagogik}, volume = {Beiheft 29}, booktitle = {Konnektivit{\"a}t und lernortintegrierte Kompetenzentwicklung in der beruflichen Bildung. Zeitschrift f{\"u}r Berufs- und Wirtschaftsp{\"a}dagogik}, editor = {Aprea, Carmela and Sappa, Viviana and Tenberg, Ralf}, publisher = {Franz Steiner Verlag}, address = {Stuttgart}, publisher = {Technische Hochschule Rosenheim}, pages = {83 -- 112}, year = {2020}, language = {de} } @incollection{WeberSchumannAchtenhagenetal.2021, author = {Weber, Susanne and Schumann, Matthias and Achtenhagen, Frank and Bley, Sandra and Hackenberg, Tobias and Kreuzer, Christine and Meyer von Wolff, Raphael and Off, Mona and Ritter von Marx, Susanne and Wesseloh, Hendrik}, title = {Entwicklung einer App-basierten Lernumgebung zur Vermittlung einer nachhaltigen Gestaltungskompetenz im Einzelhandel}, series = {Berufsbildung f{\"u}r eine nachhaltige Entwicklung}, booktitle = {Berufsbildung f{\"u}r eine nachhaltige Entwicklung}, editor = {Melzig, Christian and Kuhlmeier, Werner and Kretschmer, Susanne}, publisher = {Barbara Budrich}, address = {Bonn}, organization = {Bundesinstitut f{\"u}r Berufsbildung}, url = {http://nbn-resolving.de/urn:nbn:de:0035-0890-0}, publisher = {Technische Hochschule Rosenheim}, pages = {37 -- 61}, year = {2021}, language = {de} } @incollection{WeberDraxlerAchtenhagenetal.2021, author = {Weber, Susanne and Draxler, Clemens and Achtenhagen, Frank and Bley, Sandra and Wiethe-K{\"o}rprich, Michaela and Kreuzer, Christine and Can, G{\"u}rer}, title = {Chapter 13 Measuring Apprentices' Intrapreneurship Competence in Vocational Education and Training (VET): An Interdisciplinary Model-Based Assessment}, series = {Good Teachers for Tomorrow's Schools}, booktitle = {Good Teachers for Tomorrow's Schools}, publisher = {Brill}, address = {Leiden}, doi = {10.1163/9789004465008_014}, publisher = {Technische Hochschule Rosenheim}, pages = {257 -- 279}, year = {2021}, abstract = {Teachers should be able to balance content knowledge, pedagogical knowledge and technological knowledge (TPACK) in their various activities on curriculum, instruction, and assessment. Our Germany-wide study focused on measuring intrapreneurship competence. To ensure a valid and reliable assessment, we followed the three-step assessment triangle: cognition, observation and interpretation. We modeled the intended IP competence as an interdisciplinary and interprofessional team, designed a technology-based performance assessment tool that uses authentic work tasks, and analyzed apprentices' behavior via a model-based IRT (Rasch model) approach. Our results identify the distribution of the IP competence of apprentices on four proficiency levels. Since these results are generalizable, single IP tasks can be used by teachers to support and guide apprentices individually with regard to these proficiency levels. Our approach is a blueprint for evidence-based teaching that tackles all areas of TPACK.}, language = {en} } @incollection{KreuzerOffSusanneetal.2021, author = {Kreuzer, Christine and Off, Mona and Susanne, Weber and Bley, Sandra}, title = {„What a Feeling" - Emotionale Ansprache von Auszubildenden zur F{\"o}rderung nachhaltigen Konsumverhaltens}, series = {Berufsbildung f{\"u}r nachhaltige Entwicklung}, booktitle = {Berufsbildung f{\"u}r nachhaltige Entwicklung}, editor = {Michaelis, Christian and Berding, Florian}, publisher = {wbv Media}, address = {Bielefeld}, doi = {10.3278/9783763970438}, publisher = {Technische Hochschule Rosenheim}, pages = {261 -- 282}, year = {2021}, abstract = {Im Bereich des nachhaltigen Konsums besteht eine Kluft zwischen der Bereitschaft nachhaltig zu handeln und dem tats{\"a}chlichen Handeln. Eine M{\"o}glichkeit diese L{\"u}cke zu schließen, wird in der Emotionalisierung von Konsumenten gesehen. Ein Medium der zielgruppenspezifischen Nachhaltigkeitskommunikation sind Sensibilisierungsvideos. Auszubildende als junge Konsumenten, die Konsumentscheidungen langfristig beeinflussen k{\"o}nnen, verwenden Videos zum Lernen. Ziel dieser Studie ist es daher, die Wirkung der Sensibilisierungsvideos bezogen auf die Emotionalisierung der Intention, nachhaltig zu konsumieren, und das realisierte Konsumverhalten zu untersuchen. Um Emotionen hervorzurufen, wurden 45 Auszubildenden f{\"u}nf Sensibilisierungsvideos mit dem thematischen Schwerpunkt des nachhaltigen Konsums gezeigt. Mit Hilfe eines Ein-Gruppen-Vergleichs mit Vor- und Nachtest wurde {\"u}ber vier Erhebungszeitpunkte hinweg {\"u}berpr{\"u}ft, ob sich die Emotionen, die Intention und das realisierte Konsumverhalten im Zeitverlauf ver{\"a}ndern. Die Daten wurden sowohl qualitativ als auch quantitativ ausgewertet und analysiert. Es hat sich gezeigt, dass die Sensibilisierungsvideos bei den Auszubildenden sowohl positive als auch negative Emotionen hervorrufen. Im Zeitverlauf nehmen die positiven Emotionen im Vergleich leicht zu. Das Ausmaß, in dem die Auszubildenden an nachhaltige Aspekte beim Einkauf denken, verzeichnet {\"a}hnlich wie die Intention einen Zuwachs. Diese Steigerung findet sich jedoch nicht f{\"u}r die berichteten nachhaltigen Kaufmaßnahmen. So ist davon auszugehen, dass die Videos zwar zu einem st{\"a}rkeren nachhaltigen Denken und einer st{\"a}rkeren Intention angeregt, die L{\"u}cke zwischen dem Denken und Handeln aber nicht vollst{\"a}ndig geschlossen haben.}, language = {de} } @article{BleyHeindl2023, author = {Bley, Sandra and Heindl, Johanna}, title = {Ingenieurp{\"a}dagogik an der Technischen Hochschule Rosenheim. - eine Laufbahn im beruflichen Lehramt die mit der Liebe zum Holz beginnt}, series = {BAG Report}, volume = {2023}, journal = {BAG Report}, number = {02}, organization = {BAG Bau-Holz-Farbe e.V.}, pages = {20 -- 29}, year = {2023}, abstract = {Die Technische Hochschule Rosenheim ist {\"u}berregional bekannt f{\"u}r Ihre Expertise im Fachbereich Holz und Bau. Nach dem Vorbild des kooperativen Modells der Hochschule Landshut in Kooperation mit der TU M{\"u}nchen implementierte die TH Rosenheim im Jahr 2020 den Studiengang Ingenieurp{\"a}dagogik f{\"u}r den Fachbereich Bautechnik mit der Option Holztechnik als Unterrichtsfach. Der Beitrag skizziert Motive, Strukturelemente sowie erste Entwicklungen. Dabei lassen erste deskriptive Ergebnisse die Hoffnung zu, dass sich {\"u}ber das Modell neue Zielgruppen f{\"u}r eine Karriere im Lehramt an beruflichen Schulen generieren lassen. Besonders auff{\"a}llig f{\"u}r das Rosenheimer Modell ist die Bedeutsamkeit der Polyvalenz sowie das Interesse an einer praxisnahen Ausbildung rund um den Werk- und Baustoff Holz.}, language = {de} }