Zusammenfassung
The building industry is becoming digitized, this can be seen from the current general attention around Building Information Modelling (BIM). BIM is strongly planning-oriented though. For many other applications, the methodology must be extended and adapted. As a result of digitization, the flow of information is increasing strongly leading to new processes, tasks, and services. As this occurs in an interdisciplinary process, the data can be handled only in an interdisciplinary way.
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Literatur
[1] Construction Excellence (2004) Construction Logistics: Models for consolidation
[2] Methanivesana N, Matouzko V (2012) Improving Construction Logistics: A case study of Residential Building Project
[3] Helmus M, Kelm A, Laußat L et al. (2009) RFID in der Baulogistik: Forschungsbericht zum Projekt „Integriertes Wertschöpfungsmodell mit RFID in der Bau- und Immobilienwirtschaft“, 1. Aufl. Vieweg+Teubner Verlag / GWV Fachverlage GmbH Wiesbaden, Wiesbaden
[4] Baptista Serra SM, José de Oliveira O (eds) (2003) Development of the logistics plans in building construction
[5] Agapiou A, Clausen LE, Flanagan R et al. (1998) The role of logistics in the materials flow control process. Construction Management and Economics 16(2): 131–137. https://doi.org/10.1080/014461998372420
[6] Sobotka A, Czarnigowska A, Stefaniak K (2005) Logistics of Construction Projects. Foundations of Civil and Environmental Engineering
[7] Ala-Risku T, Kärkkäinen M (2006) Material delivery problems in construction projects: A possible solution. International Journal of Production Economics 104(1): 19–29. https://doi.org/10.1016/j.ijpe.2004.12.027
[8] Behera P, Mohanty RP, Prakash A (2015) Understanding Construction Supply Chain Management. Production Planning & Control: The Management of Operations 26(16): 1332–1350. https://doi.org/10.1080/09537287.2015.1045953
[9] Papadopoulos GA, Zamer N, Gayialis SP et al. (2016) Supply Chain Improvement in Construction Industry. Universal Journal of Management 4(10): 528–534. https://doi.org/10.13189/ujm.2016.041002
[10] Patel KV, Vyas CM (2011) Construction Material Management on Project Sites. In: National Conference on Recent Trends in Engineering & Technology, Vallabh Vidyanagar (Gujarat), India
[11] Cheng J, Kumar S (eds) (2015) A BIM-based framework for material logistics planning
[12] NBS (2016) What is Building Information Modelling (BIM)? https://www.thenbs.com/knowledge/what-is-building-information-modelling-bim. Accessed 18 Jun 2018
[13] Tekla (2014) What is BIM? https://www.tekla.com/uk/about/what-is-bim. Accessed 18 Jun 2018
[14] Fiallo M, Revelo V (eds) (2002) Applying the Last Planner Control System to a construction project: A case study in Quito, Ecuador
[15] Jehle P, Seyffert S, Wagner S (2011) IntelliBau: Anwendbarkeit der RFID-Technologie im Bauwesen. Vieweg + Teubner Verlag, Wiesbaden, Germany
[16] Helmus M, Meins-Becker A, Laußat L et al. (2009) RFID in der Baulogistik: Forschungsbericht zum Projekt „Integriertes Wertschöpfungsmodell mit RFID in der Bau- und Immobilienwirtschaft“. Vieweg + Teubner Verlag, Wiesbaden, Germany
[17] Costin A, Pradhananga N, Teizer J (eds) (2014) Passive RFID and BIM for Real-Time Visualization and Location Tracking, Atlanta, Georgia, USA
[18] Hans Schulz, Steffen Rabe (2013) AutoBauLog – Autonome Steuerung in der Baustellenlogistik
[19] Spengler AJ, Malkwitz A, Ehlers J et al. (2017) Supply Chain Tracking im BIM Modell. In: Proff H, Fojcik TM (eds) Innovative Produkte und Dienstleistungen in der Mobilität: Technische und betriebswirtschaftliche Aspekte. Springer Fachmedien Wiesbaden, Wiesbaden, Germany, pp 571–582
[20] Schober K-S, Hoff P, Sold K (2016) Digitization in the construction industry: Building Europe’s road to “Construction 4.0”. THINK ACT
[21] Göpfert I (2012) Logistik der Zukunft – Logistics for the Future, 6th edn. Gabler Verlag, Wiesbaden, Germany
[22] Precht P (2012) Nutzenprognose der RFID-Technologie: Ein Beitrag zur vorausschauenden Strukturierung, Beschreibung und Bewertung der Nutzenpotenziale von RFID-Anwendungen in der Logistik. Dissertation, Universität Erlangen-Nürnberg, Germany. Schriftenreihe Logistik und Informationstechnologien, vol 1. Fraunhofer, Stuttgart, Germany
[23] Alias C, Özgür Ç, Yang Q et al. (2016) A System of Multi-Sensor Fusion for Activity Monitoring of Industrial Trucks in Logistics Warehouses. In: Proceedings of the ASME International Design Engineering Technical Conferences and Computers and Information in Engineering Conference 2015: Volume 1B: 35th Computers and Information in Engineering Conference. ASME, New York City (NY), USA, V01BT02A047, 10 pages
[24] Özgür Ç, Alias C, Noche B (2016) Comparing Sensor-Based and Camera-Based Approaches to Recognizing the Occupancy Status of the Load Handling Device of Forklift Trucks. Logistics Journal: 9 pages. https://doi.org/10.2195/lj_proc_oezguer_en_201605_01
[25] Borstell H, Kluth J, Jaeschke M et al. (2014) Pallet monitoring system based on a heterogeneous sensor network for transparent warehouse processes. In: 2014 Sensor Data Fusion: Trends, Solutions, Applications (SDF). IEEE, pp 1–6
[26] Moya Rueda F, Grzeszick R, Fink G et al. (2018) Convolutional Neural Networks for Human Activity Recognition Using Body-Worn Sensors. Informatics 5(2): 26. https://doi.org/10.3390/informatics5020026
[27] Alias C, Özgür Ç, Noche B (2016) Monitoring Production and Logistics Processes with the Help of Industrial Image Processing. In: 27th Annual POMS Conference 2016: Innovative Operations in an Information and Analytics Driven Economy, 10 pages
[28] Borstell H, Pathan S, Cao L et al. (2013) Vehicle positioning system based on passive planar image markers. In: International Conference on Indoor Positioning and Indoor Navigation. IEEE, pp 1–9
[29] Timm C, Weichert F, Fiedler D et al. (2011) Decentralized Control of a Material Flow System Enabled by an Embedded Computer Vision System. In: 2011 IEEE International Conference on Communications Workshops (ICC). IEEE, pp 1–5
[30] Weichert F, Fiedler D, Hegenberg J et al. (2010) Marker-based tracking in support of RFID controlled material flow systems. Logistics Research 2(1): 13–21. https://doi.org/10.1007/s12159-010-0025-6
[31] Alias C, Jawale M, Goudz A et al. (2014) Applying Novel Future-Internet-Based Supply Chain Control Towers to the Transport and Logistics Domain. In: Proceedings of the ASME 12th Biennial Conference on Engineering Systems Design and Analysis 2014: Volume 3: Engineering Systems; Heat Transfer and Thermal Engineering; Materials and Tribology; Mechatronics; Robotics. ASME, New York City (NY), USA, V003T10A012, 9 pages
[32] Lewin M, Weber H, Fay A (2017) Optimization of Production-Oriented Logistics Processes Through Camera-Based Identification and Localization for Cyber-Physical Systems. In: Lödding H, Riedel R, Thoben K-D et al. (eds) Advances in production management systems: The path to intelligent, collaborative and sustainable manufacturing; IFIP WG 5.7 International Conference, APMS 2017, Hamburg, Germany, September 3-7, 2017; proceedings, vol 513. Springer, Cham, Switzerland, pp 168–176
[33] Borstell H (2018) A Short Survey Of Image Processing In Logistics. Preprint. Unpublished
[34] Azuma RT (1997) A Survey of Augmented Reality. Presence: Teleoperators and Virtual Environments 6(4): 355–385. https://doi.org/10.1162/pres.1997.6.4.355
[35] Dörner R, Broll W, Grimm P et al. (2013) Virtual und Augmented Reality (VR / AR). Springer, Berlin/Heidelberg, Germany
[36] Fründ J, Gausemeier J, Grafe M et al. (2004) Augmented Reality as a New User Interface for the Layout Planning of Manufacturing Systems. In: Ong SK, Nee AYC (eds) Virtual and Augmented Reality Applications in Manufacturing. Springer, London, United Kingdom, pp 169–182
[37] Glockner H, Jannek K, Mahn J et al. (2014) Augmented Reality in Logistics: Changing the way we see logistics. A DHL perspective, Troisdorf, Germany
[38] Reif R (2009) Entwicklung und Evaluierung eines Augmented Reality unterstützten Kommissioniersystems. Dissertation. Technische Universität München, Garching (near Munich), Germany
[39] Abel D, Schmitz M, Wenzel S (2011) Nutzung von Virtual Reality zur Personalqualifizierung in der Produktions- und Logistikplanung. Zeitschrift für wirtschaftlichen Fabrikbetrieb 106(10): 721–725
[40] Brill M (2009) Virtuelle Realität. Erstes Lehrbuch zur Virtuellen Realität. Springer, Berlin/ Heidelberg, Germany
[41] Gutiérrez MAA, Thalmann D, Vexo F (2008) Stepping into Virtual Reality. Springer, London, United Kingdom
[42] Warnecke HJ, Bullinger H-J (1993) Virtual Reality: Anwendungen und Trends. IPA-IAO – Forschung und Praxis, vol 35. Springer, Berlin/Heidelberg, Germany
[43] Leitão P, Colombo AW, Karnouskos S (2016) Industrial automation based on cyber-physical systems technologies: Prototype implementations and challenges. Computers in Industry 81: 11–25. https://doi.org/10.1016/j.compind.2015.08.004
[44] Lee EA, Seshia SA (2012) Introduction to embedded systems: A cyber physical systems approach, 1st edn. LeeSeshia.org, Lulu
[45] Hribernik K, Warden T, Thoben K-D et al. (2010) An Internet of Things for Transport Logistics: An Approach to Connecting the Information and Material Flows in Autonomous Cooperating Logistics Processes. In: Hvolby H-H, Gundelund CH, Nielsen P et al. (eds) Proceedings of the 12th International Conference on Modern Information Technology & Innovation Processes of the Enterprises. Aalborg University, Denmark, Aalborg, Denmark, pp 54–67
[46] Kohnhauser V, Schobesberger M, Siller M et al. (2017) Wege zu Smart Logistics: Integration von Informations- und Kommunikationstechnologien in KMU. Salzburger Managementstudien, Salzburg, Austria
[47] Ollesch J, Hesenius M, Gruhn V et al. (2018) Real-time Event Processing for Smart Logistics Networks. In: Proff H, Fojcik TM (eds) Mobilität und digitale Transformation: Technische und wirtschaftliche Aspekte. Springer Fachmedien Wiesbaden, Wiesbaden, Germany, pp 517–532
[48] Prasse C, Nettstraeter A, Hompel M ten (2014) How IoT will change the design and operation of logistics systems. In: 2014 International Conference on the Internet of Things (IOT). IEEE, pp 55–60
[49] Seitz K-F, Nyhuis P (2015) Cyber-Physical Production Systems Combined with Logistic Models – A Learning Factory Concept for an Improved Production Planning and Control: A Learning Factory Concept for an Improved Production Planning and Control. Procedia CIRP 32: 92–97. https://doi.org/10.1016/j.procir.2015.02.220
[50] Etzion O, Niblett P (2011) Event Processing in Action. Manning, Greenwich (CT), USA
[51] Luckham D (2008) The Power of Events: An Introduction to Complex Event Processing in Distributed Enterprise Systems. In: Bassiliades N, Governatori G, Paschke A (eds) Rule representation, interchange and reasoning on the web, vol 5321. Springer, Berlin, Germany, p 3
[52] Luckham D (2012) Event Processing for Business. John Wiley & Sons, Inc, Hoboken (NJ), USA
[53] Erl T, Khattak W, Buhler P (2016) Big Data Fundamentals: Concepts, Drivers & Techniques, 1st edn. The Prentice Hall Service Technology Series from Thomas Erl. Prentice Hall ServiceTech Press, Boston (MA), USA
[54] Provost F, Fawcett T (2013) Data science for business: What you need to know about data mining and data-analytic thinking, 1st edn. O’Reilly Media, Sebastopol (CA), USA
[55] Alias C, Lederman Rawet V, Ratton Neto HX et al. (2016) Investigating into the Prevalence of Complex Event Processing and Predictive Analytics in the Transportation and Logistics Sector: Initial Findings from Scientific Literature. In: Proceedings of the 10th Mediterranean Conference on Information Systems 2016 (MCIS 2016). AIS Electronic Library (AISeL), (17 pages)
[56] Hackius N, Petersen M (2017) Blockchain in logistics and supply chain: trick or treat? In: Kersten W, Blecker T, Ringle CM (eds) Proceedings of the Hamburg International Conference of Logistics (HICL) 2017: Volume: Digitalization in Supply Chain Management and Logistics, Hamburg, Germany
[57] Tian F (2016) An agri-food supply chain traceability system for China based on RFID & blockchain technology. In: 2016 13th International Conference on Service Systems and Service Management (ICSSSM). IEEE, pp 1–6
[58] Schluter D, Spengler AJ, Malkwitz A (2018) Auswirkungen von Echtzeitkommunikation in der Baustellenlogistik. In: Proff H, Fojcik TM (eds) Mobilitat und digitale Transformation: Technische und betriebswirtschaftliche Aspekte. Springer Fachmedien Wiesbaden, Wiesbaden, Germany, pp 503–516
[59] Latiffi AA, Brahim J, Fathi MS (2016) Roles and Responsibilities of Construction Players in Projects Using Building Information Modeling (BIM). In: Bouras A, Eynard B, Foufou S et al. (eds) Product lifecycle management in the era of internet of things: PLM 2015. Springer, Cham, Switzerland
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Spengler, A.J., Alias, C., Magallanes, E.G.C., Malkwitz, A. (2019). Benefits of Real-Time Monitoring and Process Mining in a Digitized Construction Supply Chain. In: Proff, H. (eds) Mobilität in Zeiten der Veränderung . Springer Gabler, Wiesbaden. https://doi.org/10.1007/978-3-658-26107-8_30
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