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Okvir za vodenje mehatronskih naprav na osnovi bločno-verižne tehnologije
ID Rožman, Nejc (Author), ID Diaci, Janez (Mentor) More about this mentor... This link opens in a new window

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Abstract
Bločno-verižna tehnologija omogoča vzpostavitev decentraliziranega sistema deljene proizvodnje, ki predlaga povezovanje posameznih mehatronskih naprav v globalno omrežje ponudnikov in porabnikov proizvodnih storitev. Namen takšnega povezovanja je izboljšanje fleksibilnosti globalne proizvodnje in povečanje izkoriščenosti proizvodnih kapacitet. Ključni izziv pri vzpostavitvi takšnega sistema predstavlja izbira in razvoj ustrezne informacijske tehnologije in strojne opreme. Bločno-verižna tehnologija prinaša v sistem omejitve, ki doslej niso vplivale na delovanje proizvodnih sistemov. V doktorski nalogi smo na podlagi pregleda literature razvili metodo nadgradnje mehatronske naprave v avtonomno proizvodno enoto, ki je lahko vodena s pomočjo bločno-verižne tehnologije. Prav tako smo razvili okvir za povezovanje avtonomnih proizvodnih enot v sistemu deljene proizvodnje, ki upošteva omejitve razširljivosti bločno-verižne tehnologije. Za potrebe preverjanja vpliva rešitev za povečevanje razširljivosti bločno-verižne tehnologije na delovanje sistema deljene proizvodnje smo razvili eksperimentalno metodo. Na podlagi razvite metode smo uspešno nadgradili izbrano mehatronsko napravo (3D tiskalnik) v avtonomno proizvodno enoto. Verifikacija razvitega okvirja je pokazala, da uporaba stranskih verig kot rešitev za povečevanje razširljivosti bločno-verižne tehnologije zmanjšuje stroške transakcij proizvodnih storitev in omogoča izvedbo večjega števila transakcij v sistemu. Analiza vpliva rešitev za povečevanje razširljivosti je pokazala, da je z uporabo rešitev možno povečati število proizvodnih enot, ki se lahko vključijo v sistem deljene proizvodnje, ob predpostavki, da v sistemu večina uporabnikov deluje pošteno.

Language:Slovenian
Keywords:bločno-verižna tehnologija, mehatronska naprava, deljena proizvodnja, avtonomna proizvodna enota, rešitve za povečevanje razširljivosti
Work type:Doctoral dissertation
Typology:2.08 - Doctoral Dissertation
Organization:FS - Faculty of Mechanical Engineering
Place of publishing:Ljubljana
Publisher:[N. Rožman]
Year:2023
Number of pages:XXVI, 146 str.
PID:20.500.12556/RUL-149794 This link opens in a new window
UDC:681.5:658.52:338.366(043.3)
COBISS.SI-ID:164542979 This link opens in a new window
Publication date in RUL:10.09.2023
Views:674
Downloads:85
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Secondary language

Language:Unknown
Title:Framework for Control of Mechatronic Devices Based on Blockchain Technology
Abstract:
Blockchain technology facilitates the establishment of a decentralized system of shared manufacturing, which enables the interconnection of individual mechatronic devices within a global network of providers and consumers of production services. The primary aim of this interconnection is to enhance the flexibility of global production and boost the utilization of production capabilities. However, the selection and development of suitable information technology and hardware present the main challenge. The introduction of blockchain technology introduces limitations to the system that have not been witnessed in existing production systems. This doctoral thesis presents a new approach for upgrading a mechatronic device into an autonomous production unit, which can be controlled using blockchain technology. Furthermore, a framework has been developed for connecting autonomous production units in a shared production system that accounts for the scalability limitations of blockchain technology. An experimental method was devised to verify the impact of blockchain technology scalability solutions on the shared manufacturing system's operation. Based on the developed approach, a chosen mechatronic device (3D printer) was successfully transformed into an autonomous production unit. The verification of the framework showed that the use of sidechains, can reduce transaction costs and increase the number of transactions executed in the system. An examination of the effects of scalability solutions demonstrated that it is possible to increase the number of production units that can be incorporated into the shared manufacturing system by utilizing these solutions, contingent upon the premise that the majority of users exhibit non-malicious behavior.

Keywords:blockchain technology, mechatronic device, shared manufacturing, autonomous production unit, scalability solutions

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