[1. STEVIĆ, M. 2006. Povećanje točnosti merenja numerički upravljanih mernih mašina (Increasing the measuring accuracy of numerically controlled measuring machines). (Monograph). Novi Sad, Fakultet tehničkih nauka, FTN Izdavaštvo,]Search in Google Scholar
[2. NEMEDI, I. 2009. Vrednovanje sistema za merenje kružnosti, magistarski rad (Evaluation of the circular measuring system). (Master thesis). Novi Sad, Fakultet tehničkih nauka.]Search in Google Scholar
[3. MAJSTOROVIĆ, V., HODOLIČ, J. 1998. Numerički upravljane merne mašine (Numerically controlled measuring machines). Novi Sad, Fakultet tehničkih nauka, Institut za proizvodno mašinstvo,]Search in Google Scholar
[4. SZILÁGYI, L. 1982. Gépipari hosszmérések, Ipari szakkönyvtár (Industrial library of length measurements in machine industry). Budapest, Műszaki Könyvkiadó,]Search in Google Scholar
[5. GRAHAM, B. 2002. Scanning and digitising solutions, Metrology Division. Renishaw, USA.]Search in Google Scholar
[6. MÁTÉ, M., HOLLANDA, D. 2017. About the Profile Accuracy of the Involute Gear Hob. Acta Universitatis Sapientiae Electrical and Mechanical Engineering, 9(1) pp. 5-19.10.1515/auseme-2017-0006]Search in Google Scholar
[7. PÁSZTOR, J., FORGÓ, Z., VLAD, C. 2013. The Dynamic Modeling of the Oscillating Harrow’s Fangs. In: OGÉT 2013 XXI Nemzetközi Gépészeti Találkozó, EMT, pp.310-314. Arad, Romania.]Search in Google Scholar
[8. GARBAI, L., JASPER, A. 2017. Operation of looped district heating networks. Periodica Polytechnica-Mechanical Engineering, 61(2) pp. 79-86.10.3311/PPme.9256]Search in Google Scholar
[9. Table-Rotating Type Roundness Measuring / Cylindrical Profile Measuring Instruments, Rondcom_Accsy.pdf, Tokio Seimitsu, Japan, 2003. (www.zeiss.de)]Search in Google Scholar