Sinergetika obdelovalnih procesov (Slovene)

Code

J2-2248 (C) - included in ARIS records

Head

PhD Janez Gradišek

Period

1/1/2000 - 6/30/2002

Range in 2002

0.09 FTE

Science

Natural sciences and mathematics (1)
Engineering sciences and technologies (5)

Reseacher status

Researcher (6)
Junior expert or technical associate (0)

Education

Doctor's degree (6)

Sex

Man (6)

Status

Employed at RO and RRD (3)
No data on employment in RO (2)
Retired (1)

No. of publications

10–99 (3)
100–999 (3)

Projects / Programmes source: ARIS

source: ARIS

Sinergetika obdelovalnih procesov (Slovene)

Research activity

Code	Science	Field	Subfield
2.21.00	Engineering sciences and technologies	Technology driven physics

Code	Science	Field
T121	Technological sciences	Signal processing

Keywords

synergetics, non-linear dynamics, stochastic process, manufacturing processes

Evaluation (rules)

source: COBISS

Evaluation of bibliographic research performance indicators according to ARIS methodology

Citations Citations for bibliographic records in COBIB.SI that are linked to records in citation databases

source: WoS

source: Scopus

source: COBISS

Researchers (6)

no.	Code	Name and surname	Research area	Role	Period	No. of publicationsNo. of publications
1.	08782	PhD Edvard Govekar	Manufacturing technologies and systems	Researcher	2000 - 2002	429
2.	00800	PhD Igor Grabec	Computer science and informatics	Researcher	2000 - 2002	696
3.	18081	PhD Janez Gradišek	Mechanical design	Head	2000 - 2002	92
4.	11438	PhD Miran Kokol	Computer science and informatics	Researcher	2000 - 2002	16
5.	18294	PhD Simon Mandelj	Computer intensive methods and applications	Researcher	2000 - 2002	23
6.	15107	PhD Primož Potočnik	Computer science and informatics	Researcher	2000 - 2002	182

Organisations (1)

no.	Code	Research organisation	City	Registration number	No. of publicationsNo. of publications
1.	0782	University of Ljubljana, Faculty of Mechanical Engineering	Ljubljana	1627031	29,252

Abstract

In the project, we shall explore those fundamental physical properties of manufacturing processes which result from interactions of many fundamental dynamic phenomena and lead to complex nature of dynamics of manufacturing processes. Our research will cover mainly cutting manufacturing processes, such as turning, milling, and grinding. The basic task will be experimental exploration, followed by characterization of self-organizing, deterministic, and stochastic properties of a process. Based on process charaterization, possibilites of process control will be analysed. A portion of the research will be devoted to analytical modeling of processes and to development of experimental methods and methods for analysis of stochastic processes. In addition to the latter, methods stemming from non-linear and chaotic dynamics will be applied for the purpose of process characterization. Experimental work will be oriented primarily towards the analysis of chatter which represents an unfavorable cutting phenomenon.