Manufacturing Planning and Control
BASIC DATA
course listing
A - main register
course code
MET0065
course title in Estonian
Tootmise planeerimine ja juhtimine
course title in English
Manufacturing Planning and Control
course volume CP
-
ECTS credits
6.00
to be declared
yes
assessment form
Examination
teaching semester
spring
language of instruction
Estonian
English
Study programmes that contain the course
Structural units teaching the course
EM - Department of Mechanical and Industrial Engineering
Timetable link
Version:
VERSION SPECIFIC DATA
course aims in Estonian
Õppimise käigus saadakse teadmisi:
• tootmistehnika põhimõistest ja nende arengutest;
• tootmise planeerimise ja juhtimise rakendustest ja arengutest;
• toote struktuuri ja tootmise arendamise/optimeerimisega seotud probleemidest ettevõttes. Toote tükileht, selle andmete esitamisest ja töötlemisest.;
• materjalivajaduste, tootmisressursside ja ettevõtete koostöövõrkude ja tarneahelate planeerimise süsteemidest (MRP, MRP II, ERP, APS jne) ja nende rakendamisest;
• tootmise planeerimises kasutatavad arvutusmeetoditest, sh optimaalse seerialisuse ja partii suuruse määramine, materjalide ja ostutoodete vajaduse määramine, ressursside vajaduse määramine, optimaalse tootmisplaani leidmine jms.;
• tootmise juhtimise sh varudeta tootmise (JIT), Kanban juhtimissüsteemide jt kasutamise põhimõtetest ja rakendamisest tootmisettevõttes.
• tootmistehnika põhimõistest ja nende arengutest;
• tootmise planeerimise ja juhtimise rakendustest ja arengutest;
• toote struktuuri ja tootmise arendamise/optimeerimisega seotud probleemidest ettevõttes. Toote tükileht, selle andmete esitamisest ja töötlemisest.;
• materjalivajaduste, tootmisressursside ja ettevõtete koostöövõrkude ja tarneahelate planeerimise süsteemidest (MRP, MRP II, ERP, APS jne) ja nende rakendamisest;
• tootmise planeerimises kasutatavad arvutusmeetoditest, sh optimaalse seerialisuse ja partii suuruse määramine, materjalide ja ostutoodete vajaduse määramine, ressursside vajaduse määramine, optimaalse tootmisplaani leidmine jms.;
• tootmise juhtimise sh varudeta tootmise (JIT), Kanban juhtimissüsteemide jt kasutamise põhimõtetest ja rakendamisest tootmisettevõttes.
course aims in English
During the studies students will get next knowledge:
• production engineering main terms and trends;
• manufacturing planning and management applications and trends;
• product structure and production optimization cases in enterprises. Bill of material and its data introduction and optimization;
• material requirement, manufacturing resource, enterprise resource and advanced planning and scheduling systems (MRP, MRP II, ERP, APS etc) and theirs applications;
• calculation methods in manufacturing planning, including optimal series and economic order quantity, inventory management, dynamic lot-sizing, the capacity planning, shop-floor planning etc;
• production management including just in time (JIT), Kanban and others management systems implementation and optimization in production enterprises.
• production engineering main terms and trends;
• manufacturing planning and management applications and trends;
• product structure and production optimization cases in enterprises. Bill of material and its data introduction and optimization;
• material requirement, manufacturing resource, enterprise resource and advanced planning and scheduling systems (MRP, MRP II, ERP, APS etc) and theirs applications;
• calculation methods in manufacturing planning, including optimal series and economic order quantity, inventory management, dynamic lot-sizing, the capacity planning, shop-floor planning etc;
• production management including just in time (JIT), Kanban and others management systems implementation and optimization in production enterprises.
learning outcomes in the course in Est.
Õppeaine positiivse tulemusega sooritanud üliõpilane:
• teab tootmise iseloomustamiseks vajalikke põhimõisteid ning oskab neid hinnata;
• oskab kasutada kaasaegse infotehnoloogia rakendamise põhimõtteid tootmise planeerimises;
• oskab kasutada põhiliste tootmise planeerimise süsteemide (MRP. MRP II, ERP, APS) poolt lahendatavaid ülesandeid ja nende süsteemide
arenguid;
• oskab kasutada kaasaegseid tootmise korraldamise meetodeid (JIT,
kulusäästlik tootmine, Kanban jt).
• teab tootmise iseloomustamiseks vajalikke põhimõisteid ning oskab neid hinnata;
• oskab kasutada kaasaegse infotehnoloogia rakendamise põhimõtteid tootmise planeerimises;
• oskab kasutada põhiliste tootmise planeerimise süsteemide (MRP. MRP II, ERP, APS) poolt lahendatavaid ülesandeid ja nende süsteemide
arenguid;
• oskab kasutada kaasaegseid tootmise korraldamise meetodeid (JIT,
kulusäästlik tootmine, Kanban jt).
learning outcomes in the course in Eng.
The student who has accomplished the course with a positive result:
• knows and is able to analyse main terms which help to describe the production in manufacturing company;
• knows mathematical models for describing production planning;
• knows main tasks and trends which can be solved with manufacturing planning systems (MRP, MRP II, ERP, APS etc);
• knows main “pull systems” like just in time, Kanban, lean manufacturing etc).
• knows and is able to analyse main terms which help to describe the production in manufacturing company;
• knows mathematical models for describing production planning;
• knows main tasks and trends which can be solved with manufacturing planning systems (MRP, MRP II, ERP, APS etc);
• knows main “pull systems” like just in time, Kanban, lean manufacturing etc).
brief description of the course in Estonian
Tootmistehnika põhimõisted ja areng. Tootmisressursside planeerimise ja tootmise juhtimise süsteemid (MRP, MRP II, ERP, jms.): liigitus ja iseloomustus (lahendatavad ülesanded). Toote tükileht, tootestruktuuri arendamine. Tootmise planeerimises kasutatavad arvutusmeetodid, optimaalse seerialisuse ja partii suuruse määramine, materjalide ja ostutoodete vajaduse määramine, ressursside vajaduse määramine, optimaalse tootmisplaani leidmine jms. Ettevõtete koostöövõrgud ja tarneahelad ja nende tegevuse planeerimine. Tootmise juhtimine. Varudeta tootmine (JIT), Kanban juhtimissüsteemid. Kvaliteedi juhtimise süsteemid ja nende rakendamine.
brief description of the course in English
Production engineering main terms and trends. Manufacturing planning and management applications. Product structure and production optimization cases in enterprises. Bill of material and its data introduction and optimization. Different manufacturing planning and control systems (material requirement planning, manufacturing resource planning, enterprise resource planning and advanced planning and scheduling) overview and applications in different manufacturing planning case studies. Calculation methods in manufacturing planning, including optimal series and economic order quantity, inventory management, dynamic lot-sizing, the capacity planning, shop-floor planning etc. Production management systems (including just in time (JIT), Kanban etc) overview and applications in different manufacturing planning case studies.
type of assessment in Estonian
Eksami eeldus: neli (4) tootmismängu, 2 kodutööd ja 2 testi. Kirjalik eksam.
type of assessment in English
Examination prerequisite: four (4) production games, 2 homeworks and 2 tests. Written examination.
independent study in Estonian
Iseseisva töö eesmärgid:
• kinnistada auditoorselt läbivõetud materjali iseseisva mõtestatud tegevusega,
• omandada vilumusi tootmise planeerimise ja juhtimise ülesannete lahendamisel.
Iseseisva töö sisu ja maht:
• kaks (2) kodutööd kursuse erinevatel teemadel – 52 tundi,
• ettevalmistus eksamiks – 24 tundi
• kinnistada auditoorselt läbivõetud materjali iseseisva mõtestatud tegevusega,
• omandada vilumusi tootmise planeerimise ja juhtimise ülesannete lahendamisel.
Iseseisva töö sisu ja maht:
• kaks (2) kodutööd kursuse erinevatel teemadel – 52 tundi,
• ettevalmistus eksamiks – 24 tundi
independent study in English
Goals of individual work:
• to deepen the knowledge developed in lectures and seminars by individual analysis work,
• to develop skills of solving practical problems of manufacturing planning and control.
Content and volume of individual work:
• two (2) homeworks on different course topics – 52 hours,
• preparation for written test – 24 hours
• to deepen the knowledge developed in lectures and seminars by individual analysis work,
• to develop skills of solving practical problems of manufacturing planning and control.
Content and volume of individual work:
• two (2) homeworks on different course topics – 52 hours,
• preparation for written test – 24 hours
study literature
J. Riives, Uuenduslik tootmine, TTÜ Kirjastus, Tallinn 2011
W.J. Hopp, M.L. Spearman. Factory Physics. Foundation of Manufacturing Management. Boston (Mass.): Irwin McGraw-Hill, 2008.
Benton, Jr. W.C. Purchasing and supply management. Boston. (Mass.) : McGraw-Hill, 2007.
W.J. Hopp, M.L. Spearman. Factory Physics. Foundation of Manufacturing Management. Boston (Mass.): Irwin McGraw-Hill, 2008.
Benton, Jr. W.C. Purchasing and supply management. Boston. (Mass.) : McGraw-Hill, 2007.
study forms and load
daytime study: weekly hours
4.0
session-based study work load (in a semester):
lectures
2.0
lectures
-
practices
0.0
practices
-
exercises
2.0
exercises
-
lecturer in charge
-
LECTURER SYLLABUS INFO
semester of studies
teaching lecturer / unit
language of instruction
Extended syllabus
2024/2025 spring
Kristo Karjust, EM - Department of Mechanical and Industrial Engineering
Estonian