Secondary language: |
English |
Secondary title: |
Linear schedling of construction projects by using Tilos 6.0 software |
Secondary abstract: |
The following thesis focuses on the linear planning method. The method is particularly useful when planning linear objects, such as roads, pipelines, tunnels, railways, sewerage and in some instances multi-storied buildings. The advantage of linear planning is primarily its two-dimensionality. One axis shows time and the other location, which enables a clear comparison between the planned and the current state of the plan. When using the network planning method, the linear object must be divided into sections, and each section must have a network structure of activities applied. The more sections, the more precise and complex the plan, which can lead to difficulties monitoring the project. Computer support has an important role in schedule-planning. It enables fast updating or correcting the plan, the use of an existing similar plan and working with a distant-access simultaneously. In the program Tilos, which supports linear planning, I analyzed the existing schedule-plan for the Kidričevo- Rogatec pipeline that was made in MS Project. My focus was primarily on the possible mistakes in the existing plan due to the use of the network planning method for planning linear objects, such as collisions and incorrect sequence of activities. Implementing the critical path test and using various sources I attempted to point out the advantages and disadvantages of the Tilos program, compared to the MS Project. |
Secondary keywords: |
linear scheduling;computer support;Tilos;LSM;CPM; |
File type: |
application/pdf |
Type (COBISS): |
Undergraduate thesis |
Thesis comment: |
Univ. v Ljubljani, Fak. za gradbeništvo in geodezijo |
Pages: |
XI, 70 str., pril. |
Type (ePrints): |
thesis |
Title (ePrints): |
Linear scheduling of construction projects by using Tilos 6.0 |
Keywords (ePrints): |
linearno planiranje;raĉunalniška podpora;Tilos;LSM;CPM |
Keywords (ePrints, secondary language): |
linear scheduling;computer support;Tilos;LSM;CPM |
Abstract (ePrints): |
V diplomskem delu sem obravnaval linearno tehniko planiranja. Uporaba te je smiselna pri načrtovanju gradnje
linearnih objektov, med katere sodijo ceste, plinovodi, predori, ţeleznice, kanalizacije in v nekaterih primerih
visoke stavbe.
Prednost linearnega planiranja se kaţe predvsem v dvodimenzionalnosti. Na eni osi čas in na drugi lokacija
omogočata jasno primerjavo med načrtovano in dejansko realizacijo plana.
Linearni objekt, ki je načrtovan s tehniko mreţnega planiranja, je potrebno razdeliti na odseke in znotraj vsakega
določiti mreţno strukturo dejavnosti. Več kot je odsekov, bolj natančen in kompleksen je plan, kar lahko
predstavlja teţave pri spremljavi projekta.
Računalniška podpora ima pri izdelavi terminskega plana pomembno vlogo. Omogoča hitro posodabljanje plana,
korekcijo naknadno ugotovljenih napak v planu, uporabo obstoječega pri izdelavi podobnega plana ter hkratno
sodelovanje na daljavo.
V Tilosu, programskem orodju, ki je namenjeno linearnemu planiranju, sem analiziral obstoječi terminski plan
plinovoda Kidričevo – Rogatec, izdelan v MS Projectu. Pri tem sem se osredotočil predvsem na morebitne
napake obstoječega plana, kot so potencialna sočasna izvajanja več dejavnosti na isti lokaciji in nepravilna
zaporedja dejavnosti, ki so posledica načrtovanja linearnega objekta z mreţno metodo planiranja. S testi kritične
poti in dela z viri sem poskušal poiskati prednosti in slabosti Tilosa v primerjavi z MS Projectom. |
Abstract (ePrints, secondary language): |
The following thesis focuses on the linear planning method. The method is particularly useful when planning linear objects, such as roads, pipelines, tunnels, railways, sewerage and in some instances multi-storied buildings. The advantage of linear planning is primarily its two-dimensionality. One axis shows time and the other location, which enables a clear comparison between the planned and the current state of the plan. When using the network planning method, the linear object must be divided into sections, and each section must have a network structure of activities applied. The more sections, the more precise and complex the plan, which can lead to difficulties monitoring the project. Computer support has an important role in schedule-planning. It enables fast updating or correcting the plan, the use of an existing similar plan and working with a distant-access simultaneously. In the program Tilos, which supports linear planning, I analyzed the existing schedule-plan for the Kidričevo- Rogatec pipeline that was made in MS Project. My focus was primarily on the possible mistakes in the existing plan due to the use of the network planning method for planning linear objects, such as collisions and incorrect sequence of activities. Implementing the critical path test and using various sources I attempted to point out the advantages and disadvantages of the Tilos program, compared to the MS Project. |
Keywords (ePrints, secondary language): |
linear scheduling;computer support;Tilos;LSM;CPM |
ID: |
8310658 |